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| [[File:Bild_Effectors.png|thumb|left|160px| '''Figure 1:''' Effectors]] | | [[File:Bild_Effectors.png|thumb|left|160px| '''Figure 1:''' Effectors]] |
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- | For the development of a transgenic water filter it is an essential task to create a collection of well described and functional effector proteins which are either able to bind ([https://2013.igem.org/Team:TU-Munich/Project/Bioaccumulation BioAccumulation]) or to degrade ([https://2013.igem.org/Team:TU-Munich/Project/Biodegradation BioDegradation]) xenobiotics which are present in the aquatic environment. This task was completed by the production of relevant effector proteins in ''E. coli'' and their subsequent purification and characterization. Deliberately we have chosen some well established BioBricks from the last years such as a laccase (<partinfo>BBa_K1159002</partinfo>) or the catechol dioxigenase (<partinfo>BBa_K648011</partinfo>) to improve these BioBricks. Beside these improvements we also added new BioBricks to the registry which we characterized ''in vitro'' such as the erythromycin esterase (EreB) (<partinfo>BBa_K1159000</partinfo>) or the NanoLuc luciferase (<partinfo>BBa_K1159001</partinfo>) which will be a useful tool for subsequent generations of iGEM students. For technical questions on our experiments, please see [https://2013.igem.org/Team:TU-Munich/Notebook/Methods protein biochemical methods] for further information. Beside these experiments with recombinant proteins we also characterized our stable transformed moss strains ([https://2013.igem.org/Team:TU-Munich/Results/GM-Moss see GM-Moss section]). | + | For the development of a transgenic water filter it is an essential task to create a collection of well described and functional effector proteins which are either able to bind ([https://2013.igem.org/Team:TU-Munich/Project/Bioaccumulation BioAccumulation]) or to degrade ([https://2013.igem.org/Team:TU-Munich/Project/Biodegradation BioDegradation]) xenobiotics which are present in the aquatic environment. This task was completed by the production of relevant effector proteins in ''E. coli'' and their subsequent purification and characterization. Deliberately we have chosen some well established BioBricks from the last years such as a laccase (<partinfo>BBa_K1159002</partinfo>) or the catechol dioxigenase (<partinfo>BBa_K648011</partinfo>) to improve these BioBricks. Beside these improvements we also added new BioBricks to the registry which we characterized ''in vitro'' such as the erythromycin esterase (EreB) (<partinfo>BBa_K1159000</partinfo>) or the NanoLuc luciferase (<partinfo>BBa_K1159001</partinfo>) which will be a useful tool for subsequent generations of iGEM students. For technical questions on our experiments, please see [https://2013.igem.org/Team:TU-Munich/Notebook/Methods protein biochemical methods] for further information. Beside these experiments with recombinant proteins we also characterized our stable transformed moss strains ([https://2013.igem.org/Team:TU-Munich/Results/GM-Moss see PhyscoFilter section]). |
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- | ==Eryhtromycin Esterase (EreB)== | + | ==Erythromycin Esterase (EreB)== |
| The erythromycin esterase (EreB) is an enzyme found in some strains of ''Escherichia coli'' and which was introduced to the Parts Registry by the TU Munich iGEM Team 2013 in RFC[25]. As this BioBrick is derived from ''Escherichia coli'' it was to expect that it is well expressing in our experiments on recombinant effector proteins. For further information on the theoretical background of EreB please see our [https://2013.igem.org/Team:TU-Munich/Project/Biodegradation BioDegradation page]. | | The erythromycin esterase (EreB) is an enzyme found in some strains of ''Escherichia coli'' and which was introduced to the Parts Registry by the TU Munich iGEM Team 2013 in RFC[25]. As this BioBrick is derived from ''Escherichia coli'' it was to expect that it is well expressing in our experiments on recombinant effector proteins. For further information on the theoretical background of EreB please see our [https://2013.igem.org/Team:TU-Munich/Project/Biodegradation BioDegradation page]. |
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- | ===Protein Data Table for the erythromycin esterase (EreB) <partinfo>BBa_K1159000</partinfo>===
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- | <html><!--- Please copy this table containing parameters for BBa_ at the end of the parametrs section ahead of the references. ---><style type="text/css">table#AutoAnnotator {border:1px solid black; width:100%; border-collapse:collapse;} th#AutoAnnotatorHeader { border:1px solid black; width:100%; background-color: rgb(221, 221, 221);} td.AutoAnnotator1col { width:100%; border:1px solid black; } span.AutoAnnotatorSequence { font-family:'Courier New', Arial; } td.AutoAnnotatorSeqNum { text-align:right; width:2%; } td.AutoAnnotatorSeqSeq { width:98% } td.AutoAnnotatorSeqFeat1 { width:3% } td.AutoAnnotatorSeqFeat2a { width:27% } td.AutoAnnotatorSeqFeat2b { width:97% } td.AutoAnnotatorSeqFeat3 { width:70% } table.AutoAnnotatorNoBorder { border:0px; width:100%; border-collapse:collapse; } table.AutoAnnotatorWithBorder { border:1px solid black; width:100%; border-collapse:collapse; } td.AutoAnnotatorOuterAmino { border:0px solid black; width:20% } td.AutoAnnotatorInnerAmino { border:1px solid black; width:50% } td.AutoAnnotatorAminoCountingOuter { border:1px solid black; width:40%; } td.AutoAnnotatorBiochemParOuter { border:1px solid black; width:60%; } td.AutoAnnotatorAminoCountingInner1 { width: 7.5% } td.AutoAnnotatorAminoCountingInner2 { width:62.5% } td.AutoAnnotatorAminoCountingInner3 { width:30% } td.AutoAnnotatorBiochemParInner1 { width: 5% } td.AutoAnnotatorBiochemParInner2 { width:55% } td.AutoAnnotatorBiochemParInner3 { width:40% } td.AutoAnnotatorCodonUsage1 { width: 3% } td.AutoAnnotatorCodonUsage2 { width:14.2% } td.AutoAnnotatorCodonUsage3 { width:13.8% } td.AutoAnnotatorAlignment1 { width: 3% } td.AutoAnnotatorAlignment2 { width: 10% } td.AutoAnnotatorAlignment3 { width: 87% } td.AutoAnnotatorLocalizationOuter {border:1px solid black; width:40%} td.AutoAnnotatorGOOuter {border:1px solid black; width:60%} td.AutoAnnotatorLocalization1 { width: 7.5% } td.AutoAnnotatorLocalization2 { width: 22.5% } td.AutoAnnotatorLocalization3 { width: 70% } td.AutoAnnotatorGO1 { width: 5% } td.AutoAnnotatorGO2 { width: 35% } td.AutoAnnotatorGO3 { width: 60% } td.AutoAnnotatorPredFeat1 { width:3% } td.AutoAnnotatorPredFeat2a { width:27% } td.AutoAnnotatorPredFeat3 { width:70% } div.AutoAnnotator_trans { position:absolute; background:rgb(11,140,143); background-color:rgba(11,140,143, 0.8); height:5px; top:100px; } div.AutoAnnotator_sec_helix { position:absolute; background:rgb(102,0,102); background-color:rgba(102,0,102, 0.8); height:5px; top:110px; } div.AutoAnnotator_sec_strand { position:absolute; background:rgb(245,170,26); background-color:rgba(245,170,26, 1); height:5px; top:110px; } div.AutoAnnotator_acc_buried { position:absolute; background:rgb(89,168,15); background-color:rgba(89,168,15, 0.8); height:5px; top:120px; } div.AutoAnnotator_acc_exposed { position:absolute; background:rgb(0, 0, 255); background-color:rgba(0, 0, 255, 0.8); height:5px; top:120px; } div.AutoAnnotator_dis { position:absolute; text-align:center; font-family:Arial,Helvetica,sans-serif; background:rgb(255, 200, 0); background-color:rgba(255, 200, 0, 1); height:16px; width:16px; top:80px; border-radius:50%; } </style><div id='AutoAnnotator_container_1380912466041'><table id="AutoAnnotator"><tr><!-- Time stamp in ms since 1/1/1970 1380912466041 --><th id="AutoAnnotatorHeader" colspan="2">Protein data table for BioBrick <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_BBa_K1159000">BBa_BBa_K1159000</a> automatically created by the <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">BioBrick-AutoAnnotator</a> version 1.0</th></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Nucleotide sequence</strong> in <strong>RFC 25</strong>, so ATGGCCGGC and ACCGGT were added (in italics) to the 5' and 3' ends: (underlined part encodes the protein)<br><span class="AutoAnnotatorSequence"> <u><i>ATGGCCGGC</i>AGGTTCGAA ... GTTTATGAA<i>ACCGGT</i></u></span><br> <strong>ORF</strong> from nucleotide position -8 to 1260 (excluding stop-codon)</td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid sequence:</strong> (RFC 25 scars in shown in bold, other sequence features underlined; both given below)<br><span class="AutoAnnotatorSequence"><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqNum">1 <br>101 <br>201 <br>301 <br>401 </td><td class="AutoAnnotatorSeqSeq">MAGRFEEWVKDKHIPFKLNHPDDNYDDFKPLRKIIGDTRVVALGENSHFIKEFFLLRHTLLRFFIEDLGFTTFAFEFGFAEGQIINNWIHGQGTDDEIGR<br>FLKHFYYPEELKTTFLWLREYNKAAKEKITFLGIDIPRNGGSYLPNMEIVHDFFRTADKEALHIIDDAFNIAKKIDYFSTSQAALNLHELTDSEKCRLTS<br>QLARVKVRLEAMAPIHIEKYGIDKYETILHYANGMIYLDYNIQAMSGFISGGGMQGDMGAKDKYMADSVLWHLKNPQSEQKVIVVAHNAHIQKTPILYDG<br>FLSCLPMGQRLKNAIGDDYMSLGITSYSGHTAALYPEVDTKYGFRVDNFQLQEPNEGSVEKAISGCGVTNSFVFFRNIPEDLQSIPNMIRFDSIYMKAEL<br>EKAFDGIFQIEKSSVSEVVYETG*</td></tr></table></span></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Sequence features:</strong> (with their position in the amino acid sequence, see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software/FeatureList">list of supported features</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2b">None of the supported features appeared in the sequence</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid composition:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Ala (A)</td><td class="AutoAnnotatorInnerAmino">27 (6.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Arg (R)</td><td class="AutoAnnotatorInnerAmino">16 (3.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asn (N)</td><td class="AutoAnnotatorInnerAmino">20 (4.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asp (D)</td><td class="AutoAnnotatorInnerAmino">29 (6.9%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Cys (C)</td><td class="AutoAnnotatorInnerAmino">3 (0.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gln (Q)</td><td class="AutoAnnotatorInnerAmino">14 (3.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Glu (E)</td><td class="AutoAnnotatorInnerAmino">30 (7.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gly (G)</td><td class="AutoAnnotatorInnerAmino">31 (7.3%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">His (H)</td><td class="AutoAnnotatorInnerAmino">15 (3.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ile (I)</td><td class="AutoAnnotatorInnerAmino">36 (8.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Leu (L)</td><td class="AutoAnnotatorInnerAmino">34 (8.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Lys (K)</td><td class="AutoAnnotatorInnerAmino">29 (6.9%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Met (M)</td><td class="AutoAnnotatorInnerAmino">12 (2.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Phe (F)</td><td class="AutoAnnotatorInnerAmino">31 (7.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Pro (P)</td><td class="AutoAnnotatorInnerAmino">14 (3.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ser (S)</td><td class="AutoAnnotatorInnerAmino">22 (5.2%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Thr (T)</td><td class="AutoAnnotatorInnerAmino">19 (4.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Trp (W)</td><td class="AutoAnnotatorInnerAmino">4 (0.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Tyr (Y)</td><td class="AutoAnnotatorInnerAmino">19 (4.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Val (V)</td><td class="AutoAnnotatorInnerAmino">18 (4.3%)</td></tr></table></td></tr></table></td></tr><tr><td class="AutoAnnotatorAminoCountingOuter"><strong>Amino acid counting</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Total number:</td><td class="AutoAnnotatorAminoCountingInner3">423</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Positively charged (Arg+Lys):</td><td class="AutoAnnotatorAminoCountingInner3">45 (10.6%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Negatively charged (Asp+Glu):</td><td class="AutoAnnotatorAminoCountingInner3">59 (13.9%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Aromatic (Phe+His+Try+Tyr):</td><td class="AutoAnnotatorAminoCountingInner3">69 (16.3%)</td></tr></table></td><td class="AutoAnnotatorBiochemParOuter"><strong>Biochemical parameters</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Atomic composition:</td><td class="AutoAnnotatorBiochemParInner3">C<sub>2204</sub>H<sub>3348</sub>N<sub>568</sub>O<sub>636</sub>S<sub>15</sub></td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Molecular mass [Da]:</td><td class="AutoAnnotatorBiochemParInner3">48459.2</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Theoretical pI:</td><td class="AutoAnnotatorBiochemParInner3">5.55</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Extinction coefficient at 280 nm [M<sup>-1</sup> cm<sup>-1</sup>]:</td><td class="AutoAnnotatorBiochemParInner3">50310 / 50498 (all Cys red/ox)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Plot for hydrophobicity, charge, predicted secondary structure, solvent accessability, transmembrane helices and disulfid bridges</strong> <input type='button' id='hydrophobicity_charge_button' onclick='show_or_hide_plot_1380912466041()' value='Show'><span id="hydrophobicity_charge_explanation"></span><div id="hydrophobicity_charge_container" style='display:none'><div id="hydrophobicity_charge_placeholder0" style="width:100%;height:150px"></div><div id="hydrophobicity_charge_placeholder1" style="width:100%;height:150px"></div><div id="hydrophobicity_charge_placeholder2" style="width:100%;height:150px"></div></div></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Codon usage</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Organism:</td><td class="AutoAnnotatorCodonUsage3"><i>E. coli</i></td><td class="AutoAnnotatorCodonUsage3"><i>B. subtilis</i></td><td class="AutoAnnotatorCodonUsage3"><i>S. cerevisiae</i></td><td class="AutoAnnotatorCodonUsage3"><i>A. thaliana</i></td><td class="AutoAnnotatorCodonUsage3"><i>P. patens</i></td><td class="AutoAnnotatorCodonUsage3">Mammals</td></tr><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Codon quality (<a href="http://en.wikipedia.org/wiki/Codon_Adaptation_Index">CAI</a>):</td><td class="AutoAnnotatorCodonUsage3">good (0.74)</td><td class="AutoAnnotatorCodonUsage3">good (0.77)</td><td class="AutoAnnotatorCodonUsage3">good (0.75)</td><td class="AutoAnnotatorCodonUsage3">good (0.80)</td><td class="AutoAnnotatorCodonUsage3">good (0.76)</td><td class="AutoAnnotatorCodonUsage3">good (0.66)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Alignments</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">SwissProt:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/P05789'>P05789</a> (100% identity on 418 AAs), <a href='http://www.uniprot.org/uniprot/P07684'>P07684</a> (24% identity on 381 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">TrEML:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/Q2V0Y9'>Q2V0Y9</a> (100% identity on 418 AAs), <a href='http://www.uniprot.org/uniprot/D7J5T5'>D7J5T5</a> (44% identity on 402 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">PDB:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2qgm'>2qgm</a> (20% identity on 373 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2rad'>2rad</a> (19% identity on 386 AAs)</td></tr></table></td></tr><tr><th id='AutoAnnotatorHeader' colspan="2"><strong>Predictions</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)</th></tr><tr><td class="AutoAnnotatorLocalizationOuter"><strong>Subcellular Localization</strong> (reliability in brackets)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Archaea:</td><td class="AutoAnnotatorLocalization3">cytosol (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Bacteria:</td><td class="AutoAnnotatorLocalization3">cytosol (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Eukarya:</td><td class="AutoAnnotatorLocalization3">cytosol (58%)</td></tr></table></td><td class="AutoAnnotatorGOOuter"><strong>Gene Ontology</strong> (reliability in brackets)<br><table class="AutoAnnotatorNoBorder"><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Molecular Function Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Biological Process Ontology:</td><td class='AutoAnnotatorGO3'><a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0046677'>GO:0046677</a> (51%)</td></tr><tr><td class='AutoAnnotatorGO1'> </td><td class='AutoAnnotatorGO2'> </td><td class='AutoAnnotatorGO3'> </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Predicted features:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Disulfid bridges:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Transmembrane helices:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"> The BioBrick-AutoAnnotator was created by <a href="https://2013.igem.org/Team:TU-Munich">TU-Munich 2013</a> iGEM team. For more information please see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software">documentation</a>.<br>If you have any questions, comments or suggestions, please leave us a <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">comment</a>.</td></tr></table></div><br><!-- IMPORTANT: DON'T REMOVE THIS LINE, OTHERWISE NOT SUPPORTED FOR IE BEFORE 9 --><!--[if lte IE 8]><script language="javascript" type="text/javascript" src="excanvas.min.js"></script><![endif]--><script type='text/javascript' src='http://code.jquery.com/jquery-1.10.0.min.js'></script><script type='text/javascript' src='https://2013.igem.org/Team:TU-Munich/Flot.js?action=raw&ctype=text/js'></script><script>function show_or_hide_plot_1380912466041(){hydrophobicity_datapoints = 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= 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383.5,0.00],[384.5,0.00],[385.5,0.00],[386.5,0.00],[387.5,0.20],[388.5,0.20],[389.5,0.00],[390.5,0.00],[391.5,0.00],[392.5,-0.20],[393.5,-0.20],[394.5,0.20],[395.5,0.20],[396.5,0.00],[397.5,0.00],[398.5,-0.20],[399.5,-0.20],[400.5,-0.20],[401.5,0.00],[402.5,-0.20],[403.5,0.00],[404.5,-0.20],[405.5,-0.20],[406.5,-0.20],[407.5,0.00],[408.5,-0.20],[409.5,0.00],[410.5,0.00],[411.5,0.00],[412.5,0.00],[413.5,0.20],[414.5,-0.20],[415.5,-0.20],[416.5,-0.20],[417.5,-0.20],[418.5,-0.40],[419.5,-0.20],[420.5,-0.20]];dis_datapoints = [];trans_datapoints = [];sec_helix_datapoints = [[3,12],[28,34],[50,67],[81,90],[95,105],[109,121],[144,156],[159,172],[181,188],[193,200],[201,212],[215,218],[224,249],[261,276],[305,314],[359,365],[380,382],[389,391],[401,403]];sec_strand_datapoints = [[39,43],[72,76],[128,134],[282,286],[319,325],[330,334],[371,374],[406,411]];acc_exposed_datapoints = [[1,4],[7,7],[10,11],[15,15],[17,17],[19,19],[21,24],[26,26],[29,29],[33,33],[36,37],[66,67],[90,90],[92,92],[95,96],[99,100],[109,109],[120,120],[123,127],[141,141],[155,156],[158,160],[163,163],[167,167],[170,170],[173,174],[176,177],[179,179],[189,189],[191,193],[197,197],[200,200],[204,204],[207,207],[210,211],[214,214],[218,219],[221,221],[223,224],[251,253],[274,274],[277,279],[313,313],[316,317],[337,341],[343,343],[345,345],[347,347],[350,350],[353,353],[356,356],[364,365],[367,367],[369,369],[380,381],[384,384],[387,387],[397,397],[399,399],[402,402],[412,412],[414,414],[417,417],[420,423]];acc_buried_datapoints = 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| |
| | | |
| ===Production and purification of recombinant EreB=== | | ===Production and purification of recombinant EreB=== |
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| ===Kirby-Bauer Assay: Measuring remaining erythromycin on a pertri dish=== | | ===Kirby-Bauer Assay: Measuring remaining erythromycin on a pertri dish=== |
| [[File:TUM13_Kirby_Bauer.png|thumb|left|400px| '''Figure 2:''' Kirby-Bauer assay of recombinant EreB incubated with erythromycin]] | | [[File:TUM13_Kirby_Bauer.png|thumb|left|400px| '''Figure 2:''' Kirby-Bauer assay of recombinant EreB incubated with erythromycin]] |
- | The Kirby-Bauer assay is an '''agar diffusion test''', with which it is very easy to examine the decomposition activity of the enzyme. We also analyzed the decomposition activity of the recombinant EreB by [https://2013.igem.org/Team:TU-Munich/Results/GM-Moss#Characterization_of_Erythromycine_B_esterase_in_the_cytoplasm_of_recombinant_moss LC-MS]. The recombinant protein is incubated with the antibiotic and the reaction is stopped with methanol. To be sure that the enzyme is inhibited and the reaction does not go on, we additionally heated the reaction mixture (see table 2) after stopping for two minutes at 50°C and then shock froze the mixture in liquid nitrogen. The effect of methanol, heating and shock freezing on the bacterial strain and the substrate were checked before and have no influence. <br> | + | The Kirby-Bauer assay is an '''agar diffusion test''', with which it is very easy to examine the decomposition activity of the enzyme. We also analyzed the decomposition activity of the recombinant EreB by [https://2013.igem.org/Team:TU-Munich/Results/GM-Moss#The_PhyscoFilter_for_Erythromycin LC-MS]. The recombinant protein is incubated with the antibiotic and the reaction is stopped with methanol. To be sure that the enzyme is inhibited and the reaction does not go on, we additionally heated the reaction mixture (see table 2) after stopping for two minutes at 50°C and then shock froze the mixture in liquid nitrogen. The effect of methanol, heating and shock freezing on the bacterial strain and the substrate were checked before and have no influence. <br> |
| | | |
| Then bacteria from a quite dense liquid culture are plated on a LB agar plate without antibiotics under sterile conditions and spread with sterile cotton tip applicators. We used the bacterial strain ''Micrococcus luteus'' which was generously donated from the [http://www.micbio.wzw.tum.de/cms/docs/scherer-anzeigen.php chair of microbiology by Prof. Scherer`s group] and is mentioned to be specifically sensitive to Erythromycin [[http://pubs.acs.org/doi/abs/10.1021/bi201790u?mi=0&af=R&pr... Wright et al., 2012]]. Now several 6 mm filter paper discs are placed on the bacterial lawn in adequate intervals and 8 µl of the spinned down reaction mixture is added onto one disc. The mixture diffuses from the filter paper into the agar. The concentration of the compound will be highest next to the disk, and will decrease with increasing distance. If the compound is effective against bacteria at a certain concentration, no colonies will grow where the concentration in the agar is greater than or equal to the effective concentration. This is called the '''zone of inhibition'''. | | Then bacteria from a quite dense liquid culture are plated on a LB agar plate without antibiotics under sterile conditions and spread with sterile cotton tip applicators. We used the bacterial strain ''Micrococcus luteus'' which was generously donated from the [http://www.micbio.wzw.tum.de/cms/docs/scherer-anzeigen.php chair of microbiology by Prof. Scherer`s group] and is mentioned to be specifically sensitive to Erythromycin [[http://pubs.acs.org/doi/abs/10.1021/bi201790u?mi=0&af=R&pr... Wright et al., 2012]]. Now several 6 mm filter paper discs are placed on the bacterial lawn in adequate intervals and 8 µl of the spinned down reaction mixture is added onto one disc. The mixture diffuses from the filter paper into the agar. The concentration of the compound will be highest next to the disk, and will decrease with increasing distance. If the compound is effective against bacteria at a certain concentration, no colonies will grow where the concentration in the agar is greater than or equal to the effective concentration. This is called the '''zone of inhibition'''. |
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| ==Laccase== | | ==Laccase== |
| [[File:TUM13 Animation_Laccasex.gif|thumb|right|320px| '''Figure 8:''' Animation of protein structure of Laccase]] | | [[File:TUM13 Animation_Laccasex.gif|thumb|right|320px| '''Figure 8:''' Animation of protein structure of Laccase]] |
- | Laccases are an important group of effector proteins that can be utilized in bioremediation to degrade xenobiotics. They are copper-containing enzymes which catalyze the oxidation of a wide range of substances. It was interesting for us as the two important xenobiotics ethinylestradiol and diclofenac can be degraded using laccases and the general function can easily be investigated using the commonly used substrate ABTS.<br> | + | Laccases are an important group of effector proteins that can be utilized in bioremediation to degrade xenobiotics. They are copper-containing enzymes which catalyze the oxidation of a wide range of substances. It was interesting for us as the two important xenobiotics ethinylestradiol and diclofenac can be degraded using laccases and the general function of the enzyme can easily be investigated using the commonly used substrate ABTS which results in a chromogenic product.<br> |
- | During the planing phase of our project we decided not to add a new laccase to the Parts Registry but instead to continue the work on the best availible laccase. The iGEM [https://2012.igem.org/Team:Bielefeld-Germany Bielefeld Germany] has created BioBricks for five different laccases during the last summer. So we contacted this iGEM team and got the advise that the laccase derived from ''Bacillus pumilus'' <partinfo>BBa_K863000</partinfo> seems to be the best choice for our effector collection. As we wanted to try this effector protein in different localisations such as cytoplasmatic, secreted, or receptor bound we converted this enzyme to RFC[25] in order to make it compatible for protein fusions. | + | During the planing phase of our project we decided not to add a new laccase to the Parts Registry but instead to continue the work on the best availible laccase. The iGEM team [https://2012.igem.org/Team:Bielefeld-Germany Bielefeld Germany] 2012 has created BioBricks for five different laccases during the last summer. So we contacted this iGEM team and got the advise that the laccase derived from ''Bacillus pumilus'' <partinfo>BBa_K863000</partinfo> seems to be the best choice for our effector collection. As we wanted to try this effector protein in different localisations such as cytoplasmatic, secreted, or receptor bound we converted this enzyme to RFC[25] in order to make it compatible for protein fusions. |
- | | + | |
- | | + | |
- | | + | |
- | ===Protein Data Table for the Laccase from ''Bacillus pumilus'' <partinfo>BBa_K863000</partinfo> ===
| + | |
- | <html><!--- Please copy this table containing parameters for BBa_ at the end of the parametrs section ahead of the references. ---><style type="text/css">table#AutoAnnotator {border:1px solid black; width:100%; border-collapse:collapse;} th#AutoAnnotatorHeader { border:1px solid black; width:100%; background-color: rgb(221, 221, 221);} td.AutoAnnotator1col { width:100%; border:1px solid black; } span.AutoAnnotatorSequence { font-family:'Courier New', Arial; } td.AutoAnnotatorSeqNum { text-align:right; width:2%; } td.AutoAnnotatorSeqSeq { width:98% } td.AutoAnnotatorSeqFeat1 { width:3% } td.AutoAnnotatorSeqFeat2a { width:27% } td.AutoAnnotatorSeqFeat2b { width:97% } td.AutoAnnotatorSeqFeat3 { width:70% } table.AutoAnnotatorNoBorder { border:0px; width:100%; border-collapse:collapse; } table.AutoAnnotatorWithBorder { border:1px solid black; width:100%; border-collapse:collapse; } td.AutoAnnotatorOuterAmino { border:0px solid black; width:20% } td.AutoAnnotatorInnerAmino { border:1px solid black; width:50% } td.AutoAnnotatorAminoCountingOuter { border:1px solid black; width:40%; } td.AutoAnnotatorBiochemParOuter { border:1px solid black; width:60%; } td.AutoAnnotatorAminoCountingInner1 { width: 7.5% } td.AutoAnnotatorAminoCountingInner2 { width:62.5% } td.AutoAnnotatorAminoCountingInner3 { width:30% } td.AutoAnnotatorBiochemParInner1 { width: 5% } td.AutoAnnotatorBiochemParInner2 { width:55% } td.AutoAnnotatorBiochemParInner3 { width:40% } td.AutoAnnotatorCodonUsage1 { width: 3% } td.AutoAnnotatorCodonUsage2 { width:14.2% } td.AutoAnnotatorCodonUsage3 { width:13.8% } td.AutoAnnotatorAlignment1 { width: 3% } td.AutoAnnotatorAlignment2 { width: 10% } td.AutoAnnotatorAlignment3 { width: 87% } td.AutoAnnotatorLocalizationOuter {border:1px solid black; width:40%} td.AutoAnnotatorGOOuter {border:1px solid black; width:60%} td.AutoAnnotatorLocalization1 { width: 7.5% } td.AutoAnnotatorLocalization2 { width: 22.5% } td.AutoAnnotatorLocalization3 { width: 70% } td.AutoAnnotatorGO1 { width: 5% } td.AutoAnnotatorGO2 { width: 35% } td.AutoAnnotatorGO3 { width: 60% } td.AutoAnnotatorPredFeat1 { width:3% } td.AutoAnnotatorPredFeat2a { width:27% } td.AutoAnnotatorPredFeat3 { width:70% } div.AutoAnnotator_trans { position:absolute; background:rgb(11,140,143); background-color:rgba(11,140,143, 0.8); height:5px; top:100px; } div.AutoAnnotator_sec_helix { position:absolute; background:rgb(102,0,102); background-color:rgba(102,0,102, 0.8); height:5px; top:110px; } div.AutoAnnotator_sec_strand { position:absolute; background:rgb(245,170,26); background-color:rgba(245,170,26, 1); height:5px; top:110px; } div.AutoAnnotator_acc_buried { position:absolute; background:rgb(89,168,15); background-color:rgba(89,168,15, 0.8); height:5px; top:120px; } div.AutoAnnotator_acc_exposed { position:absolute; background:rgb(0, 0, 255); background-color:rgba(0, 0, 255, 0.8); height:5px; top:120px; } div.AutoAnnotator_dis { position:absolute; text-align:center; font-family:Arial,Helvetica,sans-serif; background:rgb(255, 200, 0); background-color:rgba(255, 200, 0, 1); height:16px; width:16px; top:80px; border-radius:50%; } </style><div id='AutoAnnotator_container_1380926576045'><table id="AutoAnnotator"><tr><!-- Time stamp in ms since 1/1/1970 1380926576045 --><th id="AutoAnnotatorHeader" colspan="2">Protein data table for BioBrick <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_<K863000">BBa_K863000</a> automatically created by the <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">BioBrick-AutoAnnotator</a> version 1.0</th></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Nucleotide sequence</strong> in <strong>RFC 10</strong>: (underlined part encodes the protein)<br><span class="AutoAnnotatorSequence"> TAATACGACTCACTATAGGGAGAGAGGAGAAAA<u>ATGAACCTA ... CACCATCAC</u>TAATAA</span><br> <strong>ORF</strong> from nucleotide position 34 to 1581 (excluding stop-codon)</td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid sequence:</strong> (RFC 25 scars in shown in bold, other sequence features underlined; both given below)<br><span class="AutoAnnotatorSequence"><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqNum">1 <br>101 <br>201 <br>301 <br>401 <br>501 </td><td class="AutoAnnotatorSeqSeq">MNLEKFVDELPIPEVAKPVKKNPKQTYYEIAMEEVFLKVHRDLPPTKLWTYNGSLPGPTIHANRNEKVKVKWMNKLPLKHFLPVDHTIHEGHHDEPEVKT<br>VVHLHGGVTPASSDGYPEAWFSRDFEA<b>TG</b>PFFEREVYEYPNHQQACTLWYHDHAMALTRLNVYAGLAGFYLISDAFEKSLELPKGEYDIPLMIMDRTFQE<br>DGALFYPSRPNNTPEDSDIPDPSIVPFFCGETILVNGKVWPYLEVEPRKYRFRILNASNTRTYELHLDNDATILQIGSDGGFLPRPVHHQSFSIAPAERF<br>DVIIDFSAYENKTITLKNKAGCGQEVNPETDANIMQFKVTRPLKGRAPKTLRPIFKPLPPLRPCRADKERTLTLTGTQDKYGRPILLLDNQFWNDPVTEN<br>PRLGSVEVWSIVNPTRGTHPIHLHLVQFRVIDRRPFDTEVYQSTGDIVYTGPNEAPPLHEQGYKDTIQAHAGEVIRIIARFVPYSGRYVWHCHILEHEDY<br>DMMRPMDIIQ<u>HHHHHH</u>*</td></tr></table></span></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Sequence features:</strong> (with their position in the amino acid sequence, see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software/FeatureList">list of supported features</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2a">RFC25 scar (shown in bold): </td><td class="AutoAnnotatorSeqFeat3">128 to 129</td></tr><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2a">His6-tag: </td><td class="AutoAnnotatorSeqFeat3">511 to 516</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid composition:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Ala (A)</td><td class="AutoAnnotatorInnerAmino">26 (5.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Arg (R)</td><td class="AutoAnnotatorInnerAmino">29 (5.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asn (N)</td><td class="AutoAnnotatorInnerAmino">23 (4.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asp (D)</td><td class="AutoAnnotatorInnerAmino">31 (6.0%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Cys (C)</td><td class="AutoAnnotatorInnerAmino">5 (1.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gln (Q)</td><td class="AutoAnnotatorInnerAmino">15 (2.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Glu (E)</td><td class="AutoAnnotatorInnerAmino">37 (7.2%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gly (G)</td><td class="AutoAnnotatorInnerAmino">28 (5.4%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">His (H)</td><td class="AutoAnnotatorInnerAmino">29 (5.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ile (I)</td><td class="AutoAnnotatorInnerAmino">31 (6.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Leu (L)</td><td class="AutoAnnotatorInnerAmino">41 (7.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Lys (K)</td><td class="AutoAnnotatorInnerAmino">27 (5.2%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Met (M)</td><td class="AutoAnnotatorInnerAmino">10 (1.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Phe (F)</td><td class="AutoAnnotatorInnerAmino">24 (4.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Pro (P)</td><td class="AutoAnnotatorInnerAmino">47 (9.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ser (S)</td><td class="AutoAnnotatorInnerAmino">18 (3.5%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Thr (T)</td><td class="AutoAnnotatorInnerAmino">32 (6.2%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Trp (W)</td><td class="AutoAnnotatorInnerAmino">8 (1.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Tyr (Y)</td><td class="AutoAnnotatorInnerAmino">22 (4.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Val (V)</td><td class="AutoAnnotatorInnerAmino">33 (6.4%)</td></tr></table></td></tr></table></td></tr><tr><td class="AutoAnnotatorAminoCountingOuter"><strong>Amino acid counting</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Total number:</td><td class="AutoAnnotatorAminoCountingInner3">516</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Positively charged (Arg+Lys):</td><td class="AutoAnnotatorAminoCountingInner3">56 (10.9%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Negatively charged (Asp+Glu):</td><td class="AutoAnnotatorAminoCountingInner3">68 (13.2%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Aromatic (Phe+His+Try+Tyr):</td><td class="AutoAnnotatorAminoCountingInner3">83 (16.1%)</td></tr></table></td><td class="AutoAnnotatorBiochemParOuter"><strong>Biochemical parameters</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Atomic composition:</td><td class="AutoAnnotatorBiochemParInner3">C<sub>2701</sub>H<sub>4104</sub>N<sub>734</sub>O<sub>763</sub>S<sub>15</sub></td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Molecular mass [Da]:</td><td class="AutoAnnotatorBiochemParInner3">59547.7</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Theoretical pI:</td><td class="AutoAnnotatorBiochemParInner3">6.18</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Extinction coefficient at 280 nm [M<sup>-1</sup> cm<sup>-1</sup>]:</td><td class="AutoAnnotatorBiochemParInner3">76780 / 77093 (all Cys red/ox)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Plot for hydrophobicity, charge, predicted secondary structure, solvent accessability, transmembrane helices and disulfid bridges</strong> <input type='button' id='hydrophobicity_charge_button' onclick='show_or_hide_plot_1380926576045()' value='Show'><span id="hydrophobicity_charge_explanation"></span><div id="hydrophobicity_charge_container" style='display:none'><div id="hydrophobicity_charge_placeholder0" style="width:100%;height:150px"></div><div id="hydrophobicity_charge_placeholder1" style="width:100%;height:150px"></div><div id="hydrophobicity_charge_placeholder2" style="width:100%;height:150px"></div></div></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Codon usage</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Organism:</td><td class="AutoAnnotatorCodonUsage3"><i>E. coli</i></td><td class="AutoAnnotatorCodonUsage3"><i>B. subtilis</i></td><td class="AutoAnnotatorCodonUsage3"><i>S. cerevisiae</i></td><td class="AutoAnnotatorCodonUsage3"><i>A. thaliana</i></td><td class="AutoAnnotatorCodonUsage3"><i>P. patens</i></td><td class="AutoAnnotatorCodonUsage3">Mammals</td></tr><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Codon quality (<a href="http://en.wikipedia.org/wiki/Codon_Adaptation_Index">CAI</a>):</td><td class="AutoAnnotatorCodonUsage3">good (0.72)</td><td class="AutoAnnotatorCodonUsage3">good (0.75)</td><td class="AutoAnnotatorCodonUsage3">good (0.68)</td><td class="AutoAnnotatorCodonUsage3">good (0.75)</td><td class="AutoAnnotatorCodonUsage3">good (0.77)</td><td class="AutoAnnotatorCodonUsage3">good (0.68)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Alignments</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">SwissProt:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/P07788'>P07788</a> (67% identity on 510 AAs), <a href='http://www.uniprot.org/uniprot/Q12737'>Q12737</a> (28% identity on 446 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">TrEML:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/B4AIB1'>B4AIB1</a> (100% identity on 510 AAs), <a href='http://www.uniprot.org/uniprot/A8FAG9'>A8FAG9</a> (98% identity on 509 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">PDB:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1gsk'>1gsk</a> (67% identity on 502 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1of0'>1of0</a> (67% identity on 503 AAs)</td></tr></table></td></tr><tr><th id='AutoAnnotatorHeader' colspan="2"><strong>Predictions</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)</th></tr><tr><td class="AutoAnnotatorLocalizationOuter"><strong>Subcellular Localization</strong> (reliability in brackets)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Archaea:</td><td class="AutoAnnotatorLocalization3">cytosol (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Bacteria:</td><td class="AutoAnnotatorLocalization3">cytosol (41%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Eukarya:</td><td class="AutoAnnotatorLocalization3">secreted (79%)</td></tr></table></td><td class="AutoAnnotatorGOOuter"><strong>Gene Ontology</strong> (reliability in brackets)<br><table class="AutoAnnotatorNoBorder"><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Molecular Function Ontology:</td><td class='AutoAnnotatorGO3'><a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0005507'>GO:0005507</a> (35%), <a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0005515'>GO:0005515</a> (23%)</td></tr><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Biological Process Ontology:</td><td class='AutoAnnotatorGO3'><a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0055114'>GO:0055114</a> (37%), <a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0017000'>GO:0017000</a> (21%)</td></tr><tr><td class='AutoAnnotatorGO1'> </td><td class='AutoAnnotatorGO2'> </td><td class='AutoAnnotatorGO3'> </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Predicted features:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Disulfid bridges:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Transmembrane helices:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"> The BioBrick-AutoAnnotator was created by <a href="https://2013.igem.org/Team:TU-Munich">TU-Munich 2013</a> iGEM team. For more information please see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software">documentation</a>.<br>If you have any questions, comments or suggestions, please leave us a <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">comment</a>.</td></tr></table></div><br><!-- IMPORTANT: DON'T REMOVE THIS LINE, OTHERWISE NOT SUPPORTED FOR IE BEFORE 9 --><!--[if lte IE 8]><script language="javascript" type="text/javascript" src="excanvas.min.js"></script><![endif]--><script type='text/javascript' src='http://code.jquery.com/jquery-1.10.0.min.js'></script><script type='text/javascript' src='https://2013.igem.org/Team:TU-Munich/Flot.js?action=raw&ctype=text/js'></script><script>function show_or_hide_plot_1380926576045(){hydrophobicity_datapoints = 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= [];trans_datapoints = [];sec_helix_datapoints = [[160,163],[494,499]];sec_strand_datapoints = [[26,39],[47,51],[59,63],[67,74],[101,104],[136,141],[147,150],[168,173],[189,195],[233,234],[242,245],[249,256],[261,268],[273,278],[291,294],[299,306],[313,317],[406,412],[422,423],[427,432],[466,469],[474,481],[487,493],[504,509]];acc_exposed_datapoints = [[1,2],[4,5],[8,9],[14,14],[17,17],[20,24],[42,42],[44,45],[64,65],[94,95],[97,97],[114,115],[131,131],[133,133],[177,179],[181,181],[184,184],[186,186],[201,201],[238,238],[246,248],[270,270],[308,308],[310,310],[336,336],[338,338],[344,345],[349,349],[367,367],[402,402],[450,450],[452,454],[483,483],[511,516]];acc_buried_datapoints = [[6,6],[10,10],[12,12],[28,28],[30,30],[32,32],[35,35],[39,40],[43,43],[48,53],[55,60],[62,62],[68,78],[80,89],[98,98],[100,109],[117,117],[119,129],[135,137],[139,141],[143,143],[145,173],[189,195],[197,198],[204,207],[222,237],[239,239],[242,243],[250,263],[265,267],[269,269],[272,284],[286,287],[289,304],[306,306],[313,318],[334,335],[337,337],[339,339],[355,355],[372,372],[374,374],[381,382],[384,388],[397,397],[401,401],[406,406],[408,415],[417,432],[435,435],[462,463],[465,471],[475,475],[477,482],[486,509]];flot_plot_options = []; flot_plot_options[0] = {grid: {borderWidth: {top: 0,right: 0,bottom: 0,left: 0}},legend: {show: false},xaxes: [{show: true,min: 0,max: 200,ticks: [[0.5, '1'], [24.5, '25'], [49.5, '50'], [74.5, '75'], [99.5, '100'], [124.5, '125'], [149.5, '150'], [174.5, '175'], [199.5, '200']],tickLength: -5}],yaxes: [{show: true,ticks: [[0, '0'], [4.5,'hydro-<br>phobic '], [-4.5,'hydro-<br>philic ']],min: -4.5,max: +4.5,font: {size: 12,lineHeight: 14,style: 'italic',weight: 'bold',family: 'sans-serif',variant: 'small-caps',color: 'rgba(100,149,237,1)'}},{show: true,ticks: [[0, ''], [1,'positive<br> charge'], [-1,'negative<br> charge']],position: 'right',min: -1,max: 1,font: {size: 12,lineHeight: 14,style: 'italic',weight: 'bold',family: 'sans-serif',variant: 'small-caps',color: 'rgba(255,99,71,1)'}}]};number_of_plots = 3;for ( plot_num = 1 ; plot_num < number_of_plots ; plot_num ++){flot_plot_options[plot_num] = $.extend(true, {} ,flot_plot_options[0]);flot_plot_options[plot_num].xaxes = [{min: plot_num*200,max: (plot_num + 1)*200,ticks: [ [plot_num*200 + 0.5, (plot_num*200 + 1).toString()], [plot_num*200 + 24.5, (plot_num*200 + 25).toString()], [plot_num*200 + 49.5, (plot_num*200 + 50).toString()], [plot_num*200 + 74.5, (plot_num*200 + 75).toString()], [plot_num*200 + 99.5, (plot_num*200 + 100).toString()], [plot_num*200 + 124.5, (plot_num*200 + 125).toString()], [plot_num*200 + 149.5, (plot_num*200 + 150).toString()], [plot_num*200 + 174.5, (plot_num*200 + 175).toString()], [plot_num*200 + 199.5, (plot_num*200 + 200).toString()] ],tickLength: -5}];};try {if( $('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_button').val() =='Show' ){$('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_container').css('display','block');$('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_button').val('Hide');var description_html = '<div id=\'AutoAnnotator_plot_selectors\'>';description_html = description_html + '<br> <input type=\'checkbox\' id=\'hydrophobicity_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for hydrophobicity (<img src=\'https://static.igem.org/mediawiki/2013/e/e9/TUM13_hydrophobicity_icon.png\' alt=\'blue graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'charge_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for charge (<img src=\'https://static.igem.org/mediawiki/2013/3/3e/TUM13_charge_icon.png\' alt=\'red graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'dis_checkbox\' checked=\'checked\'> Predicted disulfid bridges (<img src=\'https://static.igem.org/mediawiki/2013/2/28/TUM13_dis_icon.png\' alt=\'yellow circle\' height=\'10\'></img>) with the number of the bridge in the center';description_html = description_html + '<br> <input type=\'checkbox\' id=\'trans_checkbox\' checked=\'checked\'> Predicted transmembrane helices (<img src=\'https://static.igem.org/mediawiki/2013/7/78/TUM13_trans_icon.png\' alt=\'turquois bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'sec_checkbox\' checked=\'checked\'> Predicted secondary structure: Helices (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_helix_icon.png\' alt=\'violet bars\' height=\'10\'></img>) and beta-strands (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_strand_icon.png\' alt=\'yellow bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'acc_checkbox\' checked=\'checked\'> Predicted solvent accessability: Exposed (<img src=\'https://static.igem.org/mediawiki/2013/1/16/TUM13_exposed_icon.png\' alt=\'blue bars\' height=\'10\'></img>) and buried (<img src=\'https://static.igem.org/mediawiki/2013/0/0b/TUM13_buried_icon.png\' alt=\'green bars\' height=\'10\'></img>) residues';description_html = description_html + '<br></div>';$('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_explanation').html(description_html);plot_according_to_selectors_1380926576045();$('#AutoAnnotator_container_1380926576045 #AutoAnnotator_plot_selectors').find('input').click(plot_according_to_selectors_1380926576045);}else{$('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_container').css('display','none');$('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_button').val('Show');$('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_explanation').html('');}}catch(err){txt='There was an error with the button controlling the visibility of the plot.\n';txt=txt+'The originating error is:\n' + err + '\n\n';alert(txt);}};function plot_according_to_selectors_1380926576045(){try{var plot_datasets = [[],[]];if($('#AutoAnnotator_container_1380926576045 #hydrophobicity_checkbox').prop('checked') == true){plot_datasets[0] = { color: 'rgba(100,149,237,1)',data: hydrophobicity_datapoints,label: 'Hydrophobicity',lines: { show: true, fill: true, fillColor: 'rgba(100,149,237,0.1)' },yaxis: 1};}if($('#AutoAnnotator_container_1380926576045 #charge_checkbox').prop('checked') == true){plot_datasets[1] = {color: 'rgba(255,99,71,1)',data: charge_datapoints,label: 'Charge',lines: { show: true, fill: true, fillColor: 'rgba(255,99,71,0.1)' },yaxis: 2};}for (plot_num = 0 ; plot_num < number_of_plots ; plot_num ++){$.plot('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_placeholder'+ plot_num.toString(), plot_datasets, flot_plot_options[plot_num] );}var screen_width = $('canvas.flot-base').width(); var pos_of_first_tick = 46;var pos_of_last_tick = screen_width - 51;var tick_diff = (screen_width - 97)/199;if($('#AutoAnnotator_container_1380926576045 #dis_checkbox').prop('checked') == true){for ( j = 0 ; j < dis_datapoints.length ; j++ ){$('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_placeholder' + Math.floor((dis_datapoints[j][0] - 1)/200) ).append('<div class=\'AutoAnnotator_dis\' style=\'left:' + ((pos_of_first_tick - 8 + (dis_datapoints[j][0] - 1)*tick_diff - Math.floor((dis_datapoints[j][0] - 1)/200)*200*tick_diff).toFixed(0)).toString() + 'px;\'><b>' + (j+1) + '</b></div>');$('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_placeholder' + Math.floor((dis_datapoints[j][1] - 1)/200) ).append('<div class=\'AutoAnnotator_dis\' style=\'left:' + ((pos_of_first_tick - 8 + (dis_datapoints[j][1] - 1)*tick_diff - Math.floor((dis_datapoints[j][1] - 1)/200)*200*tick_diff).toFixed(0)).toString() + 'px;\'><b>' + (j+1) + '</b></div>');}}if($('#AutoAnnotator_container_1380926576045 #trans_checkbox').prop('checked') == true){for ( j = 0 ; j < trans_datapoints.length ; j++ ){$('#AutoAnnotator_container_1380926576045 #hydrophobicity_charge_placeholder' + Math.floor((trans_datapoints[j][0] - 1)/200) ).append('<div class=\'AutoAnnotator_trans\' style=\'width:' + (((trans_datapoints[j][1] - trans_datapoints[j][0] + 1)*tick_diff).toFixed(0)).toString() + 'px ;left:' + ((pos_of_first_tick + (trans_datapoints[j][0] - 1.5)*tick_diff - Math.floor((trans_datapoints[j][0] - 1)/200)*200*tick_diff).toFixed(0)).toString() + 'px\'></div>');}}if($('#AutoAnnotator_container_1380926576045 #sec_checkbox').prop('checked') == true){for ( j = 0 ; j < 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| + | |
| | | |
| ===Bioinformatics: Laccase - a secreted enzyme=== | | ===Bioinformatics: Laccase - a secreted enzyme=== |
| [[File:TUM13_Laccase_DSB.png|thumb|right|320px| '''Figure 9:''' Structural analysis of Laccase by homology]] | | [[File:TUM13_Laccase_DSB.png|thumb|right|320px| '''Figure 9:''' Structural analysis of Laccase by homology]] |
- | For the production of effector proteins it is always essential to know whether they are naturally cytoplasmatic or whether they are secreted. Cytoplasmatic proteins usually do contain a higher portion of cysteine residues as they are a normal amino acid residue as no disulfide bridges can be formed under the reducing conditions of the cytoplasm. In contrast secreted protein often do contain disulfide briges which make them more stable to environmental stress. The disulfide formation is possible for the secreted proteins as the oxidizing conditions facilitate the bridge formation. On the other hand there is a selection pressure for secreted proteins not to contain exposed cysteine residues that are not involved in the formation of disulfide bridges. Such free cysteine residues would leed to aggregation of proteins which would probably hamper their activity.<br> | + | For the production of effector proteins it is always essential to know whether they are naturally cytoplasmatic or whether they are secreted. Cytoplasmatic proteins usually contain a higher portion of cysteine residues as no disulfide bridges can be formed under the reducing conditions of the cytoplasm. In contrast secreted proteins often do contain disulfide briges which make them more stable to environmental stress. The disulfide formation is possible for the secreted proteins as the oxidizing extracellular conditions facilitate the bridge formation. On the other hand there is a selection pressure for secreted proteins not to contain exposed cysteine residues that are not involved in the formation of disulfide bridges. Such free cysteine residues would lead to aggregation of proteins which would probably hamper their activity. Therefore secreted enzymes generally only contain a smaller amount of cysteine residues. <br> |
- | Thus it was an important point to find out whether the used laccase is a secreted enzyme as this would increase the chance to express it in a functional form on the extracellular part of our moss and on the other hand it was also an important information for the production of recombinant protein. To solve this question we did an alignment of the laccase BioBrick and the closest related solved structure. The sturcure contains disulfid bridges for example Cys<sup>229</sup>-Cys<sup>322</sup>. The comparison of the position of these residues within the amino acid sequece alignment shows that these residues are conserved and it can thus be assumed that the laccase BioBrick we used also contains disulfid bridges that have to be formed under oxidizing conditions and will increase the stability of our effector protein.<br> | + | Thus it is important to find out whether the used laccase BPUL is a secreted enzyme as this would increase the chance to express it in a functional form on the extracellular part of our moss. To solve this question we did an alignment of the laccase BioBrick and the closest related solved structure. The structure contains disulfide bridges for example Cys<sup>229</sup>-Cys<sup>322</sup>. The comparison of the position of these residues within the amino acid sequence alignment shows that these residues are conserved and it can thus be assumed that the laccase BioBrick we used also contains disulfide bridges that have to be formed under oxidizing conditions and will increase the stability of our effector protein.<br> |
- | We thus used 10 mM of potassium ferrocyanide which is a milde oxidisation reagent subsequent to the cell disruption and did not use any 2-mercapto ethanol as a reducing agent during the protein purification. | + | We thus used 10 mM of potassium ferrocyanide which is a milde oxidization reagent subsequent to the cell disruption and did not use any 2-mercaptoethanol as a reducing agent during the protein purification. |
| | | |
| ===Analytical preparation=== | | ===Analytical preparation=== |
Line 179: |
Line 171: |
| [[File:TUM13_Preparative_Laccase.png|thumb|right|320px| '''Figure 11a:''' Size exclusion chromatography on a Superdex 200 10/30 column]] | | [[File:TUM13_Preparative_Laccase.png|thumb|right|320px| '''Figure 11a:''' Size exclusion chromatography on a Superdex 200 10/30 column]] |
| [[File:TUM13_SDS_laccase.png|thumb|right|320px| '''Figure 11b:''' SDS-gel of recombinant Laccase with the marker (M) followed by the the cell lysate, concentrated protein throughput of the streptavidin affinity column, 1 fraction of the eluate unconcentrated and concentrated]] | | [[File:TUM13_SDS_laccase.png|thumb|right|320px| '''Figure 11b:''' SDS-gel of recombinant Laccase with the marker (M) followed by the the cell lysate, concentrated protein throughput of the streptavidin affinity column, 1 fraction of the eluate unconcentrated and concentrated]] |
- | As all the other effector proteins we performed a first analytical preparation in a 2 L LB-media scale in order to learn about the protein and then up-scaled the production to 6 x 2 L of LB media. The production was carried out cytoplasmatically in ''E. coli'' BL21. The culture was grown to OD 0.8 was induced using 5 mM of arabinose and the protein production was carried out for 5 hours. Cell disruption was performed using ultrasonic sound and subsequently the cell lysate was dialyzed against 1 x SA-Buffer that contained additionally 5 mM of the milde oxidation reagent potassium ferrocyanide in order to form the disulfide bridges present in the laccase structure (see previous paragraph).<br> | + | As with all other effector proteins we performed at first an analytical preparation in a 2 L LB-media scale in order to learn about the protein and then up-scaled the production to 6 x 2 L of LB media. The production was carried out cytoplasmatically in ''E. coli'' BL21. The culture was grown to OD 0.8 and then induced using 5 mM of arabinose and the protein production was carried out for 5 hours. Cell disruption was performed using ultrasonic sound and subsequently the cell lysate was dialyzed against 1 x SA-Buffer that contained additional 5 mM of the milde oxidation reagent potassium ferrocyanide in order to form the disulfide bridges present in the laccase structure (see previous paragraph).<br> |
- | The Streptavidin affinity chromatography yielded a satisfying elution peak that was then concentrated using a centrifugal filter unit (MWCO: 30 kDa). The concentrated protein was then applied to a ÄKTA purifier equipped with a Superdex 200 10/30 size exclusion chromatography column. The chromatogram shows three major peaks with a first peak near the void volume that corresponds to aggregated protein >600 kDa, a second elution peak of high molecular protein and a third elution peak corresponding to the desired laccase protein. This assumption was made on the knowledge that on this column proteins of arround 50 kDa elute at an elution volume of 14 to 15 ml. This assumption was subsequently confirmed by ABTS activits assays with all elution fractions (see next section). | + | The streptavidin affinity chromatography yielded a satisfying elution peak that was then concentrated using a centrifugal filter unit (MWCO: 30 kDa). The concentrated protein was then applied to an ÄKTA purifier equipped with a Superdex 200 10/30 size exclusion chromatography column. The chromatogram shows three major peaks with a first peak near the void volume that corresponds to aggregated protein >600 kDa, a second elution peak of high molecular protein and a third elution peak corresponding to the desired laccase protein. This assumption was made on the knowledge that on this column proteins of arround 50 kDa elute at an elution volume of 14 to 15 ml. This assumption was subsequently confirmed by ABTS activity assays with all elution fractions (see next section). |
| | | |
| ===Activity determination using ABTS=== | | ===Activity determination using ABTS=== |
| [[File:TUM13_ABTS-oxidation.png|thumb|left|250px| '''Figure 12:''' Mechanism of the oxidation of ABTS which is a model substrate for laccase activity]] | | [[File:TUM13_ABTS-oxidation.png|thumb|left|250px| '''Figure 12:''' Mechanism of the oxidation of ABTS which is a model substrate for laccase activity]] |
- | [[File:TUM13_Laccase_activity.png|thumb|right|320px| '''Figure 13:''' Correlation of size exclusion chromatography and activity determination using ABTS. Relative values are shown.]] | + | [[File:TUM13_Laccase_activity.png|thumb|right|320px| '''Figure 13:''' Correlation of size exclusion chromatography (blue) and activity determination using ABTS (red). Relative values are shown.]] |
- | The enzymatic activity of the purified laccase was determined by the ABTS-assay. In a first pre experiment the appropriate dilution factor was determined to 100-fold. The elution fractions obtained from size exclusion chromatography were diluted 1:100 in PBS and in an ELISA plate 100 µl of the enzyme and 100 µl of ABTS substrate were mixed and a kinetic measurement at 405 nm was performed. The absorption at 280 nm in the SEC chromatogramm (blue) identifies three main protein peaks, with a first peak corresponding to aggregated protein, a shoulder which also corresponds to higher molecular protein and a single peak which was proposed to be the monomeric laccase. The relative activity obtained for the different elution fractions was plotted in the same diagramm and shows a clear peak which matches the laccase peak in the SEC. Beside this major peak a second smaller peak of active fraction was visible which appeared in earlier elution fractions and might correspond to dimerized laccase. As the laccase is a secreted enzyme which also bears disluphide bonds it was produced in the cytoplasm and subsequently it was oxidized to form the proper disulphide bond. As this process might be only partial there is a possiblity for the formation of disulphid dimers. Never the less the fractions 14 to 17 were pooled for further experiments as they showed the highest enzymatic activity. The protein concentration of the pooled fraction was determined to 0.48 mg/ml after SEC. | + | The enzymatic activity of the purified laccase was determined by the ABTS-assay. In a first pre experiment the appropriate dilution factor was determined to be 100-fold. The elution fractions obtained from size exclusion chromatography were diluted 1:100 in PBS and in an ELISA plate. 100 µl of the enzyme and 100 µl of ABTS substrate were mixed and a kinetic measurement at 405 nm was performed. The absorption at 280 nm in the SEC chromatogramm (blue) identifies three main protein peaks, with a first peak corresponding to aggregated protein, a shoulder which also corresponds to higher molecular protein and a single peak which was proposed to be the monomeric laccase. The relative activity obtained for the different elution fractions was plotted in the same diagramm and shows a clear peak which matches the laccase peak in the SEC. Beside this major peak a second smaller peak of active fraction was visible which appeared in earlier elution fractions and might correspond to dimerized laccase. As the laccase is a secreted enzyme which also bears dislufide bridges it was produced in the cytoplasm and subsequently it was oxidized to form the proper disulfide bonds. As this process might be only partial there is a possiblity for the formation of disulfide dimers. Nevertheless the fractions 14 to 17 were pooled for further experiments as they showed the highest enzymatic activity. The protein concentration of the pooled fraction was determined to be 0.48 mg/ml after SEC. |
| | | |
| ===Characterization of the enzyme=== | | ===Characterization of the enzyme=== |
- | The enzymatic activity of the laccase BioBrick was investigated under different conditions as this was important for our [https://2013.igem.org/Team:TU-Munich/Modeling/Filter filter model] in which we try to simulate the application of enzymatic activity for bioremediation purposes. The first activity assays were dilution series experiment in which we wanted to determine the appropriate amount of protein which we had to apply in the assays. We found the 1:100 dilution of the prepared protein (0.49 mg/ml) to a good choice and thus performed all experiments with this concentration. | + | The enzymatic activity of the laccase BioBrick was investigated under different conditions as this was important for our [https://2013.igem.org/Team:TU-Munich/Modeling/Filter filter model] in which we try to simulate the application of the laccase in our remediation raft to clean highly contaminated rivers. The first activity assays were dilution series experiments in which we wanted to determine the appropriate amount of protein which we had to apply in the assays. We found that a 1:100 dilution of the prepared protein (0.49 mg/ml) to be ideal and thus performed all experiments with this concentration. |
- | ====Michaelis-Menten assay (Substrate dependency)==== | + | ====Kinetic assay (Substrate dependency)==== |
- | [[File:TUM13 Laccase_plate1.jpeg|thumb|left|400px| '''Figure 14:''' 96-well plate showing dilutin series of substrate (ABTS) for Michaelis-Menten kinetic experiments]] For the Michaelis-Menten assay a 1:1 dilution series of the substrate was set up. The oxidation of the ABTS substrate was then monitored over time using the absorbance at 405 nm. The experiment was performed in triplicates (Figure xxx 1-3) and as a control the dilution series of the substrate was incubated with PBS instead of diluted protein. It can be seen that there is a low level f autolytic oxidation of the ABTS substrate which is by far below the enzymatic conversion achieved in the experiment. | + | [[File:TUM13 Laccase_plate1.jpeg|thumb|left|400px| '''Figure 14:''' 96-well plate showing dilutin series of substrate (ABTS) for kinetic experiments]] For the kinetic assay a 1:1 dilution series of the substrate was set up. The oxidation of the ABTS substrate was then monitored over time observing the absorbance at 405 nm. The experiment was performed in triplicates (see Figure 14) and as a control the dilution series of the substrate was incubated with PBS instead of the diluted protein. It can be seen that there is no autolytic oxidation of the substrate. The resulting kinetic parameters are summarized in table 3. |
- | For a detailed evaluation of the results please see our [https://2013.igem.org/Team:TU-Munich enzyme kinetics] modeling. | + | |
| + | {| |
| + | |+ '''Table 3:''' Best fit parameters |
| + | ! Parameter |
| + | ! Best fit |
| + | |- |
| + | | k<sub>f</sub> |
| + | | 1.606 E+05 1/s |
| + | |- |
| + | | k<sub>r</sub> |
| + | | 3.450 E-08 1/s |
| + | |- |
| + | | k<sub>cat</sub> |
| + | | 63.522 1/s |
| + | |- |
| + | | K<sub>M</sub> |
| + | | 0.396 mM |
| + | |} |
| + | |
| + | For a detailed evaluation of the results please see our [https://2013.igem.org/Team:TU-Munich/Modeling/Enzyme#Laccase_.28Substrate_Dependence.29 enzyme kinetics] modeling. |
| [[File:TUM13 Laccase_kinetic.png|thumb|left|900px| '''Figure 15:''' Reaction of Laccase with a serial dilution of ABTS (left) and negative control without the enzyme (right)]] | | [[File:TUM13 Laccase_kinetic.png|thumb|left|900px| '''Figure 15:''' Reaction of Laccase with a serial dilution of ABTS (left) and negative control without the enzyme (right)]] |
| | | |
| ====Activity dependency on pH values==== | | ====Activity dependency on pH values==== |
- | Secondly we did a series of experiments in which we determined the effect of the pH on the enzymatic activity (Figure xxx). For these experiments 100 µl of various 500 mM buffer (various pH), 50 µl of ABTS substrate (0.5 mg/ ml in ABTS-bufer from Roche) and 50 µl of laccase which had been diluted 1:100 were incubated. The absorbance at 405 nm was then recorded over the time in an 96-well plate. | + | Secondly we did a series of experiments in which we determined the effect of the pH on the enzymatic activity (see Figure 16). For these experiments 100 µl of various 500 mM buffer (various pH), 50 µl of ABTS substrate (0.5 mg/ ml in ABTS-bufer from Roche) and 50 µl of laccase, diluted 1:100, were incubated. The absorbance at 405 nm was then recorded over the time in a 96-well plate. |
- | The change in absorbance over time is shown for every condition as the average of three measurements with standard deviation. The resulting plot shows that there is an optimum for the pH which is at 4.5 to 5. This matches very good the acidic conditions present in the apoplast of the plant as for example also the used Knop media is adjusted to a pH value of 5.6 to 5.8. | + | The change in absorbance over time is shown for every condition as the average of three measurements with standard deviation. The resulting plot shows that there is an optimum for the pH which is around 5. This matches the acidic conditions present in the apoplast of the plant, which is mainly between pH 5 and pH 6.5, so localizing the enzyme in the interspace between cell wall and membrane is theoretically possible. |
| | | |
- | [[File:TUM13 Laccase_pH.png|thumb|left|900px| '''Figure 16:''' Reaction of Laccase with ABTS in different pH buffers. Absorbance curve with laccase on the lefe; control with PBS on the right ]] | + | [[File:TUM13 Laccase_pH.png|thumb|left|900px| '''Figure 16:''' Reaction of Laccase with ABTS in different pH buffers. Absorbance curve with laccase on the left; control with PBS on the right]] |
| | | |
- | ====Activity dependency on ionic strength==== | + | ====Influence of ionic strength==== |
- | Beside the substrate dependency and the pH value for optimal catalysis the dependency on the ionic strength of the media was of interest for our project as well as for further users of this BioBrick. We thus incubated the recombinant laccase (1:100 dilution) with ABTS substrate and various concentrations of sodium chloride. This was done in triplicates and for a control without the enzyme and with PBS instead. | + | Beside the substrate dependence and the influence of the pH value, the dependence of the Laccase on the ionic strength of the media was of interest for our project as well as is is for further users of this BioBrick. We thus incubated the recombinant laccase (1:100 dilution) with ABTS substrate and various concentrations of sodium chloride. This was done in triplicates and for a control without the enzyme with PBS instead. |
- | [[File:TUM13 Laccase_Salz.png|thumb|left|900px| '''Figure 17:''' Reaction of Laccase with ABTS at different salt concentrations. Absorbance curve with laccase on the lefe; control with PBS on the right]] | + | [[File:TUM13 Laccase_Salz.png|thumb|left|900px| '''Figure 17:''' Reaction of laccase with ABTS at different salt concentrations. Absorbance curve with laccase on the left; control with PBS on the right]] |
| + | As it can clearly be seen the enzymatic activity is increasing with decreasing salt concentration. For a detailed analysis of the results please look at our [https://2013.igem.org/Team:TU-Munich/Modeling/Enzyme enzyme modelling page]. |
| | | |
- | ==Nano Luciferase== | + | ====Influence of the temperature==== |
| | | |
- | The Nano Luciferase (NanoLuc) which was introduced in 2013 by Promega is a new member of the luciferase reporter gene/protein familiy and shows some advantages compared to the other family members. The NanoLuc is very small (19 kDa) compared to the firefly luciferase (61 kDa) and the ''Renilla'' luciferase (36 kDa). On the other hand it is also said that the specific activity of the NanoLuc is about 150-fold stronger compared to conventional luciferases and the background caused by autoluminescense of the substrate is said to be remarkably smaller.
| + | [[File:TUM13 Laccase_Temperature.png|thumb|left|400px| '''Figure 18:''' Reaction of laccase with ABTS at different temperatures]] |
| | | |
- | ===Protein Data Table for the Nano Luciferase <partinfo>BBa_K1159001</partinfo>=== | + | To analyze the temperature dependency of the laccase we determined the katalytic activity with a 1:100 enzyme dilution and 0.12 mM of the substrate ABTS. The enzymatic conversion could be followed by the absorbance of the resulting product at 405 nm. The enzyme and substrate were both incubated at the specific temperatures for half an hour before starting the reaction. |
- | <html><!--- Please copy this table containing parameters for BBa_ at the end of the parametrs section ahead of the references. ---><style type="text/css">table#AutoAnnotator {border:1px solid black; width:100%; border-collapse:collapse;} th#AutoAnnotatorHeader { border:1px solid black; width:100%; background-color: rgb(221, 221, 221);} td.AutoAnnotator1col { width:100%; border:1px solid black; } span.AutoAnnotatorSequence { font-family:'Courier New', Arial; } td.AutoAnnotatorSeqNum { text-align:right; width:2%; } td.AutoAnnotatorSeqSeq { width:98% } td.AutoAnnotatorSeqFeat1 { width:3% } td.AutoAnnotatorSeqFeat2a { width:27% } td.AutoAnnotatorSeqFeat2b { width:97% } td.AutoAnnotatorSeqFeat3 { width:70% } table.AutoAnnotatorNoBorder { border:0px; width:100%; border-collapse:collapse; } table.AutoAnnotatorWithBorder { border:1px solid black; width:100%; border-collapse:collapse; } td.AutoAnnotatorOuterAmino { border:0px solid black; width:20% } td.AutoAnnotatorInnerAmino { border:1px solid black; width:50% } td.AutoAnnotatorAminoCountingOuter { border:1px solid black; width:40%; } td.AutoAnnotatorBiochemParOuter { border:1px solid black; width:60%; } td.AutoAnnotatorAminoCountingInner1 { width: 7.5% } td.AutoAnnotatorAminoCountingInner2 { width:62.5% } td.AutoAnnotatorAminoCountingInner3 { width:30% } td.AutoAnnotatorBiochemParInner1 { width: 5% } td.AutoAnnotatorBiochemParInner2 { width:55% } td.AutoAnnotatorBiochemParInner3 { width:40% } td.AutoAnnotatorCodonUsage1 { width: 3% } td.AutoAnnotatorCodonUsage2 { width:14.2% } td.AutoAnnotatorCodonUsage3 { width:13.8% } td.AutoAnnotatorAlignment1 { width: 3% } td.AutoAnnotatorAlignment2 { width: 10% } td.AutoAnnotatorAlignment3 { width: 87% } td.AutoAnnotatorLocalizationOuter {border:1px solid black; width:40%} td.AutoAnnotatorGOOuter {border:1px solid black; width:60%} td.AutoAnnotatorLocalization1 { width: 7.5% } td.AutoAnnotatorLocalization2 { width: 22.5% } td.AutoAnnotatorLocalization3 { width: 70% } td.AutoAnnotatorGO1 { width: 5% } td.AutoAnnotatorGO2 { width: 35% } td.AutoAnnotatorGO3 { width: 60% } td.AutoAnnotatorPredFeat1 { width:3% } td.AutoAnnotatorPredFeat2a { width:27% } td.AutoAnnotatorPredFeat3 { width:70% } div.AutoAnnotator_trans { position:absolute; background:rgb(11,140,143); background-color:rgba(11,140,143, 0.8); height:5px; top:100px; } div.AutoAnnotator_sec_helix { position:absolute; background:rgb(102,0,102); background-color:rgba(102,0,102, 0.8); height:5px; top:110px; } div.AutoAnnotator_sec_strand { position:absolute; background:rgb(245,170,26); background-color:rgba(245,170,26, 1); height:5px; top:110px; } div.AutoAnnotator_acc_buried { position:absolute; background:rgb(89,168,15); background-color:rgba(89,168,15, 0.8); height:5px; top:120px; } div.AutoAnnotator_acc_exposed { position:absolute; background:rgb(0, 0, 255); background-color:rgba(0, 0, 255, 0.8); height:5px; top:120px; } div.AutoAnnotator_dis { position:absolute; text-align:center; font-family:Arial,Helvetica,sans-serif; background:rgb(255, 200, 0); background-color:rgba(255, 200, 0, 1); height:16px; width:16px; top:80px; border-radius:50%; } </style><div id='AutoAnnotator_container_1380926458650'><table id="AutoAnnotator"><tr><!-- Time stamp in ms since 1/1/1970 1380926458650 --><th id="AutoAnnotatorHeader" colspan="2">Protein data table for BioBrick <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1159001">BBa_K1159001</a> automatically created by the <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">BioBrick-AutoAnnotator</a> version 1.0</th></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Nucleotide sequence</strong> in <strong>RFC 25</strong>, so ATGGCCGGC and ACCGGT were added (in italics) to the 5' and 3' ends: (underlined part encodes the protein)<br><span class="AutoAnnotatorSequence"> <u><i>ATGGCCGGC</i>GTGTTCACC ... ATCCTTGCT<i>ACCGGT</i></u></span><br> <strong>ORF</strong> from nucleotide position -8 to 516 (excluding stop-codon)</td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid sequence:</strong> (RFC 25 scars in shown in bold, other sequence features underlined; both given below)<br><span class="AutoAnnotatorSequence"><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqNum">1 <br>101 </td><td class="AutoAnnotatorSeqSeq">MAGVFTLEDFVGDWRQTAGYNLDQVLEQGGVSSLFQNLGVSVTPIQRIVLSGENGLKIDIHVIIPYEGLSGDQMGQIEKIFKVVYPVDDHHFKVILHYGT<br>LVIDGVTPNMIDYFGRPYEGIAVFDGKKITVTGTLWNGNKIIDERLINPDGSLLFRVTINGVTGWRLCERILATG*</td></tr></table></span></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Sequence features:</strong> (with their position in the amino acid sequence, see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software/FeatureList">list of supported features</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2b">None of the supported features appeared in the sequence</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid composition:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Ala (A)</td><td class="AutoAnnotatorInnerAmino">4 (2.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Arg (R)</td><td class="AutoAnnotatorInnerAmino">7 (4.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asn (N)</td><td class="AutoAnnotatorInnerAmino">8 (4.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asp (D)</td><td class="AutoAnnotatorInnerAmino">12 (6.9%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Cys (C)</td><td class="AutoAnnotatorInnerAmino">1 (0.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gln (Q)</td><td class="AutoAnnotatorInnerAmino">7 (4.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Glu (E)</td><td class="AutoAnnotatorInnerAmino">8 (4.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gly (G)</td><td class="AutoAnnotatorInnerAmino">22 (12.6%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">His (H)</td><td class="AutoAnnotatorInnerAmino">4 (2.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ile (I)</td><td class="AutoAnnotatorInnerAmino">18 (10.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Leu (L)</td><td class="AutoAnnotatorInnerAmino">16 (9.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Lys (K)</td><td class="AutoAnnotatorInnerAmino">7 (4.0%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Met (M)</td><td class="AutoAnnotatorInnerAmino">3 (1.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Phe (F)</td><td class="AutoAnnotatorInnerAmino">8 (4.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Pro (P)</td><td class="AutoAnnotatorInnerAmino">6 (3.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ser (S)</td><td class="AutoAnnotatorInnerAmino">6 (3.4%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Thr (T)</td><td class="AutoAnnotatorInnerAmino">11 (6.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Trp (W)</td><td class="AutoAnnotatorInnerAmino">3 (1.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Tyr (Y)</td><td class="AutoAnnotatorInnerAmino">6 (3.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Val (V)</td><td class="AutoAnnotatorInnerAmino">18 (10.3%)</td></tr></table></td></tr></table></td></tr><tr><td class="AutoAnnotatorAminoCountingOuter"><strong>Amino acid counting</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Total number:</td><td class="AutoAnnotatorAminoCountingInner3">175</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Positively charged (Arg+Lys):</td><td class="AutoAnnotatorAminoCountingInner3">14 (8.0%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Negatively charged (Asp+Glu):</td><td class="AutoAnnotatorAminoCountingInner3">20 (11.4%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Aromatic (Phe+His+Try+Tyr):</td><td class="AutoAnnotatorAminoCountingInner3">21 (12.0%)</td></tr></table></td><td class="AutoAnnotatorBiochemParOuter"><strong>Biochemical parameters</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Atomic composition:</td><td class="AutoAnnotatorBiochemParInner3">C<sub>882</sub>H<sub>1377</sub>N<sub>229</sub>O<sub>254</sub>S<sub>4</sub></td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Molecular mass [Da]:</td><td class="AutoAnnotatorBiochemParInner3">19381.3</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Theoretical pI:</td><td class="AutoAnnotatorBiochemParInner3">5.10</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Extinction coefficient at 280 nm [M<sup>-1</sup> cm<sup>-1</sup>]:</td><td class="AutoAnnotatorBiochemParInner3">25440 / 25503 (all Cys red/ox)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Plot for hydrophobicity, charge, predicted secondary structure, solvent accessability, transmembrane helices and disulfid bridges</strong> <input type='button' id='hydrophobicity_charge_button' onclick='show_or_hide_plot_1380926458650()' value='Show'><span id="hydrophobicity_charge_explanation"></span><div id="hydrophobicity_charge_container" style='display:none'><div id="hydrophobicity_charge_placeholder0" style="width:100%;height:150px"></div></div></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Codon usage</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Organism:</td><td class="AutoAnnotatorCodonUsage3"><i>E. coli</i></td><td class="AutoAnnotatorCodonUsage3"><i>B. subtilis</i></td><td class="AutoAnnotatorCodonUsage3"><i>S. cerevisiae</i></td><td class="AutoAnnotatorCodonUsage3"><i>A. thaliana</i></td><td class="AutoAnnotatorCodonUsage3"><i>P. patens</i></td><td class="AutoAnnotatorCodonUsage3">Mammals</td></tr><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Codon quality (<a href="http://en.wikipedia.org/wiki/Codon_Adaptation_Index">CAI</a>):</td><td class="AutoAnnotatorCodonUsage3">good (0.66)</td><td class="AutoAnnotatorCodonUsage3">good (0.68)</td><td class="AutoAnnotatorCodonUsage3">good (0.62)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.84)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.91)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.82)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Alignments</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">SwissProt:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/Q9GV45'>Q9GV45</a> (90% identity on 169 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">TrEML:</td><td class="AutoAnnotatorAlignment3"> - </td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">PDB:</td><td class="AutoAnnotatorAlignment3"> - </td></tr></table></td></tr><tr><th id='AutoAnnotatorHeader' colspan="2"><strong>Predictions</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)</th></tr><tr><td class="AutoAnnotatorLocalizationOuter"><strong>Subcellular Localization</strong> (reliability in brackets)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Archaea:</td><td class="AutoAnnotatorLocalization3">secreted (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Bacteria:</td><td class="AutoAnnotatorLocalization3">secreted (51%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Eukarya:</td><td class="AutoAnnotatorLocalization3">cytosol (12%)</td></tr></table></td><td class="AutoAnnotatorGOOuter"><strong>Gene Ontology</strong> (reliability in brackets)<br><table class="AutoAnnotatorNoBorder"><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Molecular Function Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Biological Process Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'> </td><td class='AutoAnnotatorGO2'> </td><td class='AutoAnnotatorGO3'> </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Predicted features:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Disulfid bridges:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Transmembrane helices:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"> The BioBrick-AutoAnnotator was created by <a href="https://2013.igem.org/Team:TU-Munich">TU-Munich 2013</a> iGEM team. For more information please see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software">documentation</a>.<br>If you have any questions, comments or suggestions, please leave us a <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">comment</a>.</td></tr></table></div><br><!-- IMPORTANT: DON'T REMOVE THIS LINE, OTHERWISE NOT SUPPORTED FOR IE BEFORE 9 --><!--[if lte IE 8]><script language="javascript" type="text/javascript" src="excanvas.min.js"></script><![endif]--><script type='text/javascript' src='http://code.jquery.com/jquery-1.10.0.min.js'></script><script type='text/javascript' src='https://2013.igem.org/Team:TU-Munich/Flot.js?action=raw&ctype=text/js'></script><script>function show_or_hide_plot_1380926458650(){hydrophobicity_datapoints = 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| + | As expected the enzymes efficiency is increasing with temperature, but it is also acceptable at lake and river temperatures which are about 10 to 15 °C. |
| + | <div class="visualClear"></div> |
| + | [[File:TUM13 Laccase_TempAuswertung.png|thumb|left|400px| '''Figure 19:''' Dependence of the activity of the laccase on the ambient temperature]] |
| + | |
| + | For our [https://2013.igem.org/Team:TU-Munich/Modeling/Filter filter modelling] we determined k<sub>cat</sub>/K<sub>M</sub> from these measurements by looking at the initial gradient. We normalized this by equating the enzyme activity at 20° C with the activity determined by our [https://2013.igem.org/Team:TU-Munich/Modeling/Enzyme modeling] of the substrate dependence of the laccase. This can be assumed, because in the experimental setup the substrate concentration is a lot less than the K<sub>M</sub> value we determined, which then simplifies the Michaelis-Menten equation to give, that the initial gradient is proportional to the enzyme activity k<sub>cat</sub>/K<sub>M</sub>.This gave us the activity dependence shown in Figure 19. |
| + | |
| + | ====Half-life of the laccase in river water==== |
| + | |
| + | [[File:TUM13 Laccase_0std.png|thumb|left|400px| '''Figure 20:''' Laccase reaction after 0 hours of incubation in river water]] |
| + | |
| + | Laccase with an initial concentration of 0,3125 µM was diluted with 1:1 steps at the initial time, then ABTS at a concentration of 97.2 µM was added to each dilution and the kinetic of the ABTS reaction was recorded using a photometer at 405 nm. Figure 20 shows the results. |
| + | |
| + | Then the laccase was dialyzed against river water, taken from the local river Isar. After 96 hours and again after 144 hours, the initial dilution experiment was repeated giving figure 21 any 22, respectively. It is apparent that the enzymes activity has been reduced. |
| + | From these measurements we '''estimated the half-life to be 36.3 hours''', corresponding to an inactivation rate of 5.3 10<sup>-6</sup> s<sup>-1</sup>, which we then used in our [https://2013.igem.org/Team:TU-Munich/Modeling/Filter filter model]. |
| + | |
| + | [[File:TUM13 Laccase_96std.png|thumb|left|400px| '''Figure 21:''' Laccase reaction after 96 hours of incubation in river water]] |
| + | [[File:TUM13 Laccase_144std.png|thumb|right|400px| '''Figure 22:''' Laccase reaction after 144 hours of incubation in river water]] |
| + | |
| + | ==Nano Luciferase== |
| + | The Nano Luciferase (NanoLuc) which was introduced in 2013 by Promega is a new member of the luciferase reporter gene/protein familiy and shows some advantages compared to the other family members. The NanoLuc is very small (19 kDa) compared to the firefly luciferase (61 kDa) and the ''Renilla'' luciferase (36 kDa). On the other hand it is also said that the specific activity of the NanoLuc is about 150-fold stronger compared to conventional luciferases and the background caused by autoluminescense of the substrate is said to be remarkably smaller. |
| | | |
| ===Production in ''E. coli'' and purification=== | | ===Production in ''E. coli'' and purification=== |
- | [[File:TUM13_Analytprep_NanoLuc.png|thumb|right|320px| '''Figure 19:''' Analytical size exclusion chromatography on a Superdex 200 10/30 column showing a single elution peak for the NanoLuc.]] | + | [[File:TUM13_Analytprep_NanoLuc.png|thumb|right|320px| '''Figure 23:''' Analytical size exclusion chromatography on a Superdex 200 10/30 column showing a single elution peak for the NanoLuc.]] |
- | [[File:TUM13_Preparative_NanoLuc.png|thumb|right|320px| '''Figure 20a:''' Preperative size exclusion chromatography on a Superdex 75 10/30 column showing a single elution peak for the NanoLuc.]] | + | [[File:TUM13_Preparative_NanoLuc.png|thumb|right|320px| '''Figure 24:''' Preperative size exclusion chromatography on a Superdex 75 10/30 column showing a single elution peak for the NanoLuc.]] |
- | [[File:TUM13_Nanoluciferase_chromatogramm.png|thumb|left|320px| '''Figure 18: '''Streptavidin affinity chromatography for NanoLuc]] | + | [[File:TUM13_Nanoluciferase_chromatogramm.png|thumb|left|320px| '''Figure 25: '''Streptavidin affinity chromatography for NanoLuc]] |
- | Therefore the NanoLuc was synthesized as a BioBrick in RFC[25] and was produced in ''E. coli'' using the pBad expression system with a C-terminal ''Strep''-tag. After the production (2 l of LB-media for analytical and 12 l for preparative preparations) the cells were disrupted using sonification and the lysate was dialysed against 5 l of 1x SA-buffer. Afterwards the lysate was applied to a Streptavidin-Affinity (SA) column and was subsequently washed using SA-Buffer until a baseline was reached and the protein was then eluted using 5 mM of biotin (Attention: These are special columns which are not availible commercially. If you are using commercial colum material you have to use d-Desthiobiotin because usual biotin will elute your protein but you will not be able to regenerate the column after your chromatography). After the SA-chromatography the protein was concentrated using centrifugal concentration units (MWCO: 10 kDa). The concentrated protein was then applied on a Superdex S200/75 size exclusion chromatography. The chromatogram of both preparations show a single peak in the chromatogram which elutes at an expected elution volume of 15 ml. The absence of any notable aggregation peak shows the high stability of this protein and the ease of production. | + | Therefore the NanoLuc was synthesized as a BioBrick in RFC[25] and was produced in ''E. coli'' using the pBad expression system with a C-terminal ''Strep''-tag. After the production (2 l of LB-media for analytical and 12 l for preparative preparations) the cells were disrupted using sonification and the lysate was dialysed against 5 l of 1x SA-buffer. Afterwards the lysate was applied to a Streptavidin-Affinity (SA) column and was subsequently washed using SA-Buffer until a baseline was reached and the protein was then eluted using 5 mM of biotin (Attention: These are special columns which are not availible commercially. If you are using commercial colum material you have to use d-Desthiobiotin because usual biotin will elute your protein but you will not be able to regenerate the column after your chromatography). After the SA-chromatography the protein was concentrated using centrifugal concentration units (MWCO: 10 kDa). The concentrated protein was then applied onto a Superdex S200/75 size exclusion chromatography. The chromatogram of both preparations show a single peak in the chromatogram which elutes at an expected elution volume of 15 ml. The absence of any notable aggregation peak shows the high stability of this protein and the ease of production. |
| | | |
- | [[File:TUM13_SDS_nLuc.png|thumb|right|320px|'''Figure 20b:'''SDS-gel of recombinant nLuc with the marker (M) followed by the concentrated throughput of the streptavidin affinity column and 6 fractions collected from the elution peak]] | + | [[File:TUM13_SDS_nLuc.png|thumb|right|320px|'''Figure 26:'''SDS-gel of recombinant nLuc with the marker (M) followed by the concentrated throughput of the streptavidin affinity column and 6 fractions collected from the elution peak]] |
| | | |
| ===Structure of the Nano Luciferase=== | | ===Structure of the Nano Luciferase=== |
- | [[File:TUM13_CD_nLuc.png|thumb|right|300px| '''Figure 21:''' Circular dichroism spectrum of the recombinant produced NanoLuc luciferase]] | + | [[File:TUM13_CD_nLuc.png|thumb|right|300px| '''Figure 27:''' Circular dichroism spectrum of the recombinant produced NanoLuc luciferase]] |
- | [[File:TUM13_Annimated_test.gif|thumb|left|300px| '''Figure 22:''' Homologous structure (3ppt_A) of the NanoLuc luciferase]] | + | [[File:TUM13_Annimated_test.gif|thumb|left|300px| '''Figure 28:''' Homologous structure (3ppt_A) of the NanoLuc luciferase]] |
- | There is no structure availible for the NanoLuc in the [http://www.rcsb.org/pdb/home/home.do Protein Data Bank]. In our [https://2013.igem.org/Team:TU-Munich/Modeling/Protein_Predictions protein modelling] we used homolgy search and identified the structure [http://www.rcsb.org/pdb/explore/explore.do?structureId=3PPT 3ppt_A] as the solved structure with the highest homology to the NanoLuc which has only 21% identify with a similarity of only 0.359. The result of the homology search is shown as annimated gif in Figure 21 (please see our [https://2013.igem.org/Team:TU-Munich/Results/How_To How To] for an introduction). The protein was dialysed against 1x CD-buffer and subsequently a circular dichroism spectroscopy was tanken (learn about [https://2013.igem.org/Team:TU-Munich/Notebook/Methods#Circular_Dichroism_Spectroscopy CD spectroscopy]). The CD spectrum was used to predict the secondary structure content of the NanoLuc which could be determined to 35.1% helix, 27.6% b-strand, 18.5% turn and 18.8% random. As there is only a poor homology present, a detailed comparison of the determined and the predicted secondary structure is not possible. But it can be stated that both show a balanced content of different secondary structures and that the produced protein is present in an folded conformation. The mixed secondary structure content is also in consistance with the predicted secondary structure shown in the [https://2013.igem.org/Team:TU-Munich/Results/Software AutoAnnotator] sequence window (click on show). | + | There is no structure available for the [http://parts.igem.org/Part:BBa_K1159001 NanoLuc Luciferase] in the [http://www.rcsb.org/pdb/home/home.do Protein Data Bank]. In our [https://2013.igem.org/Team:TU-Munich/Modeling/Protein_Predictions protein modelling] we used homolgy search and identified the structure [http://www.rcsb.org/pdb/explore/explore.do?structureId=3PPT 3ppt_A] as the solved structure with the highest homology to the NanoLuc which has only 21% identity with a similarity of only 0.359. The result of the homology search is shown as annimated gif in Figure 28 (please see our [https://2013.igem.org/Team:TU-Munich/Results/How_To How To] for an introduction). The protein was dialysed against 1x CD-buffer and subsequently a circular dichroism spectroscopy was taken (learn about [https://2013.igem.org/Team:TU-Munich/Notebook/Methods#Circular_Dichroism_Spectroscopy CD spectroscopy]). The CD spectrum was used to predict the secondary structure content of the NanoLuc which could be determined to 35.1% helix, 27.6% b-strand, 18.5% turn and 18.8% random. As there is only a poor homology present, a detailed comparison of the determined and the predicted secondary structure is not possible. But it can be stated that both show a balanced content of different secondary structures and that the produced protein is present in a folded conformation. The mixed secondary structure content is also in consistance with the predicted secondary structure shown in the [https://2013.igem.org/Team:TU-Munich/Results/Software AutoAnnotator] sequence window ([http://parts.igem.org/Part:BBa_K1159001 click here]). |
| | | |
| ===Activity determination of Luminescense=== | | ===Activity determination of Luminescense=== |
- | [[File:TUM13_nLuc_activity_pH.png|thumb|right|320px| '''Figure 23:''' Activity dependence of the NanoLuc luciferase on the pH.]] | + | [[File:TUM13_nLuc_activity_pH.png|thumb|right|320px| '''Figure 29:''' Activity dependence of the NanoLuc luciferase on the pH.]] |
- | [[File:TUM13_nLuc_activity_NaCl.png|thumb|right|320px| '''Figure 24:''' Activity dependence of the NanoLuc luciferase on the ionic strength.]] | + | [[File:TUM13_nLuc_activity_NaCl.png|thumb|right|320px| '''Figure 30:''' Activity dependence of the NanoLuc luciferase on the ionic strength.]] |
| The activity of the produced NanoLuc was investigated by its luminescense. The assay was performed in white 96-well plates (Nund) and the bioluminescense was determined at 460 nm in a BioTeK II plate reader for 1 sec per well. For every reaction 50 µl of the NanoGlow substrate (sponsored by Promega) was mixed with 50 µl of the NanoLuc preparation. In a first experiment a dilution series of the NanoLuc was performed in order to find the apropriate dilution of the enzyme (data not shown). Finally the 1:100 000 dilution was used for all experiments as it resulted in intermediate luminescense values within the dynamic range of the plate reader. <br> | | The activity of the produced NanoLuc was investigated by its luminescense. The assay was performed in white 96-well plates (Nund) and the bioluminescense was determined at 460 nm in a BioTeK II plate reader for 1 sec per well. For every reaction 50 µl of the NanoGlow substrate (sponsored by Promega) was mixed with 50 µl of the NanoLuc preparation. In a first experiment a dilution series of the NanoLuc was performed in order to find the apropriate dilution of the enzyme (data not shown). Finally the 1:100 000 dilution was used for all experiments as it resulted in intermediate luminescense values within the dynamic range of the plate reader. <br> |
- | The dependency of the luminescense reaction on the pH value of the buffer was assayed by an experiment in which the NanoGlow substrate was diluted in water instead of the provided buffer and the pH was adapted by 100 µl of 500 mM buffers. The resulting luminescense is shown in Figure x and shows a clear optimum around pH 8.0 to 8.5. A luminescense value of more than 50% can be expected for pH values between 6 and 9 which is sufficient for most assays. <br> | + | The dependency of the luminescense reaction on the pH value of the buffer was assayed by an experiment in which the NanoGlow substrate was diluted in water instead of the provided buffer and the pH was adapted by 100 µl of 500 mM buffers. The resulting luminescense is shown in Figure 23 and shows a clear optimum around pH 8.0 to 8.5. A luminescense value of more than 50% can be expected for pH values between 6 and 9 which is sufficient for most assays. <br> |
- | For the dependency of the luminescence on the ionic strength 50 µl of diluted NanoLuc, 50 µl of NanoGlow substrate and 100 µl of sodium chloride dilution series were incubated and afterwards the luminescense was quantified in triplicates. The result is impressing and again speaks for the NanoLuc luciferase as a innovative reporter protein. The obtained luminescense is constant from 0 to 250 mM of NaCl and upon 1 M of NaCl at least 50% of the maximal luminescense can be expected. | + | For the dependency of the luminescence on the ionic strength 50 µl of diluted NanoLuc, 50 µl of NanoGlow substrate and 100 µl of sodium chloride dilution series were incubated and afterwards the luminescense was quantified in triplicates. The result is impressing and again speaks for the NanoLuc luciferase as an innovative reporter protein. The obtained luminescense is constant from 0 to 250 mM of NaCl and upon 1 M of NaCl at least 50% of the maximal luminescense can be expected. |
| | | |
| ==Catechol Dioxigenase (XylE)== | | ==Catechol Dioxigenase (XylE)== |
Line 237: |
Line 268: |
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- | ===Protein Data Table for the Catechol Dioxigenase (XylE) <partinfo>BBa_K648011</partinfo>===
| |
- | <html><!--- Please copy this table containing parameters for BBa_ at the end of the parametrs section ahead of the references. ---><style type="text/css">table#AutoAnnotator {border:1px solid black; width:100%; border-collapse:collapse;} th#AutoAnnotatorHeader { border:1px solid black; width:100%; background-color: rgb(221, 221, 221);} td.AutoAnnotator1col { width:100%; border:1px solid black; } span.AutoAnnotatorSequence { font-family:'Courier New', Arial; } td.AutoAnnotatorSeqNum { text-align:right; width:2%; } td.AutoAnnotatorSeqSeq { width:98% } td.AutoAnnotatorSeqFeat1 { width:3% } td.AutoAnnotatorSeqFeat2a { width:27% } td.AutoAnnotatorSeqFeat2b { width:97% } td.AutoAnnotatorSeqFeat3 { width:70% } table.AutoAnnotatorNoBorder { border:0px; width:100%; border-collapse:collapse; } table.AutoAnnotatorWithBorder { border:1px solid black; width:100%; border-collapse:collapse; } td.AutoAnnotatorOuterAmino { border:0px solid black; width:20% } td.AutoAnnotatorInnerAmino { border:1px solid black; width:50% } td.AutoAnnotatorAminoCountingOuter { border:1px solid black; width:40%; } td.AutoAnnotatorBiochemParOuter { border:1px solid black; width:60%; } td.AutoAnnotatorAminoCountingInner1 { width: 7.5% } td.AutoAnnotatorAminoCountingInner2 { width:62.5% } td.AutoAnnotatorAminoCountingInner3 { width:30% } td.AutoAnnotatorBiochemParInner1 { width: 5% } td.AutoAnnotatorBiochemParInner2 { width:55% } td.AutoAnnotatorBiochemParInner3 { width:40% } td.AutoAnnotatorCodonUsage1 { width: 3% } td.AutoAnnotatorCodonUsage2 { width:14.2% } td.AutoAnnotatorCodonUsage3 { width:13.8% } td.AutoAnnotatorAlignment1 { width: 3% } td.AutoAnnotatorAlignment2 { width: 10% } td.AutoAnnotatorAlignment3 { width: 87% } td.AutoAnnotatorLocalizationOuter {border:1px solid black; width:40%} td.AutoAnnotatorGOOuter {border:1px solid black; width:60%} td.AutoAnnotatorLocalization1 { width: 7.5% } td.AutoAnnotatorLocalization2 { width: 22.5% } td.AutoAnnotatorLocalization3 { width: 70% } td.AutoAnnotatorGO1 { width: 5% } td.AutoAnnotatorGO2 { width: 35% } td.AutoAnnotatorGO3 { width: 60% } td.AutoAnnotatorPredFeat1 { width:3% } td.AutoAnnotatorPredFeat2a { width:27% } td.AutoAnnotatorPredFeat3 { width:70% } div.AutoAnnotator_trans { position:absolute; background:rgb(11,140,143); background-color:rgba(11,140,143, 0.8); height:5px; top:100px; } div.AutoAnnotator_sec_helix { position:absolute; background:rgb(102,0,102); background-color:rgba(102,0,102, 0.8); height:5px; top:110px; } div.AutoAnnotator_sec_strand { position:absolute; background:rgb(245,170,26); background-color:rgba(245,170,26, 1); height:5px; top:110px; } div.AutoAnnotator_acc_buried { position:absolute; background:rgb(89,168,15); background-color:rgba(89,168,15, 0.8); height:5px; top:120px; } div.AutoAnnotator_acc_exposed { position:absolute; background:rgb(0, 0, 255); background-color:rgba(0, 0, 255, 0.8); height:5px; top:120px; } div.AutoAnnotator_dis { position:absolute; text-align:center; font-family:Arial,Helvetica,sans-serif; background:rgb(255, 200, 0); background-color:rgba(255, 200, 0, 1); height:16px; width:16px; top:80px; border-radius:50%; } </style><div id='AutoAnnotator_container_1380926320667'><table id="AutoAnnotator"><tr><!-- Time stamp in ms since 1/1/1970 1380926320667 --><th id="AutoAnnotatorHeader" colspan="2">Protein data table for BioBrick <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K648011">BBa_K648011</a> automatically created by the <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">BioBrick-AutoAnnotator</a> version 1.0</th></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Nucleotide sequence</strong> in <strong>RFC 25</strong>, so ATGGCCGGC and ACCGGT were added (in italics) to the 5' and 3' ends: (underlined part encodes the protein)<br><span class="AutoAnnotatorSequence"> <u><i>ATGGCCGGC</i>AACAAAGGT ... GTGCTGACC<i>ACCGGT</i></u></span><br> <strong>ORF</strong> from nucleotide position -8 to 924 (excluding stop-codon)</td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid sequence:</strong> (RFC 25 scars in shown in bold, other sequence features underlined; both given below)<br><span class="AutoAnnotatorSequence"><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqNum">1 <br>101 <br>201 <br>301 </td><td class="AutoAnnotatorSeqSeq">MAGNKGVMRPGHVQLRVLDMSKALEHYVELLGLIEMDRDDQGRVYLKAWTEVDKFSLVLREADEPGMDFMGFKVVDEDALRQLERDLMAYGCAVEQLPAG<br>ELNSCGRRVRFQAPSGHHFELYADKEYTGKWGLNDVNPEAWPRDLKGMAAVRFDHALMYGDELPATYDLFTKVLGFYLAEQVLDENGTRVAQFLSLSTKA<br>HDVAFIHHPEKGRLHHVSFHLETWEDLLRAADLISMTDTSIDIGPTRHGLTHGKTIYFFDPSGNRNEVFCGGDYNYPDHKPVTWTTDQLGKAIFYHDRIL<br>NERFMTVLTTG*</td></tr></table></span></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Sequence features:</strong> (with their position in the amino acid sequence, see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software/FeatureList">list of supported features</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2b">None of the supported features appeared in the sequence</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid composition:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Ala (A)</td><td class="AutoAnnotatorInnerAmino">22 (7.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Arg (R)</td><td class="AutoAnnotatorInnerAmino">19 (6.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asn (N)</td><td class="AutoAnnotatorInnerAmino">9 (2.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asp (D)</td><td class="AutoAnnotatorInnerAmino">27 (8.7%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Cys (C)</td><td class="AutoAnnotatorInnerAmino">3 (1.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gln (Q)</td><td class="AutoAnnotatorInnerAmino">8 (2.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Glu (E)</td><td class="AutoAnnotatorInnerAmino">21 (6.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gly (G)</td><td class="AutoAnnotatorInnerAmino">26 (8.4%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">His (H)</td><td class="AutoAnnotatorInnerAmino">15 (4.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ile (I)</td><td class="AutoAnnotatorInnerAmino">8 (2.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Leu (L)</td><td class="AutoAnnotatorInnerAmino">34 (10.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Lys (K)</td><td class="AutoAnnotatorInnerAmino">14 (4.5%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Met (M)</td><td class="AutoAnnotatorInnerAmino">11 (3.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Phe (F)</td><td class="AutoAnnotatorInnerAmino">16 (5.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Pro (P)</td><td class="AutoAnnotatorInnerAmino">12 (3.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ser (S)</td><td class="AutoAnnotatorInnerAmino">10 (3.2%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Thr (T)</td><td class="AutoAnnotatorInnerAmino">18 (5.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Trp (W)</td><td class="AutoAnnotatorInnerAmino">5 (1.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Tyr (Y)</td><td class="AutoAnnotatorInnerAmino">12 (3.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Val (V)</td><td class="AutoAnnotatorInnerAmino">21 (6.8%)</td></tr></table></td></tr></table></td></tr><tr><td class="AutoAnnotatorAminoCountingOuter"><strong>Amino acid counting</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Total number:</td><td class="AutoAnnotatorAminoCountingInner3">311</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Positively charged (Arg+Lys):</td><td class="AutoAnnotatorAminoCountingInner3">33 (10.6%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Negatively charged (Asp+Glu):</td><td class="AutoAnnotatorAminoCountingInner3">48 (15.4%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Aromatic (Phe+His+Try+Tyr):</td><td class="AutoAnnotatorAminoCountingInner3">48 (15.4%)</td></tr></table></td><td class="AutoAnnotatorBiochemParOuter"><strong>Biochemical parameters</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Atomic composition:</td><td class="AutoAnnotatorBiochemParInner3">C<sub>1585</sub>H<sub>2418</sub>N<sub>434</sub>O<sub>465</sub>S<sub>14</sub></td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Molecular mass [Da]:</td><td class="AutoAnnotatorBiochemParInner3">35442.1</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Theoretical pI:</td><td class="AutoAnnotatorBiochemParInner3">5.41</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Extinction coefficient at 280 nm [M<sup>-1</sup> cm<sup>-1</sup>]:</td><td class="AutoAnnotatorBiochemParInner3">45380 / 45568 (all Cys red/ox)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Plot for hydrophobicity, charge, predicted secondary structure, solvent accessability, transmembrane helices and disulfid bridges</strong> <input type='button' id='hydrophobicity_charge_button' onclick='show_or_hide_plot_1380926320667()' value='Show'><span id="hydrophobicity_charge_explanation"></span><div id="hydrophobicity_charge_container" style='display:none'><div id="hydrophobicity_charge_placeholder0" style="width:100%;height:150px"></div><div id="hydrophobicity_charge_placeholder1" style="width:100%;height:150px"></div></div></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Codon usage</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Organism:</td><td class="AutoAnnotatorCodonUsage3"><i>E. coli</i></td><td class="AutoAnnotatorCodonUsage3"><i>B. subtilis</i></td><td class="AutoAnnotatorCodonUsage3"><i>S. cerevisiae</i></td><td class="AutoAnnotatorCodonUsage3"><i>A. thaliana</i></td><td class="AutoAnnotatorCodonUsage3"><i>P. patens</i></td><td class="AutoAnnotatorCodonUsage3">Mammals</td></tr><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Codon quality (<a href="http://en.wikipedia.org/wiki/Codon_Adaptation_Index">CAI</a>):</td><td class="AutoAnnotatorCodonUsage3">good (0.73)</td><td class="AutoAnnotatorCodonUsage3">good (0.70)</td><td class="AutoAnnotatorCodonUsage3">acceptable (0.55)</td><td class="AutoAnnotatorCodonUsage3">good (0.63)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.82)</td><td class="AutoAnnotatorCodonUsage3">good (0.78)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Alignments</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">SwissProt:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/P06622'>P06622</a> (99% identity on 307 AAs), <a href='http://www.uniprot.org/uniprot/P27887'>P27887</a> (94% identity on 307 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">TrEML:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/J9ZVS6'>J9ZVS6</a> (100% identity on 270 AAs), <a href='http://www.uniprot.org/uniprot/J9ZVW6'>J9ZVW6</a> (100% identity on 270 AAs), <a href='http://www.uniprot.org/uniprot/J9ZX53'>J9ZX53</a> (100% identity on 270 AAs), <a href='http://www.uniprot.org/uniprot/Q38Q96'>Q38Q96</a> (100% identity on 293 AAs), <a href='http://www.uniprot.org/uniprot/D2XKL2'>D2XKL2</a> (99% identity on 307 AAs), <a href='http://www.uniprot.org/uniprot/J9ZVF5'>J9ZVF5</a> (99% identity on 270 AAs), <a href='http://www.uniprot.org/uniprot/Q5EGN5'>Q5EGN5</a> (99% identity on 237 AAs), <a href='http://www.uniprot.org/uniprot/Q5EGN6'>Q5EGN6</a> (99% identity on 240 AAs), <a href='http://www.uniprot.org/uniprot/Q7AXV1'>Q7AXV1</a> (99% identity on 307 AAs), <a href='http://www.uniprot.org/uniprot/Q7BH44'>Q7BH44</a> (99% identity on 307 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">PDB:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1mpy'>1mpy</a> (99% identity on 307 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=3hpv'>3hpv</a> (48% identity on 296 AAs)</td></tr></table></td></tr><tr><th id='AutoAnnotatorHeader' colspan="2"><strong>Predictions</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)</th></tr><tr><td class="AutoAnnotatorLocalizationOuter"><strong>Subcellular Localization</strong> (reliability in brackets)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Archaea:</td><td class="AutoAnnotatorLocalization3">cytosol (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Bacteria:</td><td class="AutoAnnotatorLocalization3">cytosol (96%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Eukarya:</td><td class="AutoAnnotatorLocalization3">cytosol (8%)</td></tr></table></td><td class="AutoAnnotatorGOOuter"><strong>Gene Ontology</strong> (reliability in brackets)<br><table class="AutoAnnotatorNoBorder"><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Molecular Function Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Biological Process Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'> </td><td class='AutoAnnotatorGO2'> </td><td class='AutoAnnotatorGO3'> </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Predicted features:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Disulfid bridges:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Transmembrane helices:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"> The BioBrick-AutoAnnotator was created by <a href="https://2013.igem.org/Team:TU-Munich">TU-Munich 2013</a> iGEM team. For more information please see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software">documentation</a>.<br>If you have any questions, comments or suggestions, please leave us a <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">comment</a>.</td></tr></table></div><br><!-- IMPORTANT: DON'T REMOVE THIS LINE, OTHERWISE NOT SUPPORTED FOR IE BEFORE 9 --><!--[if lte IE 8]><script language="javascript" type="text/javascript" src="excanvas.min.js"></script><![endif]--><script type='text/javascript' src='http://code.jquery.com/jquery-1.10.0.min.js'></script><script type='text/javascript' src='https://2013.igem.org/Team:TU-Munich/Flot.js?action=raw&ctype=text/js'></script><script>function show_or_hide_plot_1380926320667(){hydrophobicity_datapoints = [[2.5,-0.82],[3.5,-1.28],[4.5,-0.80],[5.5,-0.34],[6.5,-0.54],[7.5,-0.08],[8.5,-0.08],[9.5,-1.56],[10.5,-1.10],[11.5,-0.90],[12.5,0.18],[13.5,-0.64],[14.5,0.84],[15.5,0.76],[16.5,0.76],[17.5,0.38],[18.5,1.12],[19.5,-0.50],[20.5,-0.90],[21.5,0.56],[22.5,-0.52],[23.5,-1.00],[24.5,-0.48],[25.5,0.00],[26.5,-1.46],[27.5,0.00],[28.5,1.40],[29.5,1.58],[30.5,1.50],[31.5,3.10],[32.5,1.64],[33.5,1.26],[34.5,0.64],[35.5,-1.02],[36.5,-2.62],[37.5,-2.62],[38.5,-3.70],[39.5,-3.08],[40.5,-3.08],[41.5,-1.54],[42.5,-1.10],[43.5,0.36],[44.5,-0.34],[45.5,0.92],[46.5,-0.10],[47.5,0.02],[48.5,-1.44],[49.5,0.18],[50.5,-0.88],[51.5,-1.48],[52.5,-0.78],[53.5,-0.24],[54.5,-0.32],[55.5,1.22],[56.5,2.76],[57.5,1.30],[58.5,0.76],[59.5,0.36],[60.5,-1.18],[61.5,-2.64],[62.5,-2.06],[63.5,-1.44],[64.5,-1.42],[65.5,-1.42],[66.5,-0.16],[67.5,0.54],[68.5,0.54],[69.5,0.72],[70.5,0.64],[71.5,0.92],[72.5,1.38],[73.5,0.76],[74.5,-0.50],[75.5,-0.42],[76.5,-0.90],[77.5,-0.98],[78.5,-1.18],[79.5,-1.18],[80.5,0.28],[81.5,-0.78],[82.5,-2.44],[83.5,-2.24],[84.5,-0.78],[85.5,-1.16],[86.5,-0.10],[87.5,0.54],[88.5,1.16],[89.5,0.90],[90.5,0.88],[91.5,1.36],[92.5,0.92],[93.5,0.30],[94.5,0.56],[95.5,-0.12],[96.5,-0.60],[97.5,0.02],[98.5,0.02],[99.5,0.02],[100.5,-0.36],[101.5,-0.88],[102.5,-0.30],[103.5,0.32],[104.5,-1.34],[105.5,-1.54],[106.5,-0.54],[107.5,-1.94],[108.5,-1.30],[109.5,-1.10],[110.5,0.16],[111.5,-1.00],[112.5,-0.26],[113.5,-0.90],[114.5,-0.84],[115.5,-1.84],[116.5,-0.96],[117.5,-1.50],[118.5,-0.66],[119.5,-0.28],[120.5,0.72],[121.5,-0.54],[122.5,-0.62],[123.5,-2.08],[124.5,-2.08],[125.5,-2.58],[126.5,-1.96],[127.5,-1.96],[128.5,-1.44],[129.5,-1.26],[130.5,-0.36],[131.5,-0.98],[132.5,-0.90],[133.5,0.12],[134.5,-0.50],[135.5,-1.58],[136.5,-1.58],[137.5,-0.52],[138.5,-1.54],[139.5,-1.16],[140.5,-1.74],[141.5,-1.74],[142.5,-1.34],[143.5,-1.94],[144.5,-1.70],[145.5,-0.42],[146.5,0.64],[147.5,0.24],[148.5,1.86],[149.5,1.04],[150.5,1.22],[151.5,0.16],[152.5,-0.84],[153.5,-1.32],[154.5,0.34],[155.5,0.16],[156.5,0.60],[157.5,1.16],[158.5,0.10],[159.5,-1.36],[160.5,-0.98],[161.5,-1.04],[162.5,-0.60],[163.5,-0.04],[164.5,0.40],[165.5,-1.06],[166.5,0.02],[167.5,0.22],[168.5,0.22],[169.5,-0.30],[170.5,1.24],[171.5,1.24],[172.5,0.60],[173.5,1.30],[174.5,1.82],[175.5,1.74],[176.5,1.34],[177.5,0.72],[178.5,-0.54],[179.5,0.56],[180.5,0.56],[181.5,-0.50],[182.5,-0.50],[183.5,-0.50],[184.5,-1.42],[185.5,-2.32],[186.5,-2.52],[187.5,-0.98],[188.5,0.08],[189.5,-0.54],[190.5,0.16],[191.5,1.82],[192.5,0.82],[193.5,1.22],[194.5,1.76],[195.5,1.06],[196.5,-0.48],[197.5,0.04],[198.5,-1.36],[199.5,-1.90],[200.5,-0.92],[201.5,0.22],[202.5,0.42],[203.5,1.96],[204.5,2.02],[205.5,0.54],[206.5,-0.14],[207.5,-1.40],[208.5,-3.08],[209.5,-2.52],[210.5,-2.78],[211.5,-1.70],[212.5,-1.64],[213.5,-1.50],[214.5,-0.58],[215.5,0.16],[216.5,-0.04],[217.5,-0.04],[218.5,1.36],[219.5,-0.18],[220.5,-0.16],[221.5,-0.90],[222.5,-0.96],[223.5,-2.42],[224.5,-0.96],[225.5,-0.06],[226.5,-0.78],[227.5,0.28],[228.5,1.34],[229.5,-0.12],[230.5,-0.12],[231.5,1.68],[232.5,1.16],[233.5,1.18],[234.5,1.74],[235.5,0.28],[236.5,-0.76],[237.5,-0.76],[238.5,-0.24],[239.5,-0.80],[240.5,0.80],[241.5,0.86],[242.5,0.70],[243.5,-0.34],[244.5,-0.54],[245.5,-2.08],[246.5,-2.08],[247.5,-1.00],[248.5,-1.00],[249.5,-0.74],[250.5,-0.18],[251.5,-0.88],[252.5,-1.78],[253.5,-0.74],[254.5,-0.36],[255.5,0.28],[256.5,1.62],[257.5,1.06],[258.5,-0.16],[259.5,-0.06],[260.5,-0.70],[261.5,-1.96],[262.5,-2.16],[263.5,-2.54],[264.5,-3.08],[265.5,-2.16],[266.5,-0.90],[267.5,0.50],[268.5,1.12],[269.5,1.74],[270.5,0.20],[271.5,-0.62],[272.5,-1.82],[273.5,-2.00],[274.5,-2.24],[275.5,-2.24],[276.5,-2.62],[277.5,-2.70],[278.5,-2.76],[279.5,-1.60],[280.5,-1.04],[281.5,-0.58],[282.5,0.06],[283.5,0.24],[284.5,-1.30],[285.5,-1.86],[286.5,-0.92],[287.5,-0.86],[288.5,-1.50],[289.5,-0.44],[290.5,1.16],[291.5,0.96],[292.5,0.78],[293.5,0.92],[294.5,-0.14],[295.5,-1.94],[296.5,-1.60],[297.5,-0.58],[298.5,-0.64],[299.5,-0.64],[300.5,-0.64],[301.5,-0.98],[302.5,-1.36],[303.5,-0.80],[304.5,0.74],[305.5,2.40],[306.5,1.70],[307.5,1.18],[308.5,1.24]];charge_datapoints = 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= [];trans_datapoints = [];sec_helix_datapoints = [[20,31],[77,89],[163,174],[224,236]];sec_strand_datapoints = [[6,17],[34,37],[43,48],[55,60],[68,74],[93,95],[107,112],[118,123],[155,160],[177,182],[189,195],[202,207],[214,221],[241,242],[254,259],[265,269]];acc_exposed_datapoints = [[1,4],[21,22],[25,25],[37,41],[50,51],[53,54],[61,61],[63,66],[77,78],[81,81],[85,85],[89,89],[91,91],[93,93],[96,96],[98,98],[100,101],[103,104],[115,115],[125,126],[128,130],[134,135],[137,137],[139,139],[142,144],[146,147],[164,164],[168,168],[184,188],[199,199],[209,211],[225,225],[229,229],[232,232],[235,236],[238,238],[240,240],[242,242],[262,262],[273,273],[278,278],[280,280],[283,283],[285,285],[287,287],[291,291],[297,299],[302,303],[306,306],[309,311]];acc_buried_datapoints = [[5,5],[7,8],[10,15],[17,17],[20,20],[23,24],[26,28],[30,34],[36,36],[44,46],[48,49],[55,59],[67,67],[69,72],[74,74],[79,80],[83,84],[87,87],[92,92],[94,94],[108,109],[111,111],[113,113],[117,117],[119,119],[121,123],[151,151],[153,160],[163,163],[166,167],[169,171],[173,179],[182,182],[190,196],[200,200],[201,206],[214,221],[224,224],[227,228],[230,231],[234,234],[241,241],[243,246],[253,261],[263,270],[292,294],[304,305]];flot_plot_options = []; flot_plot_options[0] = {grid: {borderWidth: {top: 0,right: 0,bottom: 0,left: 0}},legend: {show: false},xaxes: [{show: true,min: 0,max: 200,ticks: [[0.5, '1'], [24.5, '25'], [49.5, '50'], [74.5, '75'], [99.5, '100'], [124.5, '125'], [149.5, '150'], [174.5, '175'], [199.5, '200']],tickLength: -5}],yaxes: [{show: true,ticks: [[0, '0'], [4.5,'hydro-<br>phobic '], [-4.5,'hydro-<br>philic ']],min: -4.5,max: +4.5,font: {size: 12,lineHeight: 14,style: 'italic',weight: 'bold',family: 'sans-serif',variant: 'small-caps',color: 'rgba(100,149,237,1)'}},{show: true,ticks: [[0, ''], [1,'positive<br> charge'], [-1,'negative<br> charge']],position: 'right',min: -1,max: 1,font: {size: 12,lineHeight: 14,style: 'italic',weight: 'bold',family: 'sans-serif',variant: 'small-caps',color: 'rgba(255,99,71,1)'}}]};number_of_plots = 2;for ( plot_num = 1 ; plot_num < number_of_plots ; plot_num ++){flot_plot_options[plot_num] = $.extend(true, {} ,flot_plot_options[0]);flot_plot_options[plot_num].xaxes = [{min: plot_num*200,max: (plot_num + 1)*200,ticks: [ [plot_num*200 + 0.5, (plot_num*200 + 1).toString()], [plot_num*200 + 24.5, (plot_num*200 + 25).toString()], [plot_num*200 + 49.5, (plot_num*200 + 50).toString()], [plot_num*200 + 74.5, (plot_num*200 + 75).toString()], [plot_num*200 + 99.5, (plot_num*200 + 100).toString()], [plot_num*200 + 124.5, (plot_num*200 + 125).toString()], [plot_num*200 + 149.5, (plot_num*200 + 150).toString()], [plot_num*200 + 174.5, (plot_num*200 + 175).toString()], [plot_num*200 + 199.5, (plot_num*200 + 200).toString()] ],tickLength: -5}];};try {if( $('#AutoAnnotator_container_1380926320667 #hydrophobicity_charge_button').val() =='Show' ){$('#AutoAnnotator_container_1380926320667 #hydrophobicity_charge_container').css('display','block');$('#AutoAnnotator_container_1380926320667 #hydrophobicity_charge_button').val('Hide');var description_html = '<div id=\'AutoAnnotator_plot_selectors\'>';description_html = description_html + '<br> <input type=\'checkbox\' id=\'hydrophobicity_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for hydrophobicity (<img src=\'https://static.igem.org/mediawiki/2013/e/e9/TUM13_hydrophobicity_icon.png\' alt=\'blue graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'charge_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for charge (<img src=\'https://static.igem.org/mediawiki/2013/3/3e/TUM13_charge_icon.png\' alt=\'red graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'dis_checkbox\' checked=\'checked\'> Predicted disulfid bridges (<img src=\'https://static.igem.org/mediawiki/2013/2/28/TUM13_dis_icon.png\' alt=\'yellow circle\' height=\'10\'></img>) with the number of the bridge in the center';description_html = description_html + '<br> <input type=\'checkbox\' id=\'trans_checkbox\' checked=\'checked\'> Predicted transmembrane helices (<img src=\'https://static.igem.org/mediawiki/2013/7/78/TUM13_trans_icon.png\' alt=\'turquois bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'sec_checkbox\' checked=\'checked\'> Predicted secondary structure: Helices (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_helix_icon.png\' alt=\'violet bars\' height=\'10\'></img>) and beta-strands (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_strand_icon.png\' alt=\'yellow bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'acc_checkbox\' checked=\'checked\'> Predicted solvent accessability: Exposed (<img src=\'https://static.igem.org/mediawiki/2013/1/16/TUM13_exposed_icon.png\' alt=\'blue bars\' height=\'10\'></img>) and buried (<img src=\'https://static.igem.org/mediawiki/2013/0/0b/TUM13_buried_icon.png\' alt=\'green bars\' height=\'10\'></img>) residues';description_html = description_html + '<br></div>';$('#AutoAnnotator_container_1380926320667 #hydrophobicity_charge_explanation').html(description_html);plot_according_to_selectors_1380926320667();$('#AutoAnnotator_container_1380926320667 #AutoAnnotator_plot_selectors').find('input').click(plot_according_to_selectors_1380926320667);}else{$('#AutoAnnotator_container_1380926320667 #hydrophobicity_charge_container').css('display','none');$('#AutoAnnotator_container_1380926320667 #hydrophobicity_charge_button').val('Show');$('#AutoAnnotator_container_1380926320667 #hydrophobicity_charge_explanation').html('');}}catch(err){txt='There was an error with the button controlling the visibility of the plot.\n';txt=txt+'The originating error is:\n' + err + '\n\n';alert(txt);}};function plot_according_to_selectors_1380926320667(){try{var plot_datasets = [[],[]];if($('#AutoAnnotator_container_1380926320667 #hydrophobicity_checkbox').prop('checked') == true){plot_datasets[0] = { color: 'rgba(100,149,237,1)',data: hydrophobicity_datapoints,label: 'Hydrophobicity',lines: { show: true, fill: true, fillColor: 'rgba(100,149,237,0.1)' },yaxis: 1};}if($('#AutoAnnotator_container_1380926320667 #charge_checkbox').prop('checked') == true){plot_datasets[1] = {color: 'rgba(255,99,71,1)',data: charge_datapoints,label: 'Charge',lines: { show: true, fill: true, fillColor: 'rgba(255,99,71,0.1)' },yaxis: 2};}for (plot_num = 0 ; plot_num < number_of_plots ; plot_num 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1)*tick_diff).toFixed(0)).toString() + 'px; left:' + ((pos_of_first_tick + (acc_exposed_datapoints[j][0] - 1.5)*tick_diff - Math.floor((acc_exposed_datapoints[j][0] - 1)/200)*200*tick_diff).toFixed(0)).toString() + 'px\'></div>');}}}catch(err){txt='There was an error while drawing the selected elements for the plot.\n';txt=txt+'The originating error is:\n' + err + '\n\n';throw(txt);}}</script></html>
| |
| | | |
| ===Analytical preparation=== | | ===Analytical preparation=== |
Line 248: |
Line 276: |
| | | |
| ==Protein phosphatase 1 (from ''Homo sapiens'')== | | ==Protein phosphatase 1 (from ''Homo sapiens'')== |
- | The production of recombinant protein phosphatase 1 was part of our collaboration with Dundee iGEM team 2013. They developed this BioBrick which naturally binds [http://de.wikipedia.org/wiki/Microcystine microcystine], an important environmental toxin. | + | [[File:TUM13 Animation_PP1.gif|thumb|right|320px| '''Figure 28:''' Animation of protein structure of PP1]] |
- | ===Protein Data Table for the protein phosphatase 1 (PP1) [http://parts.igem.org/Part:BBa_K1159004 K1159004]===
| + | The production of recombinant protein phosphatase 1 was part of our collaboration with the Dundee iGEM team 2013. They developed this BioBrick which naturally binds [http://de.wikipedia.org/wiki/Microcystine microcystine], an important environmental toxin. |
- | <html><!--- Please copy this table containing parameters for BBa_ at the end of the parametrs section ahead of the references. ---><style type="text/css">table#AutoAnnotator {border:1px solid black; width:100%; border-collapse:collapse;} th#AutoAnnotatorHeader { border:1px solid black; width:100%; background-color: rgb(221, 221, 221);} td.AutoAnnotator1col { width:100%; border:1px solid black; } span.AutoAnnotatorSequence { font-family:'Courier New', Arial; } td.AutoAnnotatorSeqNum { text-align:right; width:2%; } td.AutoAnnotatorSeqSeq { width:98% } td.AutoAnnotatorSeqFeat1 { width:3% } td.AutoAnnotatorSeqFeat2a { width:27% } td.AutoAnnotatorSeqFeat2b { width:97% } td.AutoAnnotatorSeqFeat3 { width:70% } table.AutoAnnotatorNoBorder { border:0px; width:100%; border-collapse:collapse; } table.AutoAnnotatorWithBorder { border:1px solid black; width:100%; border-collapse:collapse; } td.AutoAnnotatorOuterAmino { border:0px solid black; width:20% } td.AutoAnnotatorInnerAmino { border:1px solid black; width:50% } td.AutoAnnotatorAminoCountingOuter { border:1px solid black; width:40%; } td.AutoAnnotatorBiochemParOuter { border:1px solid black; width:60%; } td.AutoAnnotatorAminoCountingInner1 { width: 7.5% } td.AutoAnnotatorAminoCountingInner2 { width:62.5% } td.AutoAnnotatorAminoCountingInner3 { width:30% } td.AutoAnnotatorBiochemParInner1 { width: 5% } td.AutoAnnotatorBiochemParInner2 { width:55% } td.AutoAnnotatorBiochemParInner3 { width:40% } td.AutoAnnotatorCodonUsage1 { width: 3% } td.AutoAnnotatorCodonUsage2 { width:14.2% } td.AutoAnnotatorCodonUsage3 { width:13.8% } td.AutoAnnotatorAlignment1 { width: 3% } td.AutoAnnotatorAlignment2 { width: 10% } td.AutoAnnotatorAlignment3 { width: 87% } td.AutoAnnotatorLocalizationOuter {border:1px solid black; width:40%} td.AutoAnnotatorGOOuter {border:1px solid black; width:60%} td.AutoAnnotatorLocalization1 { width: 7.5% } td.AutoAnnotatorLocalization2 { width: 22.5% } td.AutoAnnotatorLocalization3 { width: 70% } td.AutoAnnotatorGO1 { width: 5% } td.AutoAnnotatorGO2 { width: 35% } td.AutoAnnotatorGO3 { width: 60% } td.AutoAnnotatorPredFeat1 { width:3% } td.AutoAnnotatorPredFeat2a { width:27% } td.AutoAnnotatorPredFeat3 { width:70% } div.AutoAnnotator_trans { position:absolute; background:rgb(11,140,143); background-color:rgba(11,140,143, 0.8); height:5px; top:100px; } div.AutoAnnotator_sec_helix { position:absolute; background:rgb(102,0,102); background-color:rgba(102,0,102, 0.8); height:5px; top:110px; } div.AutoAnnotator_sec_strand { position:absolute; background:rgb(245,170,26); background-color:rgba(245,170,26, 1); height:5px; top:110px; } div.AutoAnnotator_acc_buried { position:absolute; background:rgb(89,168,15); background-color:rgba(89,168,15, 0.8); height:5px; top:120px; } div.AutoAnnotator_acc_exposed { position:absolute; background:rgb(0, 0, 255); background-color:rgba(0, 0, 255, 0.8); height:5px; top:120px; } div.AutoAnnotator_dis { position:absolute; text-align:center; font-family:Arial,Helvetica,sans-serif; background:rgb(255, 200, 0); background-color:rgba(255, 200, 0, 1); height:16px; width:16px; top:80px; border-radius:50%; } </style><div id='AutoAnnotator_container_1380926123048'><table id="AutoAnnotator"><tr><!-- Time stamp in ms since 1/1/1970 1380926123048 --><th id="AutoAnnotatorHeader" colspan="2">Protein data table for BioBrick <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1159004">BBa_K1159004</a> automatically created by the <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">BioBrick-AutoAnnotator</a> version 1.0</th></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Nucleotide sequence</strong> in <strong>RFC 25</strong>, so ATGGCCGGC and ACCGGT were added (in italics) to the 5' and 3' ends: (underlined part encodes the protein)<br><span class="AutoAnnotatorSequence"> <u><i>ATGGCCGGC</i>GGATCCGCG ... GCAAAGAAA<i>ACCGGT</i></u></span><br> <strong>ORF</strong> from nucleotide position -8 to 978 (excluding stop-codon)</td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid sequence:</strong> (RFC 25 scars in shown in bold, other sequence features underlined; both given below)<br><span class="AutoAnnotatorSequence"><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqNum">1 <br>101 <br>201 <br>301 </td><td class="AutoAnnotatorSeqSeq">MAGGSADLDKLNIDSIIQRLLEVRGSKPGKNVQLQENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDR<br>GKQSLETICLLLAYKIKYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVP<br>DQGLLCDLLWSDPDKDVLGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQIL<br>KPAEKKKPNATRPVTPPRGMITKQAKKTG*</td></tr></table></span></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Sequence features:</strong> (with their position in the amino acid sequence, see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software/FeatureList">list of supported features</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2b">None of the supported features appeared in the sequence</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid composition:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Ala (A)</td><td class="AutoAnnotatorInnerAmino">17 (5.2%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Arg (R)</td><td class="AutoAnnotatorInnerAmino">18 (5.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asn (N)</td><td class="AutoAnnotatorInnerAmino">13 (4.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asp (D)</td><td class="AutoAnnotatorInnerAmino">23 (7.0%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Cys (C)</td><td class="AutoAnnotatorInnerAmino">13 (4.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gln (Q)</td><td class="AutoAnnotatorInnerAmino">13 (4.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Glu (E)</td><td class="AutoAnnotatorInnerAmino">21 (6.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gly (G)</td><td class="AutoAnnotatorInnerAmino">25 (7.6%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">His (H)</td><td class="AutoAnnotatorInnerAmino">6 (1.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ile (I)</td><td class="AutoAnnotatorInnerAmino">21 (6.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Leu (L)</td><td class="AutoAnnotatorInnerAmino">39 (11.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Lys (K)</td><td class="AutoAnnotatorInnerAmino">23 (7.0%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Met (M)</td><td class="AutoAnnotatorInnerAmino">7 (2.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Phe (F)</td><td class="AutoAnnotatorInnerAmino">18 (5.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Pro (P)</td><td class="AutoAnnotatorInnerAmino">17 (5.2%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ser (S)</td><td class="AutoAnnotatorInnerAmino">15 (4.6%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Thr (T)</td><td class="AutoAnnotatorInnerAmino">11 (3.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Trp (W)</td><td class="AutoAnnotatorInnerAmino">3 (0.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Tyr (Y)</td><td class="AutoAnnotatorInnerAmino">12 (3.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Val (V)</td><td class="AutoAnnotatorInnerAmino">14 (4.3%)</td></tr></table></td></tr></table></td></tr><tr><td class="AutoAnnotatorAminoCountingOuter"><strong>Amino acid counting</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Total number:</td><td class="AutoAnnotatorAminoCountingInner3">329</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Positively charged (Arg+Lys):</td><td class="AutoAnnotatorAminoCountingInner3">41 (12.5%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Negatively charged (Asp+Glu):</td><td class="AutoAnnotatorAminoCountingInner3">44 (13.4%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Aromatic (Phe+His+Try+Tyr):</td><td class="AutoAnnotatorAminoCountingInner3">39 (11.9%)</td></tr></table></td><td class="AutoAnnotatorBiochemParOuter"><strong>Biochemical parameters</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Atomic composition:</td><td class="AutoAnnotatorBiochemParInner3">C<sub>1678</sub>H<sub>2625</sub>N<sub>447</sub>O<sub>482</sub>S<sub>20</sub></td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Molecular mass [Da]:</td><td class="AutoAnnotatorBiochemParInner3">37414.2</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Theoretical pI:</td><td class="AutoAnnotatorBiochemParInner3">6.12</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Extinction coefficient at 280 nm [M<sup>-1</sup> cm<sup>-1</sup>]:</td><td class="AutoAnnotatorBiochemParInner3">34380 / 35193 (all Cys red/ox)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Plot for hydrophobicity, charge, predicted secondary structure, solvent accessability, transmembrane helices and disulfid bridges</strong> <input type='button' id='hydrophobicity_charge_button' onclick='show_or_hide_plot_1380926123048()' value='Show'><span id="hydrophobicity_charge_explanation"></span><div id="hydrophobicity_charge_container" style='display:none'><div id="hydrophobicity_charge_placeholder0" style="width:100%;height:150px"></div><div id="hydrophobicity_charge_placeholder1" style="width:100%;height:150px"></div></div></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Codon usage</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Organism:</td><td class="AutoAnnotatorCodonUsage3"><i>E. coli</i></td><td class="AutoAnnotatorCodonUsage3"><i>B. subtilis</i></td><td class="AutoAnnotatorCodonUsage3"><i>S. cerevisiae</i></td><td class="AutoAnnotatorCodonUsage3"><i>A. thaliana</i></td><td class="AutoAnnotatorCodonUsage3"><i>P. patens</i></td><td class="AutoAnnotatorCodonUsage3">Mammals</td></tr><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Codon quality (<a href="http://en.wikipedia.org/wiki/Codon_Adaptation_Index">CAI</a>):</td><td class="AutoAnnotatorCodonUsage3">good (0.70)</td><td class="AutoAnnotatorCodonUsage3">good (0.74)</td><td class="AutoAnnotatorCodonUsage3">good (0.68)</td><td class="AutoAnnotatorCodonUsage3">good (0.77)</td><td class="AutoAnnotatorCodonUsage3">good (0.79)</td><td class="AutoAnnotatorCodonUsage3">good (0.71)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Alignments</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">SwissProt:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/P36873'>P36873</a> (100% identity on 322 AAs), <a href='http://www.uniprot.org/uniprot/P36874'>P36874</a> (99% identity on 322 AAs), <a href='http://www.uniprot.org/uniprot/P61287'>P61287</a> (99% identity on 322 AAs), <a href='http://www.uniprot.org/uniprot/P63087'>P63087</a> (99% identity on 322 AAs), <a href='http://www.uniprot.org/uniprot/P63088'>P63088</a> (99% identity on 322 AAs), <a href='http://www.uniprot.org/uniprot/Q6NVU2'>Q6NVU2</a> (99% identity on 322 AAs), <a href='http://www.uniprot.org/uniprot/Q7SZ10'>Q7SZ10</a> (99% identity on 322 AAs), <a href='http://www.uniprot.org/uniprot/Q8MJ46'>Q8MJ46</a> (98% identity on 322 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">TrEML:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/F6YKN7'>F6YKN7</a> (100% identity on 322 AAs), <a href='http://www.uniprot.org/uniprot/F7AYW3'>F7AYW3</a> (100% identity on 305 AAs), <a href='http://www.uniprot.org/uniprot/F7GFT6'>F7GFT6</a> (100% identity on 313 AAs), <a href='http://www.uniprot.org/uniprot/F7GFU1'>F7GFU1</a> (100% identity on 322 AAs), <a href='http://www.uniprot.org/uniprot/G3R7N4'>G3R7N4</a> (100% identity on 313 AAs), <a href='http://www.uniprot.org/uniprot/G5AWL7'>G5AWL7</a> (100% identity on 296 AAs), <a href='http://www.uniprot.org/uniprot/G7N5H3'>G7N5H3</a> (100% identity on 296 AAs), <a href='http://www.uniprot.org/uniprot/G7PI87'>G7PI87</a> (100% identity on 296 AAs), <a href='http://www.uniprot.org/uniprot/H2NIN2'>H2NIN2</a> (100% identity on 313 AAs), <a href='http://www.uniprot.org/uniprot/H2Q6V8'>H2Q6V8</a> (100% identity on 313 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">PDB:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1it6'>1it6</a> (100% identity on 293 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1jk7'>1jk7</a> (100% identity on 294 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2bcd'>2bcd</a> (100% identity on 293 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2bdx'>2bdx</a> (100% identity on 293 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2o8a'>2o8a</a> (100% identity on 295 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2o8g'>2o8g</a> (100% identity on 295 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1u32'>1u32</a> (98% identity on 293 AAs)</td></tr></table></td></tr><tr><th id='AutoAnnotatorHeader' colspan="2"><strong>Predictions</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)</th></tr><tr><td class="AutoAnnotatorLocalizationOuter"><strong>Subcellular Localization</strong> (reliability in brackets)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Archaea:</td><td class="AutoAnnotatorLocalization3">cytosol (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Bacteria:</td><td class="AutoAnnotatorLocalization3">cytosol (89%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Eukarya:</td><td class="AutoAnnotatorLocalization3">cytosol (44%)</td></tr></table></td><td class="AutoAnnotatorGOOuter"><strong>Gene Ontology</strong> (reliability in brackets)<br><table class="AutoAnnotatorNoBorder"><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Molecular Function Ontology:</td><td class='AutoAnnotatorGO3'><a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0005515'>GO:0005515</a> (70%), <a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0004722'>GO:0004722</a> (70%)</td></tr><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Biological Process Ontology:</td><td class='AutoAnnotatorGO3'><a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0051301'>GO:0051301</a> (28%), <a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0005977'>GO:0005977</a> (27%)</td></tr><tr><td class='AutoAnnotatorGO1'> </td><td class='AutoAnnotatorGO2'> </td><td class='AutoAnnotatorGO3'> </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Predicted features:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Disulfid bridges:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Transmembrane helices:</td><td class="AutoAnnotatorPredFeat3">159 to 176 going outwards</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"> The BioBrick-AutoAnnotator was created by <a href="https://2013.igem.org/Team:TU-Munich">TU-Munich 2013</a> iGEM team. For more information please see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software">documentation</a>.<br>If you have any questions, comments or suggestions, please leave us a <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">comment</a>.</td></tr></table></div><br><!-- IMPORTANT: DON'T REMOVE THIS LINE, OTHERWISE NOT SUPPORTED FOR IE BEFORE 9 --><!--[if lte IE 8]><script language="javascript" type="text/javascript" src="excanvas.min.js"></script><![endif]--><script type='text/javascript' src='http://code.jquery.com/jquery-1.10.0.min.js'></script><script type='text/javascript' src='https://2013.igem.org/Team:TU-Munich/Flot.js?action=raw&ctype=text/js'></script><script>function show_or_hide_plot_1380926123048(){hydrophobicity_datapoints = [[2.5,0.42],[3.5,0.40],[4.5,-0.66],[5.5,0.18],[6.5,-0.44],[7.5,-1.06],[8.5,-0.66],[9.5,-0.66],[10.5,-0.52],[11.5,-0.52],[12.5,0.10],[13.5,0.24],[14.5,1.84],[15.5,0.24],[16.5,0.04],[17.5,0.96],[18.5,0.82],[19.5,-0.78],[20.5,0.76],[21.5,0.76],[22.5,-0.08],[23.5,-1.00],[24.5,-1.08],[25.5,-2.24],[26.5,-1.42],[27.5,-2.12],[28.5,-2.66],[29.5,-1.04],[30.5,-1.42],[31.5,-0.58],[32.5,-0.50],[33.5,-0.50],[34.5,-2.04],[35.5,-2.04],[36.5,-1.90],[37.5,-2.10],[38.5,-1.48],[39.5,-0.02],[40.5,1.18],[41.5,1.04],[42.5,1.16],[43.5,1.08],[44.5,-0.58],[45.5,-1.78],[46.5,-1.64],[47.5,-0.30],[48.5,0.62],[49.5,1.36],[50.5,1.36],[51.5,0.14],[52.5,0.48],[53.5,0.48],[54.5,1.40],[55.5,1.40],[56.5,2.48],[57.5,0.88],[58.5,0.48],[59.5,-0.60],[60.5,0.86],[61.5,-0.68],[62.5,0.92],[63.5,1.06],[64.5,1.30],[65.5,-0.16],[66.5,1.52],[67.5,-0.02],[68.5,-0.60],[69.5,-1.22],[70.5,-0.78],[71.5,-1.94],[72.5,-2.00],[73.5,-1.16],[74.5,0.30],[75.5,-0.34],[76.5,0.68],[77.5,1.94],[78.5,0.48],[79.5,-0.54],[80.5,0.28],[81.5,-0.56],[82.5,-0.56],[83.5,-0.18],[84.5,-0.24],[85.5,-0.86],[86.5,-0.94],[87.5,-2.20],[88.5,-2.14],[89.5,-1.06],[90.5,0.20],[91.5,1.12],[92.5,1.74],[93.5,1.30],[94.5,0.28],[95.5,0.56],[96.5,-0.90],[97.5,-1.72],[98.5,-1.10],[99.5,-1.62],[100.5,-3.16],[101.5,-2.62],[102.5,-0.96],[103.5,-1.58],[104.5,-0.94],[105.5,0.66],[106.5,1.32],[107.5,1.32],[108.5,2.78],[109.5,3.68],[110.5,3.14],[111.5,2.38],[112.5,0.84],[113.5,0.98],[114.5,-0.56],[115.5,-1.18],[116.5,-1.24],[117.5,-1.16],[118.5,-2.76],[119.5,-1.42],[120.5,-0.60],[121.5,0.48],[122.5,1.94],[123.5,1.74],[124.5,1.10],[125.5,-0.16],[126.5,-1.56],[127.5,-3.02],[128.5,-1.62],[129.5,-1.18],[130.5,-0.64],[131.5,0.90],[132.5,0.90],[133.5,-0.50],[134.5,0.04],[135.5,-0.06],[136.5,-1.04],[137.5,0.22],[138.5,0.86],[139.5,-0.74],[140.5,-1.18],[141.5,-0.60],[142.5,-1.94],[143.5,-2.58],[144.5,-2.78],[145.5,-2.34],[146.5,-3.54],[147.5,-1.86],[148.5,-1.74],[149.5,-0.08],[150.5,-0.00],[151.5,-0.08],[152.5,-1.12],[153.5,0.22],[154.5,-0.68],[155.5,-1.20],[156.5,0.08],[157.5,0.78],[158.5,-0.48],[159.5,0.16],[160.5,1.62],[161.5,0.80],[162.5,1.14],[163.5,2.20],[164.5,2.06],[165.5,2.20],[166.5,3.36],[167.5,1.76],[168.5,0.70],[169.5,-0.44],[170.5,-0.44],[171.5,-0.72],[172.5,0.48],[173.5,1.68],[174.5,1.82],[175.5,0.84],[176.5,0.20],[177.5,0.46],[178.5,-0.20],[179.5,0.12],[180.5,-0.50],[181.5,0.34],[182.5,-1.12],[183.5,-1.12],[184.5,-0.42],[185.5,-0.42],[186.5,-1.88],[187.5,-0.28],[188.5,-1.02],[189.5,-2.30],[190.5,-0.70],[191.5,0.38],[192.5,-1.42],[193.5,-0.84],[194.5,-0.08],[195.5,-1.68],[196.5,-1.22],[197.5,-0.64],[198.5,-1.02],[199.5,-1.58],[200.5,-0.96],[201.5,-1.04],[202.5,0.04],[203.5,1.24],[204.5,1.24],[205.5,2.08],[206.5,2.08],[207.5,1.14],[208.5,0.48],[209.5,0.48],[210.5,-0.60],[211.5,-2.06],[212.5,-2.66],[213.5,-3.20],[214.5,-1.66],[215.5,-0.58],[216.5,0.04],[217.5,0.64],[218.5,1.26],[219.5,-0.28],[220.5,-1.74],[221.5,-2.36],[222.5,-3.08],[223.5,-3.08],[224.5,-1.54],[225.5,-1.00],[226.5,0.26],[227.5,1.02],[228.5,1.66],[229.5,0.74],[230.5,1.26],[231.5,0.00],[232.5,0.98],[233.5,1.26],[234.5,1.70],[235.5,0.56],[236.5,1.82],[237.5,1.74],[238.5,0.26],[239.5,-0.88],[240.5,-0.74],[241.5,-2.00],[242.5,-2.00],[243.5,-2.06],[244.5,-0.52],[245.5,1.02],[246.5,2.22],[247.5,0.56],[248.5,1.62],[249.5,0.22],[250.5,-1.38],[251.5,-1.04],[252.5,0.70],[253.5,-0.36],[254.5,-0.42],[255.5,0.20],[256.5,-0.90],[257.5,-2.44],[258.5,-1.18],[259.5,0.08],[260.5,0.52],[261.5,0.00],[262.5,-0.20],[263.5,-1.46],[264.5,-1.26],[265.5,-0.78],[266.5,-0.14],[267.5,1.52],[268.5,2.78],[269.5,1.86],[270.5,1.38],[271.5,1.20],[272.5,-0.26],[273.5,-1.08],[274.5,-0.42],[275.5,-0.86],[276.5,-1.24],[277.5,0.02],[278.5,-0.42],[279.5,-1.62],[280.5,-1.18],[281.5,-0.56],[282.5,-0.76],[283.5,0.32],[284.5,1.40],[285.5,0.88],[286.5,1.80],[287.5,0.74],[288.5,-0.34],[289.5,-0.86],[290.5,0.06],[291.5,-0.40],[292.5,0.80],[293.5,1.34],[294.5,2.04],[295.5,0.58],[296.5,1.10],[297.5,1.36],[298.5,0.74],[299.5,-0.14],[300.5,0.92],[301.5,-0.68],[302.5,-2.22],[303.5,-2.22],[304.5,-2.68],[305.5,-3.36],[306.5,-3.36],[307.5,-2.22],[308.5,-1.58],[309.5,-1.70],[310.5,-1.70],[311.5,-0.16],[312.5,-0.66],[313.5,-0.84],[314.5,-0.26],[315.5,-0.84],[316.5,-1.76],[317.5,-1.24],[318.5,-0.02],[319.5,0.16],[320.5,0.28],[321.5,-0.34],[322.5,-0.36],[323.5,-2.04],[324.5,-2.68],[325.5,-2.04],[326.5,-1.42]];charge_datapoints = [[2.5,0.00],[3.5,0.00],[4.5,-0.20],[5.5,-0.20],[6.5,-0.40],[7.5,-0.20],[8.5,-0.20],[9.5,0.00],[10.5,0.00],[11.5,0.00],[12.5,-0.20],[13.5,-0.20],[14.5,-0.20],[15.5,-0.20],[16.5,0.20],[17.5,0.20],[18.5,0.20],[19.5,0.00],[20.5,0.00],[21.5,0.00],[22.5,0.00],[23.5,0.00],[24.5,0.40],[25.5,0.40],[26.5,0.20],[27.5,0.40],[28.5,0.40],[29.5,0.20],[30.5,0.20],[31.5,0.20],[32.5,0.00],[33.5,-0.20],[34.5,-0.20],[35.5,-0.40],[36.5,-0.40],[37.5,-0.20],[38.5,0.00],[39.5,0.00],[40.5,0.20],[41.5,0.20],[42.5,0.20],[43.5,0.20],[44.5,0.40],[45.5,0.20],[46.5,0.20],[47.5,0.00],[48.5,0.00],[49.5,-0.20],[50.5,0.00],[51.5,0.00],[52.5,0.00],[53.5,0.00],[54.5,0.00],[55.5,-0.20],[56.5,-0.20],[57.5,-0.40],[58.5,-0.40],[59.5,-0.40],[60.5,-0.20],[61.5,0.00],[62.5,0.20],[63.5,0.20],[64.5,0.20],[65.5,0.00],[66.5,-0.20],[67.5,-0.10],[68.5,-0.10],[69.5,-0.10],[70.5,0.10],[71.5,0.10],[72.5,-0.20],[73.5,-0.20],[74.5,-0.20],[75.5,0.00],[76.5,0.00],[77.5,0.20],[78.5,0.00],[79.5,0.00],[80.5,-0.20],[81.5,-0.20],[82.5,-0.20],[83.5,0.00],[84.5,0.00],[85.5,-0.20],[86.5,-0.20],[87.5,-0.20],[88.5,-0.20],[89.5,-0.20],[90.5,0.00],[91.5,0.00],[92.5,0.00],[93.5,-0.20],[94.5,-0.20],[95.5,-0.20],[96.5,-0.40],[97.5,-0.20],[98.5,0.00],[99.5,0.20],[100.5,0.20],[101.5,0.40],[102.5,0.20],[103.5,0.00],[104.5,-0.20],[105.5,-0.20],[106.5,-0.20],[107.5,-0.20],[108.5,0.00],[109.5,0.00],[110.5,0.00],[111.5,0.00],[112.5,0.20],[113.5,0.20],[114.5,0.40],[115.5,0.40],[116.5,0.40],[117.5,0.00],[118.5,0.00],[119.5,-0.20],[120.5,-0.20],[121.5,-0.20],[122.5,0.00],[123.5,0.20],[124.5,0.20],[125.5,0.20],[126.5,0.30],[127.5,0.10],[128.5,-0.10],[129.5,-0.10],[130.5,-0.10],[131.5,-0.20],[132.5,0.00],[133.5,0.20],[134.5,0.20],[135.5,0.20],[136.5,0.20],[137.5,0.20],[138.5,0.00],[139.5,-0.20],[140.5,-0.40],[141.5,-0.40],[142.5,-0.20],[143.5,0.00],[144.5,0.40],[145.5,0.60],[146.5,0.60],[147.5,0.40],[148.5,0.40],[149.5,0.20],[150.5,0.20],[151.5,0.40],[152.5,0.40],[153.5,0.20],[154.5,0.20],[155.5,0.00],[156.5,-0.20],[157.5,-0.20],[158.5,-0.20],[159.5,-0.20],[160.5,0.00],[161.5,0.00],[162.5,0.00],[163.5,0.00],[164.5,0.00],[165.5,0.00],[166.5,0.00],[167.5,-0.20],[168.5,-0.40],[169.5,-0.20],[170.5,-0.20],[171.5,-0.20],[172.5,0.00],[173.5,0.20],[174.5,0.10],[175.5,0.10],[176.5,0.10],[177.5,0.10],[178.5,0.10],[179.5,0.00],[180.5,-0.20],[181.5,-0.20],[182.5,-0.20],[183.5,-0.20],[184.5,-0.20],[185.5,-0.20],[186.5,-0.20],[187.5,-0.20],[188.5,0.00],[189.5,0.20],[190.5,0.40],[191.5,0.40],[192.5,0.60],[193.5,0.40],[194.5,0.20],[195.5,0.00],[196.5,0.00],[197.5,-0.20],[198.5,-0.40],[199.5,-0.40],[200.5,-0.20],[201.5,-0.20],[202.5,-0.20],[203.5,0.00],[204.5,-0.20],[205.5,-0.20],[206.5,-0.20],[207.5,-0.20],[208.5,-0.20],[209.5,-0.20],[210.5,-0.20],[211.5,-0.40],[212.5,-0.20],[213.5,-0.40],[214.5,-0.20],[215.5,-0.20],[216.5,0.00],[217.5,-0.20],[218.5,0.00],[219.5,-0.20],[220.5,-0.20],[221.5,-0.40],[222.5,-0.20],[223.5,-0.20],[224.5,0.00],[225.5,0.00],[226.5,0.20],[227.5,0.00],[228.5,0.00],[229.5,0.00],[230.5,0.00],[231.5,-0.20],[232.5,-0.20],[233.5,-0.20],[234.5,-0.20],[235.5,0.00],[236.5,0.20],[237.5,0.20],[238.5,0.30],[239.5,0.50],[240.5,0.40],[241.5,0.20],[242.5,0.20],[243.5,-0.10],[244.5,-0.30],[245.5,-0.40],[246.5,-0.20],[247.5,0.00],[248.5,0.20],[249.5,0.30],[250.5,0.30],[251.5,0.30],[252.5,0.10],[253.5,-0.10],[254.5,-0.40],[255.5,-0.40],[256.5,-0.40],[257.5,-0.60],[258.5,-0.40],[259.5,-0.20],[260.5,-0.20],[261.5,-0.00],[262.5,0.40],[263.5,0.40],[264.5,0.40],[265.5,0.40],[266.5,0.20],[267.5,-0.00],[268.5,-0.00],[269.5,-0.00],[270.5,-0.00],[271.5,-0.00],[272.5,-0.00],[273.5,-0.00],[274.5,-0.00],[275.5,-0.00],[276.5,-0.20],[277.5,-0.20],[278.5,-0.40],[279.5,-0.40],[280.5,-0.40],[281.5,-0.20],[282.5,-0.20],[283.5,-0.00],[284.5,-0.00],[285.5,-0.00],[286.5,-0.00],[287.5,-0.20],[288.5,-0.40],[289.5,-0.40],[290.5,-0.40],[291.5,-0.40],[292.5,-0.20],[293.5,-0.00],[294.5,-0.00],[295.5,-0.00],[296.5,-0.00],[297.5,-0.00],[298.5,0.20],[299.5,0.20],[300.5,0.20],[301.5,-0.00],[302.5,0.20],[303.5,0.20],[304.5,0.40],[305.5,0.40],[306.5,0.60],[307.5,0.40],[308.5,0.20],[309.5,0.20],[310.5,0.20],[311.5,0.20],[312.5,0.20],[313.5,0.20],[314.5,-0.00],[315.5,0.20],[316.5,0.20],[317.5,0.20],[318.5,0.20],[319.5,0.20],[320.5,0.20],[321.5,0.20],[322.5,0.20],[323.5,0.40],[324.5,0.60],[325.5,0.40],[326.5,0.40]];dis_datapoints 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| + | |
- | | + | |
| ===Production and purification of recombinant PP1 protein=== | | ===Production and purification of recombinant PP1 protein=== |
- | [[File:TUM13_P913.png|thumb|left|320px| '''Figure A:''' Streptavidin affinity chromatography of protein phosphatase 1]] | + | [[File:TUM13_P913.png|thumb|left|320px| '''Figure 29:''' Streptavidin affinity chromatography of protein phosphatase 1]] |
- | [[File:TUM13_PP1_analy_preparation.png|thumb|right|320px| '''Figure B:''' Size exclusion chromatography of protein phosphatase 1 on Superdex 200 10/30 column]] | + | [[File:TUM13_PP1_analy_preparation.png|thumb|right|320px| '''Figure 30:''' Size exclusion chromatography of protein phosphatase 1 on Superdex 200 10/30 column]] |
- | [[File:TUM13_SDS_PP1.png|thumb|right|320px| '''Figure C:''' SDS-gel of recombinant PP1 with the marker (M) followed by the the cell lysate, concentrated protein throughput of the streptavidin affinity column, 1 fraction of the eluate unconcentrated and concentrated]] | + | [[File:TUM13_SDS_PP1.png|thumb|right|320px| '''Figure 31:''' SDS-gel of recombinant PP1 with the marker (M) followed by the the cell lysate, concentrated protein throughput of the streptavidin affinity column, 1 fraction of the eluate unconcentrated and concentrated]] |
- | We converted this BioBrick to RFC[25] and subsequently cloned it into the expression vector pBad_C-terminal_''Strep''. Beside the recombinant characterisation we also created a [https://2013.igem.org/Team:TU-Munich/Results/GM-Moss transgenic moss transformed with a receptor containing PP1] in its extracellular domain. The recombinant protein production was carried out in ''E. coli'' BL-21 which was grown in 2 L of LB-media. The protein production was induced at OD = 0.8 by addition of arabinose to a concentration of 5 mM. The cells were harvested after 4 h and subsequently resuspended in 20 mL SA-buffer with 5 mM 2-mercapto ethanol. Cell disruption was performed using ultrasonic sound. The dialysed cell extracte was applied to a streptavidin affinity column which was washed until a base line was reached and was subsequently eluted using SA-buffer containing 5 mM of biotin and 5 mM of 2-mercapto ethanol. The elution peak recorded by the continuous measurement of the absorbance at 280 nm indicated a good yield of recombinant protein (Fig. A). As a second purification step after the streptavidin affinity chromatography we concentrated the protein in centrifugal filter units in order to apply it to a size exclusion chromatography. During the concentration process there were clear signal for precipitated protein which appeared as white flakes in the concentration filter unit. This effect was by far the most drastic precipitation of recombinant that was detected during this iGEM project. Anyhow the concentrated protein was centrifuged for 5 min at 13 200 RPM to remove particles of precipitated protein and was then applied to an ÄKTA purified with a Superdex 200 10/30 column (Fig. B). There were four different peaks present in the chromatogramm which most probably correspond to (1) a peak created by aggregated protein which runs in the voit volume of the size exclusion colum, (2) a diffuse peak which might correspond to multimeric PP1, (3) a sharp peak at the elution volume where the recombinant PP1 was expected and (4) a peak which is most probably caused by low molecular buffer substances. The general signal intensity obtained in the size exclusion was very low indicating low protein concentrations. The maximal peak obtained for PP1 had an absorbance of 50 milli Absorption Units whereas this was for example for the NanoLuc in the range of 1000 for a comparable experiment. The fact that this protein does not tolerate the concentration procedure gibes an indication that it is fragile and tends to aggregation when stress is applied. Finally recombinant PP1 protein was prepared although the yield was very low compared with other effector proteins. | + | We converted this BioBrick to RFC[25] and subsequently cloned it into the expression vector pBad_C-terminal_''Strep''. Beside the recombinant characterisation we also created a [https://2013.igem.org/Team:TU-Munich/Results/GM-Moss transgenic moss transformed with a receptor containing PP1] in its extracellular domain. The recombinant protein production was carried out in ''E. coli'' BL-21 which was grown in 2 L of LB-media. The protein production was induced at OD 0.8 by addition of arabinose to a concentration of 5 mM. The cells were harvested after 4 h and subsequently resuspended in 20 mL SA-buffer with 5 mM 2-mercapto ethanol. Cell disruption was performed using ultrasonic sound. The dialysed cell extracte was applied to a streptavidin affinity column which was washed until a base line was reached and was subsequently eluted using SA-buffer containing 5 mM of biotin and 5 mM of 2-mercapto ethanol. The elution peak recorded by the continuous measurement of the absorbance at 280 nm indicated a good yield of recombinant protein (Fig. 29). As a second purification step after the streptavidin affinity chromatography we concentrated the protein in centrifugal filter units in order to apply it to a size exclusion chromatography. During the concentration process there were clear signal for precipitated protein which appeared as white flakes in the concentration filter unit. This effect was by far the most drastic precipitation of recombinant that was detected during this iGEM project. Anyhow the concentrated protein was centrifuged for 5 min at 13 200 RPM to remove particles of precipitated protein and was then applied to an ÄKTA purified with a Superdex 200 10/30 column (Fig. 30). There were four different peaks present in the chromatogramm which most probably correspond to (1) a peak created by aggregated protein which runs in the voit volume of the size exclusion colum, (2) a diffuse peak which might correspond to multimeric PP1, (3) a sharp peak at the elution volume where the recombinant PP1 was expected and (4) a peak which is most probably caused by low molecular buffer substances. The general signal intensity obtained in the size exclusion was very low indicating low protein concentrations. The maximal peak obtained for PP1 had an absorbance of 50 milli Absorption Units whereas this was for example for the NanoLuc in the range of 1000 for a comparable experiment. The fact that this protein does not tolerate the concentration procedure gives an indication that it is fragile and tends to aggregation when stress is applied. Finally recombinant PP1 protein was prepared although the yield was very low compared with other effector proteins. |
| | | |
| ===Possible reasons for the instability of PP1 ''in vitro''=== | | ===Possible reasons for the instability of PP1 ''in vitro''=== |
- | The high aggregation and denaturation tendency of the protein phosphatase 1 which was observed in the analytical preparation motivated this search for a possible explanation. As a first hint the amino acid composition calculated by the AutoAnnotator was examined and it can be seen that 13 cysteine residues are present in the sequence of the protein phosphatase. This corresponds to 4% of the total number of amino acid residues comapred to 2.8% cystein residues in average protein. This information taken together with the molecular function of the protein phosphatase 1 clearly shows that this BioBrick is a cytoplasmatic protein which fulfills its function in the reducing milieu of the cytoplasm and tends to aggregation when exposed to an oxidizing milieu such a the periplasm of ''E. coli'' for example. <br> | + | The high aggregation and denaturation tendency of the protein phosphatase 1 which was observed in the analytical preparation motivated the search for a possible explanation. As a first hint the amino acid composition calculated by the [https://2013.igem.org/Team:TU-Munich/Results/Software AutoAnnotator] was examined and it can be seen that 13 cysteine residues are present in the sequence of the protein phosphatase. This corresponds to 4% of the total number of amino acid residues comapred to 2.8% cystein residues in an average protein. This information taken together with the molecular function of the protein phosphatase 1 clearly shows that this BioBrick is a cytoplasmatic protein which fulfills its function in the reducing milieu of the cytoplasm and tends to aggregation when exposed to an oxidizing milieu such a the periplasm of ''E. coli''. <br> |
- | Secondly the amino acid sequence produced by the AutoAnnotator was fed into the bioinformatic tool [http://web.expasy.org/cgi-bin/protparam/protparam ProtParam which has a stability prediction for proteins. The result was: "The instability index (II) is computed to be 42.99 - This classifies the protein as unstable." <br> | + | Secondly the amino acid sequence produced by the AutoAnnotator was fed into the bioinformatic tool [http://web.expasy.org/cgi-bin/protparam/protparam ProtParam] which gives a stability prediction for proteins. The result was: "The instability index (II) is computed to be 42.99 - This classifies the protein as unstable." <br> |
| Taken both these indications into account it still seems a good idea to express the protein phosphatase 1 cytoplasmatically to bind microcystine but it is not advisable to think about a secreted version of PP1 as the protein seems to unstable for this application. | | Taken both these indications into account it still seems a good idea to express the protein phosphatase 1 cytoplasmatically to bind microcystine but it is not advisable to think about a secreted version of PP1 as the protein seems to unstable for this application. |
| | | |
| ==DDT-Dehydrochlorinase== | | ==DDT-Dehydrochlorinase== |
- | [[File:TUM13 Animation_DDT.gif|thumb|right|320px| '''Figure 28:''' Animation of protein structure of DDT]] | + | [[File:TUM13 Animation_DDT.gif|thumb|right|320px| '''Figure 32:''' Animation of protein structure of DDT]] |
- | The DDT dehydrochlorinase (<partinfo>BBa_K620000</partinfo>) BioBrick is designed in RFC[10] by [https://2011.igem.org/Team:Caltech Caltech 2011] iGEM team and as a localisation of this effector outside the cytoplasm is not advisable we did not improve this BioBrick to RFC[25]. The DDT dehydrochlorinase is dependent on the continuous supply of glutathione which is conjugates to xenobiotics in order to inactivate them. The disadvantage of an RFC[10] BioBrick is that it can not be fused to an affinity tag which can subsequently be used to purify the protein after its recombinant production. <br> | + | The DDT dehydrochlorinase (<partinfo>BBa_K620000</partinfo>) BioBrick was designed in RFC[10] by the [https://2011.igem.org/Team:Caltech Caltech 2011] iGEM team and as a localization of this effector outside the cytoplasm isn't advisable we didn't improve this BioBrick to RFC[25]. The DDT dehydrochlorinase is dependent on the continuous supply of glutathione which conjugates to xenobiotics in order to inactivate them. The disadvantage of an RFC[10] BioBrick is that it can not be fused to an affinity tag which can subsequently be used to purify the protein after its recombinant production. <br> |
- | Beside the experiments already performed in iGEM we found monochlorobimane to be an interesting assay for experiments in bioremeditation. This commercially availible substrate can be conjugated to glutathione. The conjugation of monochlorobimane can be followed by the fluorescense of the conjugation product (excitation: 380 nm / emission: 461 nm). We tryed this assay assay with transgenic plants but could not see results as the autofluorescense of the photosystem in ''Physcomitrell'' was too strong in order to see the emergence of the fluorescense caused by the conjugation product. | + | Beside the experiments already performed in iGEM we found monochlorobimane to be an interesting assay for experiments in bioremeditation. This commercially availible substrate can be conjugated to glutathione. The conjugation of monochlorobimane can be followed by the fluorescense of the conjugation product (excitation: 380 nm / emission: 461 nm). We tryed this assay with transgenic plants but could not see results as the autofluorescense of the photosystem in ''Physcomitrella'' was too strong in order to see the emergence of the fluorescense caused by the conjugation product. |
- | | + | |
- | ===Protein Data Table for the DDT-Dehydrochlorinase <partinfo>BBa_K620000</partinfo>===
| + | |
- | <html><!--- Please copy this table containing parameters for BBa_ at the end of the parametrs section ahead of the references. ---><style type="text/css">table#AutoAnnotator {border:1px solid black; width:100%; border-collapse:collapse;} th#AutoAnnotatorHeader { border:1px solid black; width:100%; background-color: rgb(221, 221, 221);} td.AutoAnnotator1col { width:100%; border:1px solid black; } span.AutoAnnotatorSequence { font-family:'Courier New', Arial; } td.AutoAnnotatorSeqNum { text-align:right; width:2%; } td.AutoAnnotatorSeqSeq { width:98% } td.AutoAnnotatorSeqFeat1 { width:3% } td.AutoAnnotatorSeqFeat2a { width:27% } td.AutoAnnotatorSeqFeat2b { width:97% } td.AutoAnnotatorSeqFeat3 { width:70% } table.AutoAnnotatorNoBorder { border:0px; width:100%; border-collapse:collapse; } table.AutoAnnotatorWithBorder { border:1px solid black; width:100%; border-collapse:collapse; } td.AutoAnnotatorOuterAmino { border:0px solid black; width:20% } td.AutoAnnotatorInnerAmino { border:1px solid black; width:50% } td.AutoAnnotatorAminoCountingOuter { border:1px solid black; width:40%; } td.AutoAnnotatorBiochemParOuter { border:1px solid black; width:60%; } td.AutoAnnotatorAminoCountingInner1 { width: 7.5% } td.AutoAnnotatorAminoCountingInner2 { width:62.5% } td.AutoAnnotatorAminoCountingInner3 { width:30% } td.AutoAnnotatorBiochemParInner1 { width: 5% } td.AutoAnnotatorBiochemParInner2 { width:55% } td.AutoAnnotatorBiochemParInner3 { width:40% } td.AutoAnnotatorCodonUsage1 { width: 3% } td.AutoAnnotatorCodonUsage2 { width:14.2% } td.AutoAnnotatorCodonUsage3 { width:13.8% } td.AutoAnnotatorAlignment1 { width: 3% } td.AutoAnnotatorAlignment2 { width: 10% } td.AutoAnnotatorAlignment3 { width: 87% } td.AutoAnnotatorLocalizationOuter {border:1px solid black; width:40%} td.AutoAnnotatorGOOuter {border:1px solid black; width:60%} td.AutoAnnotatorLocalization1 { width: 7.5% } td.AutoAnnotatorLocalization2 { width: 22.5% } td.AutoAnnotatorLocalization3 { width: 70% } td.AutoAnnotatorGO1 { width: 5% } td.AutoAnnotatorGO2 { width: 35% } td.AutoAnnotatorGO3 { width: 60% } td.AutoAnnotatorPredFeat1 { width:3% } td.AutoAnnotatorPredFeat2a { width:27% } td.AutoAnnotatorPredFeat3 { width:70% } div.AutoAnnotator_trans { position:absolute; background:rgb(11,140,143); background-color:rgba(11,140,143, 0.8); height:5px; top:100px; } div.AutoAnnotator_sec_helix { position:absolute; background:rgb(102,0,102); background-color:rgba(102,0,102, 0.8); height:5px; top:110px; } div.AutoAnnotator_sec_strand { position:absolute; background:rgb(245,170,26); background-color:rgba(245,170,26, 1); height:5px; top:110px; } div.AutoAnnotator_acc_buried { position:absolute; background:rgb(89,168,15); background-color:rgba(89,168,15, 0.8); height:5px; top:120px; } div.AutoAnnotator_acc_exposed { position:absolute; background:rgb(0, 0, 255); background-color:rgba(0, 0, 255, 0.8); height:5px; top:120px; } div.AutoAnnotator_dis { position:absolute; text-align:center; font-family:Arial,Helvetica,sans-serif; background:rgb(255, 200, 0); background-color:rgba(255, 200, 0, 1); height:16px; width:16px; top:80px; border-radius:50%; } </style><div id='AutoAnnotator_container_1380925958218'><table id="AutoAnnotator"><tr><!-- Time stamp in ms since 1/1/1970 1380925958218 --><th id="AutoAnnotatorHeader" colspan="2">Protein data table for BioBrick <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K620000">BBa_K620000</a> automatically created by the <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">BioBrick-AutoAnnotator</a> version 1.0</th></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Nucleotide sequence</strong> in <strong>RFC 10</strong>: (underlined part encodes the protein)<br><span class="AutoAnnotatorSequence"> <u>ATGGACTTT ... TTCCTGAGC</u>TAGTAG</span><br> <strong>ORF</strong> from nucleotide position 1 to 627 (excluding stop-codon)</td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid sequence:</strong> (RFC 25 scars in shown in bold, other sequence features underlined; both given below)<br><span class="AutoAnnotatorSequence"><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqNum">1 <br>101 <br>201 </td><td class="AutoAnnotatorSeqSeq">MDFYYLPGSAPCRAVQMTAAAVGVELNLKLTDLMKGEHMKPEFLKLNPQHCIPTLVDNGFALWESRAIQIYLAEKYGKDDKLYPKDPQKRAVVNQRLYFD<br>MGTLYQRFADYHYPQIFAKQPANPENEKKMKDAVGFLNTFLEGQEYAAGNDLTIADLSLAATIATYEVAGFDFAPYPNVAAWFARCKANAPGYALNQAGA<br>DEFKAKFLS*</td></tr></table></span></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Sequence features:</strong> (with their position in the amino acid sequence, see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software/FeatureList">list of supported features</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2b">None of the supported features appeared in the sequence</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid composition:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Ala (A)</td><td class="AutoAnnotatorInnerAmino">30 (14.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Arg (R)</td><td class="AutoAnnotatorInnerAmino">6 (2.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asn (N)</td><td class="AutoAnnotatorInnerAmino">11 (5.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asp (D)</td><td class="AutoAnnotatorInnerAmino">13 (6.2%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Cys (C)</td><td class="AutoAnnotatorInnerAmino">3 (1.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gln (Q)</td><td class="AutoAnnotatorInnerAmino">10 (4.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Glu (E)</td><td class="AutoAnnotatorInnerAmino">11 (5.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gly (G)</td><td class="AutoAnnotatorInnerAmino">12 (5.7%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">His (H)</td><td class="AutoAnnotatorInnerAmino">3 (1.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ile (I)</td><td class="AutoAnnotatorInnerAmino">6 (2.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Leu (L)</td><td class="AutoAnnotatorInnerAmino">20 (9.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Lys (K)</td><td class="AutoAnnotatorInnerAmino">16 (7.7%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Met (M)</td><td class="AutoAnnotatorInnerAmino">6 (2.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Phe (F)</td><td class="AutoAnnotatorInnerAmino">13 (6.2%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Pro (P)</td><td class="AutoAnnotatorInnerAmino">13 (6.2%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ser (S)</td><td class="AutoAnnotatorInnerAmino">4 (1.9%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Thr (T)</td><td class="AutoAnnotatorInnerAmino">8 (3.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Trp (W)</td><td class="AutoAnnotatorInnerAmino">2 (1.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Tyr (Y)</td><td class="AutoAnnotatorInnerAmino">13 (6.2%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Val (V)</td><td class="AutoAnnotatorInnerAmino">9 (4.3%)</td></tr></table></td></tr></table></td></tr><tr><td class="AutoAnnotatorAminoCountingOuter"><strong>Amino acid counting</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Total number:</td><td class="AutoAnnotatorAminoCountingInner3">209</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Positively charged (Arg+Lys):</td><td class="AutoAnnotatorAminoCountingInner3">22 (10.5%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Negatively charged (Asp+Glu):</td><td class="AutoAnnotatorAminoCountingInner3">24 (11.5%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Aromatic (Phe+His+Try+Tyr):</td><td class="AutoAnnotatorAminoCountingInner3">31 (14.8%)</td></tr></table></td><td class="AutoAnnotatorBiochemParOuter"><strong>Biochemical parameters</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Atomic composition:</td><td class="AutoAnnotatorBiochemParInner3">C<sub>1070</sub>H<sub>1618</sub>N<sub>272</sub>O<sub>304</sub>S<sub>9</sub></td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Molecular mass [Da]:</td><td class="AutoAnnotatorBiochemParInner3">23444.8</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Theoretical pI:</td><td class="AutoAnnotatorBiochemParInner3">5.94</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Extinction coefficient at 280 nm [M<sup>-1</sup> cm<sup>-1</sup>]:</td><td class="AutoAnnotatorBiochemParInner3">30370 / 30558 (all Cys red/ox)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Plot for hydrophobicity, charge, predicted secondary structure, solvent accessability, transmembrane helices and disulfid bridges</strong> <input type='button' id='hydrophobicity_charge_button' onclick='show_or_hide_plot_1380925958218()' value='Show'><span id="hydrophobicity_charge_explanation"></span><div id="hydrophobicity_charge_container" style='display:none'><div id="hydrophobicity_charge_placeholder0" style="width:100%;height:150px"></div><div id="hydrophobicity_charge_placeholder1" style="width:100%;height:150px"></div></div></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Codon usage</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Organism:</td><td class="AutoAnnotatorCodonUsage3"><i>E. coli</i></td><td class="AutoAnnotatorCodonUsage3"><i>B. subtilis</i></td><td class="AutoAnnotatorCodonUsage3"><i>S. cerevisiae</i></td><td class="AutoAnnotatorCodonUsage3"><i>A. thaliana</i></td><td class="AutoAnnotatorCodonUsage3"><i>P. patens</i></td><td class="AutoAnnotatorCodonUsage3">Mammals</td></tr><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Codon quality (<a href="http://en.wikipedia.org/wiki/Codon_Adaptation_Index">CAI</a>):</td><td class="AutoAnnotatorCodonUsage3">excellent (0.87)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.85)</td><td class="AutoAnnotatorCodonUsage3">good (0.62)</td><td class="AutoAnnotatorCodonUsage3">good (0.71)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.80)</td><td class="AutoAnnotatorCodonUsage3">good (0.69)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Alignments</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">SwissProt:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/Q93113'>Q93113</a> (100% identity on 209 AAs), <a href='http://www.uniprot.org/uniprot/Q93112'>Q93112</a> (83% identity on 207 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">TrEML:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/Q7KIF3'>Q7KIF3</a> (93% identity on 209 AAs), <a href='http://www.uniprot.org/uniprot/Q9GN87'>Q9GN87</a> (93% identity on 209 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">PDB:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1pn9'>1pn9</a> (100% identity on 209 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1jlv'>1jlv</a> (81% identity on 207 AAs)</td></tr></table></td></tr><tr><th id='AutoAnnotatorHeader' colspan="2"><strong>Predictions</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)</th></tr><tr><td class="AutoAnnotatorLocalizationOuter"><strong>Subcellular Localization</strong> (reliability in brackets)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Archaea:</td><td class="AutoAnnotatorLocalization3">cytosol (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Bacteria:</td><td class="AutoAnnotatorLocalization3">cytosol (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Eukarya:</td><td class="AutoAnnotatorLocalization3">cytosol (95%)</td></tr></table></td><td class="AutoAnnotatorGOOuter"><strong>Gene Ontology</strong> (reliability in brackets)<br><table class="AutoAnnotatorNoBorder"><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Molecular Function Ontology:</td><td class='AutoAnnotatorGO3'><a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0004364'>GO:0004364</a> (42%), <a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0005515'>GO:0005515</a> (38%)</td></tr><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Biological Process Ontology:</td><td class='AutoAnnotatorGO3'><a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0008104'>GO:0008104</a> (8%), <a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0042742'>GO:0042742</a> (8%)</td></tr><tr><td class='AutoAnnotatorGO1'> </td><td class='AutoAnnotatorGO2'> </td><td class='AutoAnnotatorGO3'> </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Predicted features:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Disulfid bridges:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Transmembrane helices:</td><td class="AutoAnnotatorPredFeat3">151 to 168 going inwards</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"> The BioBrick-AutoAnnotator was created by <a href="https://2013.igem.org/Team:TU-Munich">TU-Munich 2013</a> iGEM team. For more information please see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software">documentation</a>.<br>If you have any questions, comments or suggestions, please leave us a <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">comment</a>.</td></tr></table></div><br><!-- IMPORTANT: DON'T REMOVE THIS LINE, OTHERWISE NOT SUPPORTED FOR IE BEFORE 9 --><!--[if lte IE 8]><script language="javascript" type="text/javascript" src="excanvas.min.js"></script><![endif]--><script type='text/javascript' src='http://code.jquery.com/jquery-1.10.0.min.js'></script><script type='text/javascript' src='https://2013.igem.org/Team:TU-Munich/Flot.js?action=raw&ctype=text/js'></script><script>function show_or_hide_plot_1380925958218(){hydrophobicity_datapoints = [[2.5,-0.28],[3.5,0.10],[4.5,0.48],[5.5,-0.16],[6.5,-0.06],[7.5,0.56],[8.5,-0.52],[9.5,0.30],[10.5,-0.52],[11.5,0.00],[12.5,0.48],[13.5,0.10],[14.5,-0.02],[15.5,0.74],[16.5,0.74],[17.5,0.26],[18.5,1.32],[19.5,1.78],[20.5,1.84],[21.5,2.32],[22.5,1.26],[23.5,1.66],[24.5,0.12],[25.5,0.96],[26.5,-0.66],[27.5,0.80],[28.5,-0.10],[29.5,-0.10],[30.5,-0.10],[31.5,1.06],[32.5,-0.48],[33.5,-0.42],[34.5,-0.42],[35.5,-1.82],[36.5,-1.82],[37.5,-1.82],[38.5,-2.06],[39.5,-2.06],[40.5,-0.86],[41.5,-0.48],[42.5,-0.48],[43.5,0.60],[44.5,0.60],[45.5,-0.28],[46.5,-1.74],[47.5,-1.60],[48.5,-1.86],[49.5,-0.26],[50.5,-0.26],[51.5,0.30],[52.5,1.70],[53.5,2.04],[54.5,0.44],[55.5,0.06],[56.5,0.12],[57.5,-0.08],[58.5,-0.56],[59.5,0.90],[60.5,1.42],[61.5,0.80],[62.5,0.08],[63.5,-1.18],[64.5,-1.58],[65.5,-0.50],[66.5,-0.50],[67.5,0.56],[68.5,1.20],[69.5,1.60],[70.5,1.06],[71.5,1.06],[72.5,-0.62],[73.5,-0.62],[74.5,-1.46],[75.5,-2.60],[76.5,-2.60],[77.5,-2.52],[78.5,-3.04],[79.5,-2.20],[80.5,-1.68],[81.5,-1.30],[82.5,-1.38],[83.5,-1.30],[84.5,-2.38],[85.5,-2.82],[86.5,-3.28],[87.5,-3.40],[88.5,-2.34],[89.5,-1.18],[90.5,0.36],[91.5,0.44],[92.5,0.64],[93.5,-0.62],[94.5,-0.70],[95.5,-1.80],[96.5,-0.54],[97.5,-0.54],[98.5,0.74],[99.5,-0.10],[100.5,0.02],[101.5,0.22],[102.5,0.66],[103.5,-0.42],[104.5,-1.24],[105.5,-0.54],[106.5,-0.94],[107.5,-1.38],[108.5,-0.94],[109.5,-0.68],[110.5,-1.50],[111.5,-2.18],[112.5,-2.18],[113.5,-1.02],[114.5,0.18],[115.5,0.80],[116.5,0.34],[117.5,0.34],[118.5,-0.88],[119.5,-1.08],[120.5,-2.14],[121.5,-1.68],[122.5,-1.68],[123.5,-2.06],[124.5,-3.12],[125.5,-3.20],[126.5,-3.66],[127.5,-2.58],[128.5,-2.66],[129.5,-2.66],[130.5,-1.52],[131.5,0.10],[132.5,-0.36],[133.5,0.98],[134.5,2.44],[135.5,1.38],[136.5,0.40],[137.5,1.04],[138.5,1.24],[139.5,-0.22],[140.5,0.40],[141.5,-0.16],[142.5,-1.42],[143.5,-2.44],[144.5,-1.38],[145.5,-0.94],[146.5,-0.32],[147.5,-0.32],[148.5,-0.76],[149.5,-0.36],[150.5,-0.86],[151.5,0.12],[152.5,1.18],[153.5,1.18],[154.5,1.18],[155.5,1.16],[156.5,1.02],[157.5,1.02],[158.5,2.08],[159.5,1.18],[160.5,2.24],[161.5,1.84],[162.5,1.34],[163.5,0.72],[164.5,0.16],[165.5,0.10],[166.5,0.10],[167.5,0.16],[168.5,0.98],[169.5,0.98],[170.5,0.70],[171.5,0.70],[172.5,0.46],[173.5,-0.36],[174.5,0.02],[175.5,-1.24],[176.5,-0.76],[177.5,-0.08],[178.5,0.54],[179.5,0.68],[180.5,1.94],[181.5,1.46],[182.5,0.20],[183.5,0.34],[184.5,-0.26],[185.5,-0.46],[186.5,-1.52],[187.5,-0.26],[188.5,-1.08],[189.5,-0.38],[190.5,-1.00],[191.5,0.06],[192.5,0.46],[193.5,0.08],[194.5,-0.54],[195.5,0.08],[196.5,-0.36],[197.5,-0.76],[198.5,-0.76],[199.5,-0.76],[200.5,-0.56],[201.5,-1.26],[202.5,-1.26],[203.5,-1.34],[204.5,-0.08],[205.5,0.12],[206.5,0.74]];charge_datapoints = [[2.5,-0.20],[3.5,-0.20],[4.5,0.00],[5.5,0.00],[6.5,0.00],[7.5,0.00],[8.5,0.00],[9.5,0.00],[10.5,0.20],[11.5,0.20],[12.5,0.20],[13.5,0.20],[14.5,0.20],[15.5,0.00],[16.5,0.00],[17.5,0.00],[18.5,0.00],[19.5,0.00],[20.5,0.00],[21.5,0.00],[22.5,-0.20],[23.5,-0.20],[24.5,-0.20],[25.5,-0.20],[26.5,0.00],[27.5,0.20],[28.5,0.20],[29.5,0.00],[30.5,0.00],[31.5,-0.20],[32.5,0.00],[33.5,0.00],[34.5,0.00],[35.5,0.10],[36.5,0.10],[37.5,0.10],[38.5,0.10],[39.5,0.10],[40.5,0.00],[41.5,0.00],[42.5,0.00],[43.5,0.00],[44.5,0.20],[45.5,0.20],[46.5,0.20],[47.5,0.10],[48.5,0.10],[49.5,0.10],[50.5,0.10],[51.5,0.10],[52.5,0.00],[53.5,0.00],[54.5,-0.20],[55.5,-0.20],[56.5,-0.20],[57.5,-0.20],[58.5,-0.20],[59.5,0.00],[60.5,0.00],[61.5,-0.20],[62.5,-0.20],[63.5,0.00],[64.5,0.00],[65.5,0.00],[66.5,0.20],[67.5,0.20],[68.5,0.00],[69.5,0.00],[70.5,0.00],[71.5,-0.20],[72.5,0.00],[73.5,0.00],[74.5,0.00],[75.5,0.20],[76.5,0.20],[77.5,-0.20],[78.5,0.00],[79.5,0.00],[80.5,-0.20],[81.5,0.00],[82.5,0.40],[83.5,0.00],[84.5,0.00],[85.5,0.00],[86.5,0.20],[87.5,0.20],[88.5,0.40],[89.5,0.40],[90.5,0.40],[91.5,0.20],[92.5,0.00],[93.5,0.20],[94.5,0.20],[95.5,0.20],[96.5,0.20],[97.5,0.00],[98.5,-0.20],[99.5,-0.20],[100.5,-0.20],[101.5,-0.20],[102.5,0.00],[103.5,0.00],[104.5,0.20],[105.5,0.20],[106.5,0.20],[107.5,0.00],[108.5,0.00],[109.5,-0.10],[110.5,-0.10],[111.5,-0.10],[112.5,0.10],[113.5,0.10],[114.5,0.00],[115.5,0.00],[116.5,0.20],[117.5,0.20],[118.5,0.20],[119.5,0.20],[120.5,0.20],[121.5,0.00],[122.5,-0.20],[123.5,-0.20],[124.5,-0.40],[125.5,-0.20],[126.5,0.00],[127.5,0.20],[128.5,0.40],[129.5,0.40],[130.5,0.20],[131.5,0.00],[132.5,0.00],[133.5,-0.20],[134.5,0.00],[135.5,0.00],[136.5,0.00],[137.5,0.00],[138.5,0.00],[139.5,-0.20],[140.5,-0.20],[141.5,-0.20],[142.5,-0.40],[143.5,-0.40],[144.5,-0.20],[145.5,-0.20],[146.5,-0.20],[147.5,0.00],[148.5,-0.20],[149.5,-0.20],[150.5,-0.20],[151.5,-0.20],[152.5,-0.20],[153.5,-0.20],[154.5,-0.20],[155.5,-0.20],[156.5,-0.20],[157.5,-0.20],[158.5,0.00],[159.5,0.00],[160.5,0.00],[161.5,0.00],[162.5,0.00],[163.5,0.00],[164.5,-0.20],[165.5,-0.20],[166.5,-0.20],[167.5,-0.20],[168.5,-0.20],[169.5,-0.20],[170.5,-0.20],[171.5,-0.20],[172.5,-0.20],[173.5,-0.20],[174.5,0.00],[175.5,0.00],[176.5,0.00],[177.5,0.00],[178.5,0.00],[179.5,0.00],[180.5,0.00],[181.5,0.00],[182.5,0.20],[183.5,0.20],[184.5,0.40],[185.5,0.40],[186.5,0.40],[187.5,0.20],[188.5,0.20],[189.5,0.00],[190.5,0.00],[191.5,0.00],[192.5,0.00],[193.5,0.00],[194.5,0.00],[195.5,0.00],[196.5,0.00],[197.5,0.00],[198.5,-0.20],[199.5,-0.40],[200.5,-0.40],[201.5,-0.20],[202.5,-0.20],[203.5,0.20],[204.5,0.40],[205.5,0.40],[206.5,0.20]];dis_datapoints = [];trans_datapoints = [[151,168,'inwards']];sec_helix_datapoints = [[12,21],[41,45],[62,76],[87,103],[106,116],[122,141],[153,168],[177,187],[191,200],[201,207]];sec_strand_datapoints = [[2,5],[26,32],[54,56]];acc_exposed_datapoints = [[1,2],[7,8],[10,11],[20,21],[23,23],[25,25],[27,27],[32,32],[35,38],[40,42],[45,45],[48,49],[58,59],[74,75],[77,81],[84,89],[103,103],[106,106],[118,121],[124,125],[128,129],[131,132],[139,139],[142,143],[145,145],[167,168],[170,170],[172,172],[174,175],[177,177],[181,181],[184,184],[187,191],[193,194],[196,199],[201,202],[205,206],[208,209]];acc_buried_datapoints = [[3,3],[12,12],[15,19],[24,24],[26,26],[31,31],[33,33],[43,43],[52,56],[62,65],[67,73],[82,82],[91,91],[93,94],[96,99],[101,101],[104,105],[108,109],[112,113],[126,126],[130,130],[133,134],[136,137],[141,141],[146,149],[152,164],[166,166],[179,179],[182,183],[186,186],[195,195],[200,200],[203,203],[207,207]];flot_plot_options = []; flot_plot_options[0] = {grid: {borderWidth: {top: 0,right: 0,bottom: 0,left: 0}},legend: {show: false},xaxes: [{show: true,min: 0,max: 200,ticks: [[0.5, '1'], [24.5, '25'], [49.5, '50'], [74.5, '75'], [99.5, '100'], [124.5, '125'], [149.5, '150'], [174.5, '175'], [199.5, '200']],tickLength: -5}],yaxes: [{show: true,ticks: [[0, '0'], [4.5,'hydro-<br>phobic '], [-4.5,'hydro-<br>philic ']],min: -4.5,max: +4.5,font: {size: 12,lineHeight: 14,style: 'italic',weight: 'bold',family: 'sans-serif',variant: 'small-caps',color: 'rgba(100,149,237,1)'}},{show: true,ticks: [[0, ''], [1,'positive<br> charge'], [-1,'negative<br> charge']],position: 'right',min: -1,max: 1,font: {size: 12,lineHeight: 14,style: 'italic',weight: 'bold',family: 'sans-serif',variant: 'small-caps',color: 'rgba(255,99,71,1)'}}]};number_of_plots = 2;for ( plot_num = 1 ; plot_num < number_of_plots ; plot_num ++){flot_plot_options[plot_num] = $.extend(true, {} ,flot_plot_options[0]);flot_plot_options[plot_num].xaxes = [{min: plot_num*200,max: (plot_num + 1)*200,ticks: [ [plot_num*200 + 0.5, (plot_num*200 + 1).toString()], [plot_num*200 + 24.5, (plot_num*200 + 25).toString()], [plot_num*200 + 49.5, (plot_num*200 + 50).toString()], [plot_num*200 + 74.5, (plot_num*200 + 75).toString()], [plot_num*200 + 99.5, (plot_num*200 + 100).toString()], [plot_num*200 + 124.5, (plot_num*200 + 125).toString()], [plot_num*200 + 149.5, (plot_num*200 + 150).toString()], [plot_num*200 + 174.5, (plot_num*200 + 175).toString()], [plot_num*200 + 199.5, (plot_num*200 + 200).toString()] ],tickLength: -5}];};try {if( $('#AutoAnnotator_container_1380925958218 #hydrophobicity_charge_button').val() =='Show' ){$('#AutoAnnotator_container_1380925958218 #hydrophobicity_charge_container').css('display','block');$('#AutoAnnotator_container_1380925958218 #hydrophobicity_charge_button').val('Hide');var description_html = '<div id=\'AutoAnnotator_plot_selectors\'>';description_html = description_html + '<br> <input type=\'checkbox\' id=\'hydrophobicity_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for hydrophobicity (<img src=\'https://static.igem.org/mediawiki/2013/e/e9/TUM13_hydrophobicity_icon.png\' alt=\'blue graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'charge_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for charge (<img src=\'https://static.igem.org/mediawiki/2013/3/3e/TUM13_charge_icon.png\' alt=\'red graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'dis_checkbox\' checked=\'checked\'> Predicted disulfid bridges (<img src=\'https://static.igem.org/mediawiki/2013/2/28/TUM13_dis_icon.png\' alt=\'yellow circle\' height=\'10\'></img>) with the number of the bridge in the center';description_html = description_html + '<br> <input type=\'checkbox\' id=\'trans_checkbox\' checked=\'checked\'> Predicted transmembrane helices (<img src=\'https://static.igem.org/mediawiki/2013/7/78/TUM13_trans_icon.png\' alt=\'turquois bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'sec_checkbox\' checked=\'checked\'> Predicted secondary structure: Helices (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_helix_icon.png\' alt=\'violet bars\' height=\'10\'></img>) and beta-strands (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_strand_icon.png\' alt=\'yellow bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'acc_checkbox\' checked=\'checked\'> Predicted solvent accessability: Exposed (<img src=\'https://static.igem.org/mediawiki/2013/1/16/TUM13_exposed_icon.png\' alt=\'blue bars\' height=\'10\'></img>) and buried (<img src=\'https://static.igem.org/mediawiki/2013/0/0b/TUM13_buried_icon.png\' alt=\'green bars\' height=\'10\'></img>) residues';description_html = description_html + '<br></div>';$('#AutoAnnotator_container_1380925958218 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((pos_of_first_tick - 8 + (dis_datapoints[j][0] - 1)*tick_diff - Math.floor((dis_datapoints[j][0] - 1)/200)*200*tick_diff).toFixed(0)).toString() + 'px;\'><b>' + (j+1) + '</b></div>');$('#AutoAnnotator_container_1380925958218 #hydrophobicity_charge_placeholder' + Math.floor((dis_datapoints[j][1] - 1)/200) ).append('<div class=\'AutoAnnotator_dis\' style=\'left:' + ((pos_of_first_tick - 8 + (dis_datapoints[j][1] - 1)*tick_diff - Math.floor((dis_datapoints[j][1] - 1)/200)*200*tick_diff).toFixed(0)).toString() + 'px;\'><b>' + (j+1) + '</b></div>');}}if($('#AutoAnnotator_container_1380925958218 #trans_checkbox').prop('checked') == true){for ( j = 0 ; j < trans_datapoints.length ; j++ ){$('#AutoAnnotator_container_1380925958218 #hydrophobicity_charge_placeholder' + Math.floor((trans_datapoints[j][0] - 1)/200) ).append('<div class=\'AutoAnnotator_trans\' style=\'width:' + (((trans_datapoints[j][1] - trans_datapoints[j][0] + 1)*tick_diff).toFixed(0)).toString() + 'px ;left:' + 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| + | |
- | | + | |
- | ==SpyCatcher & SpyTag==
| + | |
- | [[File:TUM13 Animation_Spyy.gif|thumb|right|320px| '''Figure 29:''' Animation of protein structure of Spycatcher and Spytag (splitted FbaB from ''Streptococcus progenies)]]
| + | |
- | The SpyTag and SpyCatcher System allows the production of seperate proteins which become linked over their side chains. This kind of post translational protein fusion enables the iGEM community to design pretty complex systems. For our project the SpyTag system was integrated to secrete effector proteins coupled to the SpyTag that become automatically fused to a membrane receptor having a SpyCater domain at its extracellular domain. With this system it would be possible to create plants which have several different effector proteins immobilized on their membrane.<br>
| + | |
- | We also want to show the posttranslational protein fusion ''in vitro''. For this reason we started to produce these Protein recombinantly in ''E. coli''. As one of the proteins is linked to the NanoLuc which we characterized in a previous section we will be able to determine the kinetics of this coupling reaction. Until the regional Jamboree we finished cloning of all required plasmids but did not yet produce and purify the required proteins.
| + | |
- | | + | |
- | ===Protein Data Table for Spycatcher [http://parts.igem.org/Part:BBa_K1159200 BBa_K1159200]===
| + | |
- | <html><!--- Please copy this table containing parameters for BBa_ at the end of the parametrs section ahead of the references. ---><style type="text/css">table#AutoAnnotator {border:1px solid black; width:100%; border-collapse:collapse;} th#AutoAnnotatorHeader { border:1px solid black; width:100%; background-color: rgb(221, 221, 221);} td.AutoAnnotator1col { width:100%; border:1px solid black; } span.AutoAnnotatorSequence { font-family:'Courier New', Arial; } td.AutoAnnotatorSeqNum { text-align:right; width:2%; } td.AutoAnnotatorSeqSeq { width:98% } td.AutoAnnotatorSeqFeat1 { width:3% } td.AutoAnnotatorSeqFeat2a { width:27% } td.AutoAnnotatorSeqFeat2b { width:97% } td.AutoAnnotatorSeqFeat3 { width:70% } table.AutoAnnotatorNoBorder { border:0px; width:100%; border-collapse:collapse; } table.AutoAnnotatorWithBorder { border:1px solid black; width:100%; border-collapse:collapse; } td.AutoAnnotatorOuterAmino { border:0px solid black; width:20% } td.AutoAnnotatorInnerAmino { border:1px solid black; width:50% } td.AutoAnnotatorAminoCountingOuter { border:1px solid black; width:40%; } td.AutoAnnotatorBiochemParOuter { border:1px solid black; width:60%; } td.AutoAnnotatorAminoCountingInner1 { width: 7.5% } td.AutoAnnotatorAminoCountingInner2 { width:62.5% } td.AutoAnnotatorAminoCountingInner3 { width:30% } td.AutoAnnotatorBiochemParInner1 { width: 5% } td.AutoAnnotatorBiochemParInner2 { width:55% } td.AutoAnnotatorBiochemParInner3 { width:40% } td.AutoAnnotatorCodonUsage1 { width: 3% } td.AutoAnnotatorCodonUsage2 { width:14.2% } td.AutoAnnotatorCodonUsage3 { width:13.8% } td.AutoAnnotatorAlignment1 { width: 3% } td.AutoAnnotatorAlignment2 { width: 10% } td.AutoAnnotatorAlignment3 { width: 87% } td.AutoAnnotatorLocalizationOuter {border:1px solid black; width:40%} td.AutoAnnotatorGOOuter {border:1px solid black; width:60%} td.AutoAnnotatorLocalization1 { width: 7.5% } td.AutoAnnotatorLocalization2 { width: 22.5% } td.AutoAnnotatorLocalization3 { width: 70% } td.AutoAnnotatorGO1 { width: 5% } td.AutoAnnotatorGO2 { width: 35% } td.AutoAnnotatorGO3 { width: 60% } td.AutoAnnotatorPredFeat1 { width:3% } td.AutoAnnotatorPredFeat2a { width:27% } td.AutoAnnotatorPredFeat3 { width:70% } div.AutoAnnotator_trans { position:absolute; background:rgb(11,140,143); background-color:rgba(11,140,143, 0.8); height:5px; top:100px; } div.AutoAnnotator_sec_helix { position:absolute; background:rgb(102,0,102); background-color:rgba(102,0,102, 0.8); height:5px; top:110px; } div.AutoAnnotator_sec_strand { position:absolute; background:rgb(245,170,26); background-color:rgba(245,170,26, 1); height:5px; top:110px; } div.AutoAnnotator_acc_buried { position:absolute; background:rgb(89,168,15); background-color:rgba(89,168,15, 0.8); height:5px; top:120px; } div.AutoAnnotator_acc_exposed { position:absolute; background:rgb(0, 0, 255); background-color:rgba(0, 0, 255, 0.8); height:5px; top:120px; } div.AutoAnnotator_dis { position:absolute; text-align:center; font-family:Arial,Helvetica,sans-serif; background:rgb(255, 200, 0); background-color:rgba(255, 200, 0, 1); height:16px; width:16px; top:80px; border-radius:50%; } </style><div id='AutoAnnotator_container_1380924559033'><table id="AutoAnnotator"><tr><!-- Time stamp in ms since 1/1/1970 1380924559033 --><th id="AutoAnnotatorHeader" colspan="2">Protein data table for BioBrick <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1159200">BBa_K1159200</a> automatically created by the <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">BioBrick-AutoAnnotator</a> version 1.0</th></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Nucleotide sequence</strong> in <strong>RFC 25</strong>, so ATGGCCGGC and ACCGGT were added (in italics) to the 5' and 3' ends: (underlined part encodes the protein)<br><span class="AutoAnnotatorSequence"> <u><i>ATGGCCGGC</i>GTTGATACC ... GCTCATATT<i>ACCGGT</i></u></span><br> <strong>ORF</strong> from nucleotide position -8 to 345 (excluding stop-codon)</td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid sequence:</strong> (RFC 25 scars in shown in bold, other sequence features underlined; both given below)<br><span class="AutoAnnotatorSequence"><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqNum">1 <br>101 </td><td class="AutoAnnotatorSeqSeq">MAGVDTLSGLSSEQGQSGDMTIEEDSATHIKFSKRDEDGKELAGATMELRDSSGKTISTWISDGQVKDFYLYPGKYTFVETAAPDGYEVATAITFTVNEQ<br>GQVTVNGKATKGDAHITG*</td></tr></table></span></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Sequence features:</strong> (with their position in the amino acid sequence, see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software/FeatureList">list of supported features</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2b">None of the supported features appeared in the sequence</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid composition:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Ala (A)</td><td class="AutoAnnotatorInnerAmino">10 (8.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Arg (R)</td><td class="AutoAnnotatorInnerAmino">2 (1.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asn (N)</td><td class="AutoAnnotatorInnerAmino">2 (1.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asp (D)</td><td class="AutoAnnotatorInnerAmino">10 (8.5%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Cys (C)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gln (Q)</td><td class="AutoAnnotatorInnerAmino">5 (4.2%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Glu (E)</td><td class="AutoAnnotatorInnerAmino">9 (7.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gly (G)</td><td class="AutoAnnotatorInnerAmino">14 (11.9%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">His (H)</td><td class="AutoAnnotatorInnerAmino">2 (1.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ile (I)</td><td class="AutoAnnotatorInnerAmino">6 (5.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Leu (L)</td><td class="AutoAnnotatorInnerAmino">5 (4.2%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Lys (K)</td><td class="AutoAnnotatorInnerAmino">8 (6.8%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Met (M)</td><td class="AutoAnnotatorInnerAmino">3 (2.5%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Phe (F)</td><td class="AutoAnnotatorInnerAmino">4 (3.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Pro (P)</td><td class="AutoAnnotatorInnerAmino">2 (1.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ser (S)</td><td class="AutoAnnotatorInnerAmino">10 (8.5%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Thr (T)</td><td class="AutoAnnotatorInnerAmino">14 (11.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Trp (W)</td><td class="AutoAnnotatorInnerAmino">1 (0.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Tyr (Y)</td><td class="AutoAnnotatorInnerAmino">4 (3.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Val (V)</td><td class="AutoAnnotatorInnerAmino">7 (5.9%)</td></tr></table></td></tr></table></td></tr><tr><td class="AutoAnnotatorAminoCountingOuter"><strong>Amino acid counting</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Total number:</td><td class="AutoAnnotatorAminoCountingInner3">118</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Positively charged (Arg+Lys):</td><td class="AutoAnnotatorAminoCountingInner3">10 (8.5%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Negatively charged (Asp+Glu):</td><td class="AutoAnnotatorAminoCountingInner3">19 (16.1%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Aromatic (Phe+His+Try+Tyr):</td><td class="AutoAnnotatorAminoCountingInner3">11 (9.3%)</td></tr></table></td><td class="AutoAnnotatorBiochemParOuter"><strong>Biochemical parameters</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Atomic composition:</td><td class="AutoAnnotatorBiochemParInner3">C<sub>543</sub>H<sub>848</sub>N<sub>144</sub>O<sub>192</sub>S<sub>3</sub></td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Molecular mass [Da]:</td><td class="AutoAnnotatorBiochemParInner3">12561.7</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Theoretical pI:</td><td class="AutoAnnotatorBiochemParInner3">4.49</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Extinction coefficient at 280 nm [M<sup>-1</sup> cm<sup>-1</sup>]:</td><td class="AutoAnnotatorBiochemParInner3">11460 / 11460 (all Cys red/ox)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Plot for hydrophobicity, charge, predicted secondary structure, solvent accessability, transmembrane helices and disulfid bridges</strong> <input type='button' id='hydrophobicity_charge_button' onclick='show_or_hide_plot_1380924559033()' value='Show'><span id="hydrophobicity_charge_explanation"></span><div id="hydrophobicity_charge_container" style='display:none'><div id="hydrophobicity_charge_placeholder0" style="width:100%;height:150px"></div></div></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Codon usage</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Organism:</td><td class="AutoAnnotatorCodonUsage3"><i>E. coli</i></td><td class="AutoAnnotatorCodonUsage3"><i>B. subtilis</i></td><td class="AutoAnnotatorCodonUsage3"><i>S. cerevisiae</i></td><td class="AutoAnnotatorCodonUsage3"><i>A. thaliana</i></td><td class="AutoAnnotatorCodonUsage3"><i>P. patens</i></td><td class="AutoAnnotatorCodonUsage3">Mammals</td></tr><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Codon quality (<a href="http://en.wikipedia.org/wiki/Codon_Adaptation_Index">CAI</a>):</td><td class="AutoAnnotatorCodonUsage3">excellent (0.83)</td><td class="AutoAnnotatorCodonUsage3">good (0.76)</td><td class="AutoAnnotatorCodonUsage3">good (0.78)</td><td class="AutoAnnotatorCodonUsage3">good (0.80)</td><td class="AutoAnnotatorCodonUsage3">good (0.78)</td><td class="AutoAnnotatorCodonUsage3">good (0.67)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Alignments</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">SwissProt:</td><td class="AutoAnnotatorAlignment3"> - </td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">TrEML:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/Q879P6'>Q879P6</a> (97% identity on 114 AAs), <a href='http://www.uniprot.org/uniprot/Q8G9G1'>Q8G9G1</a> (97% identity on 114 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">PDB:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2x5p'>2x5p</a> (96% identity on 93 AAs)</td></tr></table></td></tr><tr><th id='AutoAnnotatorHeader' colspan="2"><strong>Predictions</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)</th></tr><tr><td class="AutoAnnotatorLocalizationOuter"><strong>Subcellular Localization</strong> (reliability in brackets)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Archaea:</td><td class="AutoAnnotatorLocalization3">secreted (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Bacteria:</td><td class="AutoAnnotatorLocalization3">secreted (26%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Eukarya:</td><td class="AutoAnnotatorLocalization3">cytosol (45%)</td></tr></table></td><td class="AutoAnnotatorGOOuter"><strong>Gene Ontology</strong> (reliability in brackets)<br><table class="AutoAnnotatorNoBorder"><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Molecular Function Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Biological Process Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'> </td><td class='AutoAnnotatorGO2'> </td><td class='AutoAnnotatorGO3'> </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Predicted features:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Disulfid bridges:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Transmembrane helices:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"> The BioBrick-AutoAnnotator was created by <a href="https://2013.igem.org/Team:TU-Munich">TU-Munich 2013</a> iGEM team. For more information please see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software">documentation</a>.<br>If you have any questions, comments or suggestions, please leave us a <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">comment</a>.</td></tr></table></div><br><!-- IMPORTANT: DON'T REMOVE THIS LINE, OTHERWISE NOT SUPPORTED FOR IE BEFORE 9 --><!--[if lte IE 8]><script language="javascript" type="text/javascript" src="excanvas.min.js"></script><![endif]--><script type='text/javascript' src='http://code.jquery.com/jquery-1.10.0.min.js'></script><script type='text/javascript' src='https://2013.igem.org/Team:TU-Munich/Flot.js?action=raw&ctype=text/js'></script><script>function show_or_hide_plot_1380924559033(){hydrophobicity_datapoints = [[2.5,0.80],[3.5,0.28],[4.5,0.68],[5.5,0.60],[6.5,-0.32],[7.5,1.14],[8.5,1.12],[9.5,0.20],[10.5,-0.34],[11.5,-0.96],[12.5,-1.80],[13.5,-2.34],[14.5,-2.34],[15.5,-1.72],[16.5,-1.72],[17.5,-1.26],[18.5,-0.70],[19.5,0.36],[20.5,-0.26],[21.5,-0.26],[22.5,-1.34],[23.5,-1.36],[24.5,-1.90],[25.5,-1.34],[26.5,-1.28],[27.5,0.32],[28.5,-0.30],[29.5,-0.10],[30.5,-0.12],[31.5,-0.26],[32.5,-2.06],[33.5,-1.98],[34.5,-3.24],[35.5,-3.78],[36.5,-3.08],[37.5,-2.96],[38.5,-2.96],[39.5,-1.50],[40.5,-0.44],[41.5,-0.44],[42.5,0.70],[43.5,1.26],[44.5,0.88],[45.5,-0.18],[46.5,0.66],[47.5,-0.60],[48.5,-1.16],[49.5,-1.70],[50.5,-1.16],[51.5,-2.00],[52.5,-1.88],[53.5,-1.32],[54.5,-0.26],[55.5,-0.26],[56.5,-0.32],[57.5,0.28],[58.5,1.32],[59.5,0.26],[60.5,-0.28],[61.5,-0.22],[62.5,-0.74],[63.5,-0.80],[64.5,-1.42],[65.5,-1.42],[66.5,-0.78],[67.5,-0.34],[68.5,-0.42],[69.5,0.10],[70.5,0.48],[71.5,-0.16],[72.5,-0.68],[73.5,-1.70],[74.5,-1.58],[75.5,-0.70],[76.5,0.22],[77.5,0.30],[78.5,0.42],[79.5,0.92],[80.5,0.72],[81.5,-0.44],[82.5,-0.44],[83.5,-0.38],[84.5,-1.00],[85.5,-2.06],[86.5,-0.90],[87.5,0.16],[88.5,0.10],[89.5,0.72],[90.5,2.32],[91.5,1.34],[92.5,1.54],[93.5,1.54],[94.5,2.02],[95.5,0.42],[96.5,-0.14],[97.5,-1.40],[98.5,-1.34],[99.5,-2.88],[100.5,-1.34],[101.5,-0.78],[102.5,0.76],[103.5,0.14],[104.5,0.76],[105.5,-0.86],[106.5,-0.36],[107.5,-1.34],[108.5,-1.42],[109.5,-1.42],[110.5,-1.34],[111.5,-1.34],[112.5,-1.84],[113.5,-0.16],[114.5,-0.22],[115.5,0.40]];charge_datapoints 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[[2.5,-0.20],[3.5,-0.20],[4.5,-0.20],[5.5,-0.20],[6.5,-0.20],[7.5,0.00],[8.5,0.00],[9.5,0.00],[10.5,-0.20],[11.5,-0.20],[12.5,-0.20],[13.5,-0.20],[14.5,-0.20],[15.5,0.00],[16.5,-0.20],[17.5,-0.20],[18.5,-0.20],[19.5,-0.20],[20.5,-0.40],[21.5,-0.40],[22.5,-0.60],[23.5,-0.60],[24.5,-0.60],[25.5,-0.40],[26.5,-0.10],[27.5,0.10],[28.5,0.30],[29.5,0.30],[30.5,0.30],[31.5,0.40],[32.5,0.60],[33.5,0.20],[34.5,-0.00],[35.5,-0.20],[36.5,-0.40],[37.5,-0.40],[38.5,-0.40],[39.5,-0.20],[40.5,-0.00],[41.5,-0.00],[42.5,-0.20],[43.5,-0.00],[44.5,-0.00],[45.5,-0.20],[46.5,-0.20],[47.5,-0.00],[48.5,-0.20],[49.5,-0.20],[50.5,-0.00],[51.5,-0.00],[52.5,-0.00],[53.5,0.20],[54.5,0.20],[55.5,0.20],[56.5,0.20],[57.5,-0.00],[58.5,-0.00],[59.5,-0.00],[60.5,-0.20],[61.5,-0.20],[62.5,-0.20],[63.5,-0.20],[64.5,-0.00],[65.5,-0.00],[66.5,-0.00],[67.5,-0.00],[68.5,-0.00],[69.5,-0.20],[70.5,-0.00],[71.5,-0.00],[72.5,0.20],[73.5,0.20],[74.5,0.20],[75.5,0.20],[76.5,0.20],[77.5,-0.20],[78.5,-0.20],[79.5,-0.20],[80.5,-0.20],[81.5,-0.20],[82.5,-0.20],[83.5,-0.20],[84.5,-0.20],[85.5,-0.40],[86.5,-0.40],[87.5,-0.20],[88.5,-0.20],[89.5,-0.20],[90.5,-0.00],[91.5,-0.00],[92.5,-0.00],[93.5,-0.00],[94.5,-0.00],[95.5,-0.00],[96.5,-0.20],[97.5,-0.20],[98.5,-0.20],[99.5,-0.20],[100.5,-0.20],[101.5,-0.00],[102.5,-0.00],[103.5,-0.00],[104.5,-0.00],[105.5,0.20],[106.5,0.20],[107.5,0.20],[108.5,0.40],[109.5,0.40],[110.5,-0.00],[111.5,-0.00],[112.5,0.10],[113.5,-0.10],[114.5,-0.10],[115.5,0.10]];dis_datapoints 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125).toString()], [plot_num*200 + 149.5, (plot_num*200 + 150).toString()], [plot_num*200 + 174.5, (plot_num*200 + 175).toString()], [plot_num*200 + 199.5, (plot_num*200 + 200).toString()] ],tickLength: -5}];};try {if( $('#AutoAnnotator_container_1380924559033 #hydrophobicity_charge_button').val() =='Show' ){$('#AutoAnnotator_container_1380924559033 #hydrophobicity_charge_container').css('display','block');$('#AutoAnnotator_container_1380924559033 #hydrophobicity_charge_button').val('Hide');var description_html = '<div id=\'AutoAnnotator_plot_selectors\'>';description_html = description_html + '<br> <input type=\'checkbox\' id=\'hydrophobicity_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for hydrophobicity (<img src=\'https://static.igem.org/mediawiki/2013/e/e9/TUM13_hydrophobicity_icon.png\' alt=\'blue graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'charge_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for charge (<img src=\'https://static.igem.org/mediawiki/2013/3/3e/TUM13_charge_icon.png\' alt=\'red graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'dis_checkbox\' checked=\'checked\'> Predicted disulfid bridges (<img src=\'https://static.igem.org/mediawiki/2013/2/28/TUM13_dis_icon.png\' alt=\'yellow circle\' height=\'10\'></img>) with the number of the bridge in the center';description_html = description_html + '<br> <input type=\'checkbox\' id=\'trans_checkbox\' checked=\'checked\'> Predicted transmembrane helices (<img src=\'https://static.igem.org/mediawiki/2013/7/78/TUM13_trans_icon.png\' alt=\'turquois bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'sec_checkbox\' checked=\'checked\'> Predicted secondary structure: Helices (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_helix_icon.png\' alt=\'violet bars\' height=\'10\'></img>) and beta-strands (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_strand_icon.png\' alt=\'yellow bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'acc_checkbox\' checked=\'checked\'> Predicted solvent accessability: Exposed (<img src=\'https://static.igem.org/mediawiki/2013/1/16/TUM13_exposed_icon.png\' alt=\'blue bars\' height=\'10\'></img>) and buried (<img src=\'https://static.igem.org/mediawiki/2013/0/0b/TUM13_buried_icon.png\' alt=\'green bars\' height=\'10\'></img>) residues';description_html = description_html + '<br></div>';$('#AutoAnnotator_container_1380924559033 #hydrophobicity_charge_explanation').html(description_html);plot_according_to_selectors_1380924559033();$('#AutoAnnotator_container_1380924559033 #AutoAnnotator_plot_selectors').find('input').click(plot_according_to_selectors_1380924559033);}else{$('#AutoAnnotator_container_1380924559033 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| + | |
- | | + | |
- | ===Protein Data Table for Spytag [http://parts.igem.org/wiki/index.php?title=Part:BBa_K1159201 BBa_K1159201]===
| + | |
- | <html><!--- Please copy this table containing parameters for BBa_ at the end of the parametrs section ahead of the references. ---><style type="text/css">table#AutoAnnotator {border:1px solid black; width:100%; border-collapse:collapse;} th#AutoAnnotatorHeader { border:1px solid black; width:100%; background-color: rgb(221, 221, 221);} td.AutoAnnotator1col { width:100%; border:1px solid black; } span.AutoAnnotatorSequence { font-family:'Courier New', Arial; } td.AutoAnnotatorSeqNum { text-align:right; width:2%; } td.AutoAnnotatorSeqSeq { width:98% } td.AutoAnnotatorSeqFeat1 { width:3% } td.AutoAnnotatorSeqFeat2a { width:27% } td.AutoAnnotatorSeqFeat2b { width:97% } td.AutoAnnotatorSeqFeat3 { width:70% } table.AutoAnnotatorNoBorder { border:0px; width:100%; border-collapse:collapse; } table.AutoAnnotatorWithBorder { border:1px solid black; width:100%; border-collapse:collapse; } td.AutoAnnotatorOuterAmino { border:0px solid black; width:20% } td.AutoAnnotatorInnerAmino { border:1px solid black; width:50% } td.AutoAnnotatorAminoCountingOuter { border:1px solid black; width:40%; } td.AutoAnnotatorBiochemParOuter { border:1px solid black; width:60%; } td.AutoAnnotatorAminoCountingInner1 { width: 7.5% } td.AutoAnnotatorAminoCountingInner2 { width:62.5% } td.AutoAnnotatorAminoCountingInner3 { width:30% } td.AutoAnnotatorBiochemParInner1 { width: 5% } td.AutoAnnotatorBiochemParInner2 { width:55% } td.AutoAnnotatorBiochemParInner3 { width:40% } td.AutoAnnotatorCodonUsage1 { width: 3% } td.AutoAnnotatorCodonUsage2 { width:14.2% } td.AutoAnnotatorCodonUsage3 { width:13.8% } td.AutoAnnotatorAlignment1 { width: 3% } td.AutoAnnotatorAlignment2 { width: 10% } td.AutoAnnotatorAlignment3 { width: 87% } td.AutoAnnotatorLocalizationOuter {border:1px solid black; width:40%} td.AutoAnnotatorGOOuter {border:1px solid black; width:60%} td.AutoAnnotatorLocalization1 { width: 7.5% } td.AutoAnnotatorLocalization2 { width: 22.5% } td.AutoAnnotatorLocalization3 { width: 70% } td.AutoAnnotatorGO1 { width: 5% } td.AutoAnnotatorGO2 { width: 35% } td.AutoAnnotatorGO3 { width: 60% } td.AutoAnnotatorPredFeat1 { width:3% } td.AutoAnnotatorPredFeat2a { width:27% } td.AutoAnnotatorPredFeat3 { width:70% } div.AutoAnnotator_trans { position:absolute; background:rgb(11,140,143); background-color:rgba(11,140,143, 0.8); height:5px; top:100px; } div.AutoAnnotator_sec_helix { position:absolute; background:rgb(102,0,102); background-color:rgba(102,0,102, 0.8); height:5px; top:110px; } div.AutoAnnotator_sec_strand { position:absolute; background:rgb(245,170,26); background-color:rgba(245,170,26, 1); height:5px; top:110px; } div.AutoAnnotator_acc_buried { position:absolute; background:rgb(89,168,15); background-color:rgba(89,168,15, 0.8); height:5px; top:120px; } div.AutoAnnotator_acc_exposed { position:absolute; background:rgb(0, 0, 255); background-color:rgba(0, 0, 255, 0.8); height:5px; top:120px; } div.AutoAnnotator_dis { position:absolute; text-align:center; font-family:Arial,Helvetica,sans-serif; background:rgb(255, 200, 0); background-color:rgba(255, 200, 0, 1); height:16px; width:16px; top:80px; border-radius:50%; } </style><div id='AutoAnnotator_container_1380925073436'><table id="AutoAnnotator"><tr><!-- Time stamp in ms since 1/1/1970 1380925073436 --><th id="AutoAnnotatorHeader" colspan="2">Protein data table for BioBrick <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1159201">BBa_K1159201</a> automatically created by the <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">BioBrick-AutoAnnotator</a> version 1.0</th></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Nucleotide sequence</strong> in <strong>RFC 25</strong>, so ATGGCCGGC and ACCGGT were added (in italics) to the 5' and 3' ends: (underlined part encodes the protein)<br><span class="AutoAnnotatorSequence"> <u><i>ATGGCCGGC</i>GCTCATATT ... CCAACTAAG<i>ACCGGT</i></u></span><br> <strong>ORF</strong> from nucleotide position -8 to 45 (excluding stop-codon)</td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid sequence:</strong> (RFC 25 scars in shown in bold, other sequence features underlined; both given below)<br><span class="AutoAnnotatorSequence"><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqNum">1 </td><td class="AutoAnnotatorSeqSeq">MAG<u>AHIVMVDAYKPTK</u>TG*</td></tr></table></span></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Sequence features:</strong> (with their position in the amino acid sequence, see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software/FeatureList">list of supported features</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2a">Spy-tag: </td><td class="AutoAnnotatorSeqFeat3">4 to 16</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid composition:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Ala (A)</td><td class="AutoAnnotatorInnerAmino">3 (16.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Arg (R)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asn (N)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asp (D)</td><td class="AutoAnnotatorInnerAmino">1 (5.6%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Cys (C)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gln (Q)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Glu (E)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gly (G)</td><td class="AutoAnnotatorInnerAmino">2 (11.1%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">His (H)</td><td class="AutoAnnotatorInnerAmino">1 (5.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ile (I)</td><td class="AutoAnnotatorInnerAmino">1 (5.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Leu (L)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Lys (K)</td><td class="AutoAnnotatorInnerAmino">2 (11.1%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Met (M)</td><td class="AutoAnnotatorInnerAmino">2 (11.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Phe (F)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Pro (P)</td><td class="AutoAnnotatorInnerAmino">1 (5.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ser (S)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Thr (T)</td><td class="AutoAnnotatorInnerAmino">2 (11.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Trp (W)</td><td class="AutoAnnotatorInnerAmino">0 (0.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Tyr (Y)</td><td class="AutoAnnotatorInnerAmino">1 (5.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Val (V)</td><td class="AutoAnnotatorInnerAmino">2 (11.1%)</td></tr></table></td></tr></table></td></tr><tr><td class="AutoAnnotatorAminoCountingOuter"><strong>Amino acid counting</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Total number:</td><td class="AutoAnnotatorAminoCountingInner3">18</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Positively charged (Arg+Lys):</td><td class="AutoAnnotatorAminoCountingInner3">2 (11.1%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Negatively charged (Asp+Glu):</td><td class="AutoAnnotatorAminoCountingInner3">1 (5.6%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Aromatic (Phe+His+Try+Tyr):</td><td class="AutoAnnotatorAminoCountingInner3">2 (11.1%)</td></tr></table></td><td class="AutoAnnotatorBiochemParOuter"><strong>Biochemical parameters</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Atomic composition:</td><td class="AutoAnnotatorBiochemParInner3">C<sub>83</sub>H<sub>136</sub>N<sub>22</sub>O<sub>24</sub>S<sub>2</sub></td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Molecular mass [Da]:</td><td class="AutoAnnotatorBiochemParInner3">1890.2</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Theoretical pI:</td><td class="AutoAnnotatorBiochemParInner3">8.28</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Extinction coefficient at 280 nm [M<sup>-1</sup> cm<sup>-1</sup>]:</td><td class="AutoAnnotatorBiochemParInner3">1490 / 1490 (all Cys red/ox)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Plot for hydrophobicity, charge, predicted secondary structure, solvent accessability, transmembrane helices and disulfid bridges</strong> <input type='button' id='hydrophobicity_charge_button' onclick='show_or_hide_plot_1380925073436()' value='Show'><span id="hydrophobicity_charge_explanation"></span><div id="hydrophobicity_charge_container" style='display:none'><div id="hydrophobicity_charge_placeholder0" style="width:100%;height:150px"></div></div></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Codon usage</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Organism:</td><td class="AutoAnnotatorCodonUsage3"><i>E. coli</i></td><td class="AutoAnnotatorCodonUsage3"><i>B. subtilis</i></td><td class="AutoAnnotatorCodonUsage3"><i>S. cerevisiae</i></td><td class="AutoAnnotatorCodonUsage3"><i>A. thaliana</i></td><td class="AutoAnnotatorCodonUsage3"><i>P. patens</i></td><td class="AutoAnnotatorCodonUsage3">Mammals</td></tr><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Codon quality (<a href="http://en.wikipedia.org/wiki/Codon_Adaptation_Index">CAI</a>):</td><td class="AutoAnnotatorCodonUsage3">good (0.76)</td><td class="AutoAnnotatorCodonUsage3">good (0.68)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.81)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.80)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.84)</td><td class="AutoAnnotatorCodonUsage3">good (0.77)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Alignments</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">SwissProt:</td><td class="AutoAnnotatorAlignment3"> - </td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">TrEML:</td><td class="AutoAnnotatorAlignment3"> - </td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">PDB:</td><td class="AutoAnnotatorAlignment3"> - </td></tr></table></td></tr><tr><th id='AutoAnnotatorHeader' colspan="2"><strong>Predictions</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)</th></tr><tr><td class="AutoAnnotatorLocalizationOuter"><strong>Subcellular Localization</strong> (reliability in brackets)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Archaea:</td><td class="AutoAnnotatorLocalization3">cytosol (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Bacteria:</td><td class="AutoAnnotatorLocalization3">secreted (57%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Eukarya:</td><td class="AutoAnnotatorLocalization3">secreted (47%)</td></tr></table></td><td class="AutoAnnotatorGOOuter"><strong>Gene Ontology</strong> (reliability in brackets)<br><table class="AutoAnnotatorNoBorder"><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Molecular Function Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Biological Process Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'> </td><td class='AutoAnnotatorGO2'> </td><td class='AutoAnnotatorGO3'> </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Predicted features:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Disulfid bridges:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Transmembrane helices:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"> The BioBrick-AutoAnnotator was created by <a href="https://2013.igem.org/Team:TU-Munich">TU-Munich 2013</a> iGEM team. For more information please see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software">documentation</a>.<br>If you have any questions, comments or suggestions, please leave us a <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">comment</a>.</td></tr></table></div><br><!-- IMPORTANT: DON'T REMOVE THIS LINE, OTHERWISE NOT SUPPORTED FOR IE BEFORE 9 --><!--[if lte IE 8]><script language="javascript" type="text/javascript" src="excanvas.min.js"></script><![endif]--><script type='text/javascript' src='http://code.jquery.com/jquery-1.10.0.min.js'></script><script type='text/javascript' src='https://2013.igem.org/Team:TU-Munich/Flot.js?action=raw&ctype=text/js'></script><script>function show_or_hide_plot_1380925073436(){hydrophobicity_datapoints = [[2.5,0.38],[3.5,0.90],[4.5,1.38],[5.5,1.84],[6.5,2.32],[7.5,2.26],[8.5,1.72],[9.5,0.62],[10.5,-0.54],[11.5,-1.70],[12.5,-1.14],[13.5,-2.28],[14.5,-2.16],[15.5,-1.46]];charge_datapoints = 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| + | |
- | | + | |
- | ==CFP_TEV-site_YFP==
| + | |
- | | + | |
- | ===Protein Data Table for CFP_TEV-site_YFP [http://parts.igem.org/Part:BBa_K1159112 BBa_K1159112]===
| + | |
- | | + | |
- | To prove that our light-switchable TEV Protease is actually working, we designed a FRET reporter ([http://parts.igem.org/Part:BBa_K1159112 BBa_K1159112]). The FRET reporter is composed of two chromoproteins, namely eCFP ([http://parts.igem.org/Part:BBa_K1159302 BBa_K1159302]) and SYFP2 ([http://parts.igem.org/Part:BBa_K1159301 BBa_K1159301]), which are linked together through a short linker with an internal TEV cleavage site ([http://parts.igem.org/Part:BBa_K1159318 BBa_K1159318]).
| + | |
- | For further information see the [https://2013.igem.org/Team:TU-Munich/Project/Killswitch#FRET_Reporter_for_TEV_Protease_activity kill-switch section].
| + | |
- | | + | |
- | <html><!--- Please copy this table containing parameters for BBa_ at the end of the parametrs section ahead of the references. ---><style type="text/css">table#AutoAnnotator {border:1px solid black; width:100%; border-collapse:collapse;} th#AutoAnnotatorHeader { border:1px solid black; width:100%; background-color: rgb(221, 221, 221);} td.AutoAnnotator1col { width:100%; border:1px solid black; } span.AutoAnnotatorSequence { font-family:'Courier New', Arial; } td.AutoAnnotatorSeqNum { text-align:right; width:2%; } td.AutoAnnotatorSeqSeq { width:98% } td.AutoAnnotatorSeqFeat1 { width:3% } td.AutoAnnotatorSeqFeat2a { width:27% } td.AutoAnnotatorSeqFeat2b { width:97% } td.AutoAnnotatorSeqFeat3 { width:70% } table.AutoAnnotatorNoBorder { border:0px; width:100%; border-collapse:collapse; } table.AutoAnnotatorWithBorder { border:1px solid black; width:100%; border-collapse:collapse; } td.AutoAnnotatorOuterAmino { border:0px solid black; width:20% } td.AutoAnnotatorInnerAmino { border:1px solid black; width:50% } td.AutoAnnotatorAminoCountingOuter { border:1px solid black; width:40%; } td.AutoAnnotatorBiochemParOuter { border:1px solid black; width:60%; } td.AutoAnnotatorAminoCountingInner1 { width: 7.5% } td.AutoAnnotatorAminoCountingInner2 { width:62.5% } td.AutoAnnotatorAminoCountingInner3 { width:30% } td.AutoAnnotatorBiochemParInner1 { width: 5% } td.AutoAnnotatorBiochemParInner2 { width:55% } td.AutoAnnotatorBiochemParInner3 { width:40% } td.AutoAnnotatorCodonUsage1 { width: 3% } td.AutoAnnotatorCodonUsage2 { width:14.2% } td.AutoAnnotatorCodonUsage3 { width:13.8% } td.AutoAnnotatorAlignment1 { width: 3% } td.AutoAnnotatorAlignment2 { width: 10% } td.AutoAnnotatorAlignment3 { width: 87% } td.AutoAnnotatorLocalizationOuter {border:1px solid black; width:40%} td.AutoAnnotatorGOOuter {border:1px solid black; width:60%} td.AutoAnnotatorLocalization1 { width: 7.5% } td.AutoAnnotatorLocalization2 { width: 22.5% } td.AutoAnnotatorLocalization3 { width: 70% } td.AutoAnnotatorGO1 { width: 5% } td.AutoAnnotatorGO2 { width: 35% } td.AutoAnnotatorGO3 { width: 60% } td.AutoAnnotatorPredFeat1 { width:3% } td.AutoAnnotatorPredFeat2a { width:27% } td.AutoAnnotatorPredFeat3 { width:70% } div.AutoAnnotator_trans { position:absolute; background:rgb(11,140,143); background-color:rgba(11,140,143, 0.8); height:5px; top:100px; } div.AutoAnnotator_sec_helix { position:absolute; background:rgb(102,0,102); background-color:rgba(102,0,102, 0.8); height:5px; top:110px; } div.AutoAnnotator_sec_strand { position:absolute; background:rgb(245,170,26); background-color:rgba(245,170,26, 1); height:5px; top:110px; } div.AutoAnnotator_acc_buried { position:absolute; background:rgb(89,168,15); background-color:rgba(89,168,15, 0.8); height:5px; top:120px; } div.AutoAnnotator_acc_exposed { position:absolute; background:rgb(0, 0, 255); background-color:rgba(0, 0, 255, 0.8); height:5px; top:120px; } div.AutoAnnotator_dis { position:absolute; text-align:center; font-family:Arial,Helvetica,sans-serif; background:rgb(255, 200, 0); background-color:rgba(255, 200, 0, 1); height:16px; width:16px; top:80px; border-radius:50%; } </style><div id='AutoAnnotator_container_1380924089945'><table id="AutoAnnotator"><tr><!-- Time stamp in ms since 1/1/1970 1380924089945 --><th id="AutoAnnotatorHeader" colspan="2">Protein data table for BioBrick <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K1159112">BBa_K1159112</a> automatically created by the <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">BioBrick-AutoAnnotator</a> version 1.0</th></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Nucleotide sequence</strong> in <strong>RFC 25</strong>, so ATGGCCGGC and ACCGGT were added (in italics) to the 5' and 3' ends: (underlined part encodes the protein)<br><span class="AutoAnnotatorSequence"> <u><i>ATGGCCGGC</i>GTGAGCAAG ... CTGTATAAA<i>ACCGGT</i></u></span><br> <strong>ORF</strong> from nucleotide position -8 to 1473 (excluding stop-codon)</td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid sequence:</strong> (RFC 25 scars in shown in bold, other sequence features underlined; both given below)<br><span class="AutoAnnotatorSequence"><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqNum">1 <br>101 <br>201 <br>301 <br>401 </td><td class="AutoAnnotatorSeqSeq">MAGVSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICT<b>TG</b>KLPVPWPTLVTTLTWGVQCFSRYPDHMKQHDFFKSAMPEGYVQERT<br>IFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYISHNVYITADKQKNGIKANFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPD<br>NHYLSTQSALSKDPNEKRDHMVLLEFVTAAGITLGMDELYK<b>TG</b>G<u>ENLYFQS</u>GTGVSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKL<br>ICTTGKLPVPWPTLVTTLGYGVQCFARYPDHMKQHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYN<br>SHNVYITADKQKNGIKANFKIRHNIEDGGVQLADHYQQNTPIGDGPVLLPDNHYLSYQSKLSKDPNEKRDHMVLLEFVTAAGITLGMDELYKTG*</td></tr></table></span></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Sequence features:</strong> (with their position in the amino acid sequence, see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software/FeatureList">list of supported features</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2a">RFC25 scar (shown in bold): </td><td class="AutoAnnotatorSeqFeat3">53 to 54, 242 to 243, 253 to 254</td></tr><tr><td class="AutoAnnotatorSeqFeat1"></td><td class="AutoAnnotatorSeqFeat2a">TEV cleavage site: </td><td class="AutoAnnotatorSeqFeat3">245 to 251</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Amino acid composition:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Ala (A)</td><td class="AutoAnnotatorInnerAmino">19 (3.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Arg (R)</td><td class="AutoAnnotatorInnerAmino">12 (2.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asn (N)</td><td class="AutoAnnotatorInnerAmino">26 (5.3%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Asp (D)</td><td class="AutoAnnotatorInnerAmino">36 (7.3%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Cys (C)</td><td class="AutoAnnotatorInnerAmino">4 (0.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gln (Q)</td><td class="AutoAnnotatorInnerAmino">17 (3.4%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Glu (E)</td><td class="AutoAnnotatorInnerAmino">33 (6.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Gly (G)</td><td class="AutoAnnotatorInnerAmino">52 (10.5%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">His (H)</td><td class="AutoAnnotatorInnerAmino">18 (3.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ile (I)</td><td class="AutoAnnotatorInnerAmino">25 (5.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Leu (L)</td><td class="AutoAnnotatorInnerAmino">44 (8.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Lys (K)</td><td class="AutoAnnotatorInnerAmino">41 (8.3%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Met (M)</td><td class="AutoAnnotatorInnerAmino">9 (1.8%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Phe (F)</td><td class="AutoAnnotatorInnerAmino">24 (4.9%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Pro (P)</td><td class="AutoAnnotatorInnerAmino">20 (4.0%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Ser (S)</td><td class="AutoAnnotatorInnerAmino">19 (3.8%)</td></tr></table></td><td class="AutoAnnotatorOuterAmino"><table class="AutoAnnotatorWithBorder"><tr><td class="AutoAnnotatorInnerAmino">Thr (T)</td><td class="AutoAnnotatorInnerAmino">35 (7.1%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Trp (W)</td><td class="AutoAnnotatorInnerAmino">3 (0.6%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Tyr (Y)</td><td class="AutoAnnotatorInnerAmino">23 (4.7%)</td></tr><tr><td class="AutoAnnotatorInnerAmino">Val (V)</td><td class="AutoAnnotatorInnerAmino">34 (6.9%)</td></tr></table></td></tr></table></td></tr><tr><td class="AutoAnnotatorAminoCountingOuter"><strong>Amino acid counting</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Total number:</td><td class="AutoAnnotatorAminoCountingInner3">494</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Positively charged (Arg+Lys):</td><td class="AutoAnnotatorAminoCountingInner3">53 (10.7%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Negatively charged (Asp+Glu):</td><td class="AutoAnnotatorAminoCountingInner3">69 (14.0%)</td></tr><tr><td class="AutoAnnotatorAminoCountingInner1"></td><td class="AutoAnnotatorAminoCountingInner2">Aromatic (Phe+His+Try+Tyr):</td><td class="AutoAnnotatorAminoCountingInner3">68 (13.8%)</td></tr></table></td><td class="AutoAnnotatorBiochemParOuter"><strong>Biochemical parameters</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Atomic composition:</td><td class="AutoAnnotatorBiochemParInner3">C<sub>2479</sub>H<sub>3817</sub>N<sub>653</sub>O<sub>753</sub>S<sub>13</sub></td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Molecular mass [Da]:</td><td class="AutoAnnotatorBiochemParInner3">55233.3</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Theoretical pI:</td><td class="AutoAnnotatorBiochemParInner3">5.59</td></tr><tr><td class="AutoAnnotatorBiochemParInner1"></td><td class="AutoAnnotatorBiochemParInner2">Extinction coefficient at 280 nm [M<sup>-1</sup> cm<sup>-1</sup>]:</td><td class="AutoAnnotatorBiochemParInner3">50770 / 51020 (all Cys red/ox)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Plot for hydrophobicity, charge, predicted secondary structure, solvent accessability, transmembrane helices and disulfid bridges</strong> <input type='button' id='hydrophobicity_charge_button' onclick='show_or_hide_plot_1380924089945()' value='Show'><span id="hydrophobicity_charge_explanation"></span><div id="hydrophobicity_charge_container" style='display:none'><div id="hydrophobicity_charge_placeholder0" style="width:100%;height:150px"></div><div id="hydrophobicity_charge_placeholder1" style="width:100%;height:150px"></div><div id="hydrophobicity_charge_placeholder2" style="width:100%;height:150px"></div></div></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Codon usage</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Organism:</td><td class="AutoAnnotatorCodonUsage3"><i>E. coli</i></td><td class="AutoAnnotatorCodonUsage3"><i>B. subtilis</i></td><td class="AutoAnnotatorCodonUsage3"><i>S. cerevisiae</i></td><td class="AutoAnnotatorCodonUsage3"><i>A. thaliana</i></td><td class="AutoAnnotatorCodonUsage3"><i>P. patens</i></td><td class="AutoAnnotatorCodonUsage3">Mammals</td></tr><tr><td class="AutoAnnotatorCodonUsage1"></td><td class="AutoAnnotatorCodonUsage2">Codon quality (<a href="http://en.wikipedia.org/wiki/Codon_Adaptation_Index">CAI</a>):</td><td class="AutoAnnotatorCodonUsage3">good (0.74)</td><td class="AutoAnnotatorCodonUsage3">good (0.69)</td><td class="AutoAnnotatorCodonUsage3">acceptable (0.57)</td><td class="AutoAnnotatorCodonUsage3">good (0.65)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.85)</td><td class="AutoAnnotatorCodonUsage3">excellent (0.83)</td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Alignments</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">SwissProt:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/P42212'>P42212</a> (95% identity on 238 AAs), <a href='http://www.uniprot.org/uniprot/Q9U6Y3'>Q9U6Y3</a> (26% identity on 217 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">TrEML:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.uniprot.org/uniprot/B6UPG7'>B6UPG7</a> (96% identity on 238 AAs), <a href='http://www.uniprot.org/uniprot/B7UCZ6'>B7UCZ6</a> (96% identity on 238 AAs)</td></tr><tr><td class="AutoAnnotatorAlignment1"></td><td class="AutoAnnotatorAlignment2">PDB:</td><td class="AutoAnnotatorAlignment3"><a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1oxf'>1oxf</a> (98% identity on 225 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1qxt'>1qxt</a> (98% identity on 226 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=1qy3'>1qy3</a> (98% identity on 227 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2awj'>2awj</a> (98% identity on 227 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2hfc'>2hfc</a> (98% identity on 230 AAs), <a href='http://www.rcsb.org/pdb/explore/explore.do?structureId=2wsn'>2wsn</a> (98% identity on 225 AAs)</td></tr></table></td></tr><tr><th id='AutoAnnotatorHeader' colspan="2"><strong>Predictions</strong> (obtained from <a href='http://predictprotein.org'>PredictProtein.org</a>)</th></tr><tr><td class="AutoAnnotatorLocalizationOuter"><strong>Subcellular Localization</strong> (reliability in brackets)<table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Archaea:</td><td class="AutoAnnotatorLocalization3">secreted (100%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Bacteria:</td><td class="AutoAnnotatorLocalization3">cytosol (61%)</td></tr><tr><td class="AutoAnnotatorLocalization1"></td><td class="AutoAnnotatorLocalization2">Eukarya:</td><td class="AutoAnnotatorLocalization3">cytosol (37%)</td></tr></table></td><td class="AutoAnnotatorGOOuter"><strong>Gene Ontology</strong> (reliability in brackets)<br><table class="AutoAnnotatorNoBorder"><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Molecular Function Ontology:</td><td class='AutoAnnotatorGO3'> - </td></tr><tr><td class='AutoAnnotatorGO1'></td><td class='AutoAnnotatorGO2'>Biological Process Ontology:</td><td class='AutoAnnotatorGO3'><a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0018298'>GO:0018298</a> (44%), <a href='http://amigo.geneontology.org/cgi-bin/amigo/term_details?term=GO:0008218'>GO:0008218</a> (31%)</td></tr><tr><td class='AutoAnnotatorGO1'> </td><td class='AutoAnnotatorGO2'> </td><td class='AutoAnnotatorGO3'> </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"><strong>Predicted features:</strong><table class="AutoAnnotatorNoBorder"><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Disulfid bridges:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr><tr><td class="AutoAnnotatorPredFeat1"></td><td class="AutoAnnotatorPredFeat2a">Transmembrane helices:</td><td class="AutoAnnotatorPredFeat3"> - </td></tr></table></td></tr><tr><td class="AutoAnnotator1col" colspan="2"> The BioBrick-AutoAnnotator was created by <a href="https://2013.igem.org/Team:TU-Munich">TU-Munich 2013</a> iGEM team. For more information please see the <a href="https://2013.igem.org/Team:TU-Munich/Results/Software">documentation</a>.<br>If you have any questions, comments or suggestions, please leave us a <a href="https://2013.igem.org/Team:TU-Munich/Results/AutoAnnotator">comment</a>.</td></tr></table></div><br><!-- IMPORTANT: DON'T REMOVE THIS LINE, OTHERWISE NOT SUPPORTED FOR IE BEFORE 9 --><!--[if lte IE 8]><script language="javascript" type="text/javascript" src="excanvas.min.js"></script><![endif]--><script type='text/javascript' src='http://code.jquery.com/jquery-1.10.0.min.js'></script><script type='text/javascript' src='https://2013.igem.org/Team:TU-Munich/Flot.js?action=raw&ctype=text/js'></script><script>function show_or_hide_plot_1380924089945(){hydrophobicity_datapoints = 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= [];trans_datapoints = [];sec_helix_datapoints = [[8,11],[85,89],[138,141],[253,264],[310,319],[488,491]];sec_strand_datapoints = [[17,25],[28,35],[44,52],[63,65],[72,74],[96,104],[109,118],[121,130],[142,146],[152,157],[164,174],[178,186],[196,197],[203,211],[220,234],[238,241],[247,250],[268,276],[280,286],[295,302],[324,325],[347,355],[359,368],[372,382],[393,395],[403,407],[414,425],[430,441],[454,463],[471,482]];acc_exposed_datapoints = [[1,1],[3,3],[5,6],[9,9],[12,14],[16,16],[29,29],[35,35],[37,37],[39,39],[41,42],[44,44],[53,53],[55,55],[79,79],[93,93],[104,106],[108,108],[116,116],[118,120],[129,129],[131,132],[134,136],[138,138],[143,143],[145,145],[159,162],[175,178],[187,188],[190,190],[193,193],[212,217],[219,219],[237,237],[241,241],[243,246],[260,260],[263,264],[267,267],[286,286],[288,288],[290,290],[293,293],[295,295],[304,304],[330,330],[333,334],[344,344],[369,369],[383,383],[386,387],[394,394],[396,398],[400,400],[409,412],[426,427],[429,429],[438,438],[442,446],[448,448],[451,451],[463,470],[486,486],[488,489],[492,494]];acc_buried_datapoints = [[2,2],[4,4],[7,7],[10,11],[15,15],[17,17],[19,19],[21,21],[23,23],[25,25],[27,27],[30,30],[32,32],[34,34],[36,36],[40,40],[43,43],[45,45],[47,47],[49,52],[56,56],[58,71],[73,75],[77,78],[81,81],[86,87],[89,91],[94,94],[100,101],[103,103],[107,107],[109,109],[111,111],[113,113],[115,115],[117,117],[122,122],[124,124],[126,126],[128,128],[130,130],[133,133],[137,137],[139,140],[144,144],[151,157],[163,164],[166,166],[168,168],[170,170],[172,172],[181,182],[195,196],[198,199],[201,206],[220,230],[232,236],[239,239],[251,256],[258,258],[261,262],[265,266],[268,268],[270,270],[272,272],[274,274],[276,279],[281,281],[283,283],[285,285],[287,287],[289,289],[291,291],[294,294],[296,296],[298,298],[300,300],[302,302],[307,322],[324,326],[328,329],[332,332],[337,338],[341,342],[345,347],[351,352],[354,354],[356,360],[362,362],[364,364],[366,366],[368,368],[372,373],[375,375],[377,377],[379,379],[381,382],[384,384],[388,388],[390,391],[395,395],[401,401],[405,407],[414,415],[417,417],[419,419],[421,423],[425,425],[428,428],[430,433],[435,435],[447,447],[449,450],[452,455],[457,457],[459,459],[461,461],[472,472],[474,474],[476,476],[478,478],[480,480],[483,483],[485,485],[490,490]];flot_plot_options = []; flot_plot_options[0] = {grid: {borderWidth: {top: 0,right: 0,bottom: 0,left: 0}},legend: {show: false},xaxes: [{show: true,min: 0,max: 200,ticks: [[0.5, '1'], [24.5, '25'], [49.5, '50'], [74.5, '75'], [99.5, '100'], [124.5, '125'], [149.5, '150'], [174.5, '175'], [199.5, '200']],tickLength: -5}],yaxes: [{show: true,ticks: [[0, '0'], [4.5,'hydro-<br>phobic '], [-4.5,'hydro-<br>philic ']],min: -4.5,max: +4.5,font: {size: 12,lineHeight: 14,style: 'italic',weight: 'bold',family: 'sans-serif',variant: 'small-caps',color: 'rgba(100,149,237,1)'}},{show: true,ticks: [[0, ''], [1,'positive<br> charge'], [-1,'negative<br> charge']],position: 'right',min: -1,max: 1,font: {size: 12,lineHeight: 14,style: 'italic',weight: 'bold',family: 'sans-serif',variant: 'small-caps',color: 'rgba(255,99,71,1)'}}]};number_of_plots = 3;for ( plot_num = 1 ; plot_num < number_of_plots ; plot_num ++){flot_plot_options[plot_num] = $.extend(true, {} ,flot_plot_options[0]);flot_plot_options[plot_num].xaxes = [{min: plot_num*200,max: (plot_num + 1)*200,ticks: [ [plot_num*200 + 0.5, (plot_num*200 + 1).toString()], [plot_num*200 + 24.5, (plot_num*200 + 25).toString()], [plot_num*200 + 49.5, (plot_num*200 + 50).toString()], [plot_num*200 + 74.5, (plot_num*200 + 75).toString()], [plot_num*200 + 99.5, (plot_num*200 + 100).toString()], [plot_num*200 + 124.5, (plot_num*200 + 125).toString()], [plot_num*200 + 149.5, (plot_num*200 + 150).toString()], [plot_num*200 + 174.5, (plot_num*200 + 175).toString()], [plot_num*200 + 199.5, (plot_num*200 + 200).toString()] ],tickLength: -5}];};try {if( $('#AutoAnnotator_container_1380924089945 #hydrophobicity_charge_button').val() =='Show' ){$('#AutoAnnotator_container_1380924089945 #hydrophobicity_charge_container').css('display','block');$('#AutoAnnotator_container_1380924089945 #hydrophobicity_charge_button').val('Hide');var description_html = '<div id=\'AutoAnnotator_plot_selectors\'>';description_html = description_html + '<br> <input type=\'checkbox\' id=\'hydrophobicity_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for hydrophobicity (<img src=\'https://static.igem.org/mediawiki/2013/e/e9/TUM13_hydrophobicity_icon.png\' alt=\'blue graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'charge_checkbox\' checked=\'checked\'> Moving average over 5 amino acids for charge (<img src=\'https://static.igem.org/mediawiki/2013/3/3e/TUM13_charge_icon.png\' alt=\'red graph\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'dis_checkbox\' checked=\'checked\'> Predicted disulfid bridges (<img src=\'https://static.igem.org/mediawiki/2013/2/28/TUM13_dis_icon.png\' alt=\'yellow circle\' height=\'10\'></img>) with the number of the bridge in the center';description_html = description_html + '<br> <input type=\'checkbox\' id=\'trans_checkbox\' checked=\'checked\'> Predicted transmembrane helices (<img src=\'https://static.igem.org/mediawiki/2013/7/78/TUM13_trans_icon.png\' alt=\'turquois bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'sec_checkbox\' checked=\'checked\'> Predicted secondary structure: Helices (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_helix_icon.png\' alt=\'violet bars\' height=\'10\'></img>) and beta-strands (<img src=\'https://static.igem.org/mediawiki/2013/b/bf/TUM13_strand_icon.png\' alt=\'yellow bars\' height=\'10\'></img>)';description_html = description_html + '<br> <input type=\'checkbox\' id=\'acc_checkbox\' checked=\'checked\'> Predicted solvent accessability: Exposed (<img src=\'https://static.igem.org/mediawiki/2013/1/16/TUM13_exposed_icon.png\' alt=\'blue bars\' height=\'10\'></img>) and buried (<img src=\'https://static.igem.org/mediawiki/2013/0/0b/TUM13_buried_icon.png\' alt=\'green bars\' height=\'10\'></img>) residues';description_html = description_html + '<br></div>';$('#AutoAnnotator_container_1380924089945 #hydrophobicity_charge_explanation').html(description_html);plot_according_to_selectors_1380924089945();$('#AutoAnnotator_container_1380924089945 #AutoAnnotator_plot_selectors').find('input').click(plot_according_to_selectors_1380924089945);}else{$('#AutoAnnotator_container_1380924089945 #hydrophobicity_charge_container').css('display','none');$('#AutoAnnotator_container_1380924089945 #hydrophobicity_charge_button').val('Show');$('#AutoAnnotator_container_1380924089945 #hydrophobicity_charge_explanation').html('');}}catch(err){txt='There was an error with the button controlling the visibility of the plot.\n';txt=txt+'The originating error is:\n' + err + '\n\n';alert(txt);}};function plot_according_to_selectors_1380924089945(){try{var plot_datasets = [[],[]];if($('#AutoAnnotator_container_1380924089945 #hydrophobicity_checkbox').prop('checked') == true){plot_datasets[0] = { color: 'rgba(100,149,237,1)',data: hydrophobicity_datapoints,label: 'Hydrophobicity',lines: { show: true, fill: true, fillColor: 'rgba(100,149,237,0.1)' },yaxis: 1};}if($('#AutoAnnotator_container_1380924089945 #charge_checkbox').prop('checked') == true){plot_datasets[1] = {color: 'rgba(255,99,71,1)',data: charge_datapoints,label: 'Charge',lines: { show: true, fill: true, fillColor: 'rgba(255,99,71,0.1)' },yaxis: 2};}for (plot_num = 0 ; plot_num < number_of_plots ; plot_num ++){$.plot('#AutoAnnotator_container_1380924089945 #hydrophobicity_charge_placeholder'+ plot_num.toString(), plot_datasets, flot_plot_options[plot_num] );}var screen_width = $('canvas.flot-base').width(); var pos_of_first_tick = 46;var pos_of_last_tick = screen_width - 51;var tick_diff = (screen_width - 97)/199;if($('#AutoAnnotator_container_1380924089945 #dis_checkbox').prop('checked') == true){for ( j = 0 ; j < dis_datapoints.length ; j++ ){$('#AutoAnnotator_container_1380924089945 #hydrophobicity_charge_placeholder' + 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| ==References:== | | ==References:== |
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