Team:Bielefeld-Germany/Labjournal

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<h1>Journal</h1>
<h1>Journal</h1>
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==Milestones==
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<br><br><br><br>
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==Overview Prologue==
==Overview Prologue==
Line 35: Line 32:
*Starting lab work with the first successful PCR's. The main work however is still in the planning of our project. Designing experiments and a lot of research.  
*Starting lab work with the first successful PCR's. The main work however is still in the planning of our project. Designing experiments and a lot of research.  
*Finding sponsors goes ahead. Many companies like our project and want to support us.
*Finding sponsors goes ahead. Many companies like our project and want to support us.
 +
*Constructing simple fuel cell out of film canisters and testing it with baker's yeast
Line 43: Line 41:
*Successful PCR on OprF gene from'' Pseudomonas fluorescens''. OprF with Pre- and Suffix overlaps could be amplified from genome.  
*Successful PCR on OprF gene from'' Pseudomonas fluorescens''. OprF with Pre- and Suffix overlaps could be amplified from genome.  
*Planning of our [[Team:Bielefeld-Germany/HumanPractice|Human Practice]] projects started and the first participations are fixed.
*Planning of our [[Team:Bielefeld-Germany/HumanPractice|Human Practice]] projects started and the first participations are fixed.
 +
*Planned a new fuel cell model
Line 50: Line 49:
*Problem with cloning delaying the progress in the laboratory.
*Problem with cloning delaying the progress in the laboratory.
*We have published our [http://ekvv.uni-bielefeld.de/blog/uniaktuell/entry/mit_bakterien_batterie_strom_erzeugen first press release] with a great response. The press release was picked up worldwide.
*We have published our [http://ekvv.uni-bielefeld.de/blog/uniaktuell/entry/mit_bakterien_batterie_strom_erzeugen first press release] with a great response. The press release was picked up worldwide.
 +
*Starting labwork on the [https://2013.igem.org/Team:Bielefeld-Germany/Biosafety biosafety project].
 +
*Using the new fuel cell model to conduct experiments with yeast and ''e. coli''.
 +
*Working on creating a 3D-Model for the DIY fuel cell.
Line 61: Line 63:
**OprF Biobrick was functionalized with different promotors and RBS: (<bbpart>BBa_K1172502</bbpart>, <bbpart>BBa_K1172503</bbpart>, <bbpart>BBa_K1172504</bbpart>, <bbpart>BBa_K1172505</bbpart>, <bbpart>BBa_K1172507</bbpart>)
**OprF Biobrick was functionalized with different promotors and RBS: (<bbpart>BBa_K1172502</bbpart>, <bbpart>BBa_K1172503</bbpart>, <bbpart>BBa_K1172504</bbpart>, <bbpart>BBa_K1172505</bbpart>, <bbpart>BBa_K1172507</bbpart>)
*Successful protein expression and overproduction of glycerol dehydrogenase. SDS-PAGE shows GldA at expected size.
*Successful protein expression and overproduction of glycerol dehydrogenase. SDS-PAGE shows GldA at expected size.
-
 
+
*We have produced a knockout. This AraC-Deletion in K12 Δalr Δdadx causes that this K12 E.coli can't produce AraC of itself and that it is dependent of the supplementation of D-alanine or the supplementation of a vector where araC is expressed.
-
 
+
*We started the wet-lab work on riboflavins by isolating the ''rib''-gene-cluster form the genomic sequence of ''shewanelle oneidensis''
 +
*Optimizing measurement setup and electrode design for the 2nd generation fuel cell
 +
*Working at hackerspace bielefeld to print out fuel cells with a 3D-printer
==Overview September==
==Overview September==
Line 72: Line 76:
*Great characterization of outer membrane porin OprF
*Great characterization of outer membrane porin OprF
-
**Successful [[Team:Bielefeld-Germany/Labjournal/Molecular#Hexadecan Assay|Hexadecan-Assay]] for characterization of hydrophobicity of the outer membrane. The hydrophobicity increases continuously with increasing promoter strength up to 221% hydrophobizity in contrast to wildtyp strain.
+
**Successful [[Team:Bielefeld-Germany/Labjournal/Molecular#Hexadecan Assay|Hexadecan-Assay]] for characterization of hydrophobicity of the outer membrane. The hydrophobicity increases continuously with increasing promoter strength up to 221% hydrophobizity in contrast to the wild type.
** [[Team:Bielefeld-Germany/Labjournal/Molecular#ONPG membrane permeability|ONPG]] and [[Team:Bielefeld-Germany/Labjournal/Molecular#NPN membrane permeability assay|NPN uptake assays]] were performed. Membrane permeability is continuously increasing for Escherichia coli with heterologeous expression of OprF.
** [[Team:Bielefeld-Germany/Labjournal/Molecular#ONPG membrane permeability|ONPG]] and [[Team:Bielefeld-Germany/Labjournal/Molecular#NPN membrane permeability assay|NPN uptake assays]] were performed. Membrane permeability is continuously increasing for Escherichia coli with heterologeous expression of OprF.
-
**According to AFM images, ''E. coli'' KRX with OprF shows a slightly rougher cell surface morphology in contrast to ''Escherichia coli'' KRX Wildtyp, which confirms the results.
+
**According to AFM images, ''E. coli'' KRX with OprF shows a slightly rougher cell surface morphology in contrast to ''Escherichia coli'' KRX wild type, which confirms the results.
**We can see a strong overexpression band on SDS-PAGE at the expected OprF size of about 36 kDa which is equated with a strong expression and overproduction of OprF. Furthermore outer membrane porin was examined by [[Team:Bielefeld-Germany/Labjournal/Molecular#MALDI-TOF|MALDI-TOF MS/MS]] with a Mascot Score of 222 against bacteria database.
**We can see a strong overexpression band on SDS-PAGE at the expected OprF size of about 36 kDa which is equated with a strong expression and overproduction of OprF. Furthermore outer membrane porin was examined by [[Team:Bielefeld-Germany/Labjournal/Molecular#MALDI-TOF|MALDI-TOF MS/MS]] with a Mascot Score of 222 against bacteria database.
   
   
 +
 +
*Created the MtrCAB BioBrick <bbpart>K1172401</bbpart>
 +
*Engineered MtrCAB devices with different promotors and RBS: (<bbpart>BBa_K1172403</bbpart>, <bbpart>BBa_K1172404</bbpart>, <bbpart>BBa_K1172405</bbpart>)
 +
*We supported the [[Team:Bielefeld-Germany/Human Practice/Student Academy|CeBiTec student academy]] with supervising the ‘Synthetic Biology’ experiment and the [[Team:Bielefeld-Germany/Human Practice/Day of Synthetic Biology|day of synthetic biology]] in the city of Bielefeld.  
*We supported the [[Team:Bielefeld-Germany/Human Practice/Student Academy|CeBiTec student academy]] with supervising the ‘Synthetic Biology’ experiment and the [[Team:Bielefeld-Germany/Human Practice/Day of Synthetic Biology|day of synthetic biology]] in the city of Bielefeld.  
*Our team assigned the Track Food & Energy in this year, with the project title ‘Ecolectricity – currently available’.
*Our team assigned the Track Food & Energy in this year, with the project title ‘Ecolectricity – currently available’.
 +
<br>
 +
*We successfully produced the alanine racemase biobrick <bbpart>BBa_K1172901</bbpart> also with ptac promoter (<bbpart>BBa_K1172902</bbpart>), with double terminator (<bbpart>BBa_K1172903</bbpart>) and the Barnase biobrick <bbpart>BBa_K1172904</bbpart>.
 +
*We successfully produced our biosafety systems araCtive (<bbpart>BBa_K1172909</bbpart>), TetOR alive (<bbpart>BBa_K1172915</bbpart>) and lac of growth (<bbpart>BBa_K1172908</bbpart>).
 +
 +
 +
* Riboflavin synthesis gene-cluster brought to BioBrick form <bbpart>BBa_K1172303</bbpart> and equipped with three different promoters, resulting in three new devices:
 +
:*<bbpart>BBa_K608002</bbpart> + <bbpart>BBa_K1172303</bbpart> = <bbpart>BBa_K1172306</bbpart>
 +
:*<bbpart>BBa_K608006</bbpart> + <bbpart>BBa_K1172303</bbpart> = <bbpart>BBa_K1172305</bbpart>
 +
:*<bbpart>BBa_K525998</bbpart> + <bbpart>BBa_K1172303</bbpart> = <bbpart>BBa_K1172304</bbpart>
 +
* Characterization of <bbpart>BBa_K1172303</bbpart>  starts with absorbance measurement of produced riboflavin.
 +
* Potential riboflavin supplementary genes ''norM'' and ''ribC'' converted to BioBrick standard:
 +
:* <bbpart>BBa_K1172301</bbpart>
 +
:* <bbpart>BBa_K1172302</bbpart>
 +
 +
*Testing different compositions of M9 minimal medium und anaerobic conditions
 +
*Building a 3rd generation fuel cell design and using it to measure the effects of our biobricks on power output
 +
*Conforming that PLA and ABS plastics (used for 3D-printing) are not toxic to our cells
 +
*Desiging and printing final model of the DIY fuel cell
Line 87: Line 113:
*Successful cultivations of ''Escherichia coli'' KRX with OprF and GldA in our Microbial Fuel Cell.
*Successful cultivations of ''Escherichia coli'' KRX with OprF and GldA in our Microbial Fuel Cell.
** NADH overproduction for the GldA strain improves extracellular electron transfer mediated by NADH and resulting in an 20 % increased bioelectricity output.
** NADH overproduction for the GldA strain improves extracellular electron transfer mediated by NADH and resulting in an 20 % increased bioelectricity output.
-
**''Escherichia coli'' KRX with OprF shows 100 % higher voltage and electric charge than ''E. coli Wildtyp''. Electron shuttle-mediated electron transfer across the membrane is greatly improved by heterologous expression of outer membrane porin OprF.
+
**''Escherichia coli'' KRX with OprF shows 100 % higher voltage and electric charge than ''E. coli wild type''. Electron shuttle-mediated electron transfer across the membrane is greatly improved by heterologous expression of outer membrane porin OprF.
 +
<br>
 +
* Our preferred riboflavin production strain, ''E. coli'' KRX equipped with <bbpart>BBa_K1172306</bbpart> , was thouroughly characterized.
 +
:* The overexpression of Riboflavin synthase beta subunit RibE, which belongs to the ''rib''-gene-cluster <bbpart>BBa_K1172303</bbpart> . was examined by [[Team:Bielefeld-Germany/Labjournal/Molecular#MALDI-TOF|MALDI-TOF MS/MS]] with a Mascot Score of 906 against the NCBI database.
 +
:* We proofed the production of riboflavin qualitatively through LC/MS measurement.
 +
:* Measuring the fluorescence of supernatant samples from our riboflavin production strain together with riboflavin solutions of known concentration enabled us to make predications regarding the amount of riboflavin produced by our strain.
 +
:* Measurement of supernatant samples from our riboflavin production strain against wild type samples with HPLC confirmed an approximately 60fold overexpression of riboflavin and backed up our result from fluorescence and absorbance measurements.
 +
*Using the 3rd generation fuel cell to measure the effects of our biobricks on power output
 +
<br>
 +
*European Jamboree:
 +
**Advance to Championship
 +
**Best Presentation, Europe, Overgrad
 +
**Regional Finalist, Europe, Overgrad
 +
**Grand Prize Winner, Europe, Overgrad
-
</div>
 
 +
===Since Regional===
 +
<p align="justify">
 +
:*We constructed new devices by combination of the mediator producing parts (riboflavin synthesis gene cluster and glycerol dehydrogenase) with the oprF coding sequence as well as oprF under control of the T7 promoter.
 +
:*We build a fuel cell with a Ag/AgCl reference electrode and carried out experiments to learn more about the reactions taking place in the fuel cells cathode chamber.
 +
:*In order to test the effect of the protein expression of the [https://2013.igem.org/Team:Bielefeld-Germany/Project/Porins#Growth_characteristics outer membrane porin OprF] and the [https://2013.igem.org/Team:Bielefeld-Germany/Project/GldA#Growth_characteristics glycerol dehydrogenase GldA] on the cell growth, growth was measured as increase in optical density and plotted against time.
 +
:*We got in touch with several more [https://2013.igem.org/Team:Bielefeld-Germany/Human_Practice/Experts experts].
 +
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Latest revision as of 01:47, 29 October 2013



Journal



Overview Prologue

  • The iGEM-Team Bielefeld 2013 started working and decided to deal with the project 'Microbial Fuel Cell'.


Overview May

  • Initiating labwork on the sub-project endogenous mediator Glycerol dehydrogenase.
  • Starting lab work with the first successful PCR's. The main work however is still in the planning of our project. Designing experiments and a lot of research.
  • Finding sponsors goes ahead. Many companies like our project and want to support us.
  • Constructing simple fuel cell out of film canisters and testing it with baker's yeast


Overview June

  • Starting labwork on the sub-project Porins.
  • Successful PCR on OprF gene from Pseudomonas fluorescens. OprF with Pre- and Suffix overlaps could be amplified from genome.
  • Planning of our Human Practice projects started and the first participations are fixed.
  • Planned a new fuel cell model


Overview July

  • Poster presentation at the congress ‘[http://www.biotechnologie2020plus.de Next generation of biotechnological processes 2020+]’ in Berlin.
  • Sponsoring acquisition is nearly finished.
  • Problem with cloning delaying the progress in the laboratory.
  • We have published our [http://ekvv.uni-bielefeld.de/blog/uniaktuell/entry/mit_bakterien_batterie_strom_erzeugen first press release] with a great response. The press release was picked up worldwide.
  • Starting labwork on the biosafety project.
  • Using the new fuel cell model to conduct experiments with yeast and e. coli.
  • Working on creating a 3D-Model for the DIY fuel cell.


Overview August

  • Our great expert Dr. Falk Harnisch has answered numerous questions about our project and helped us very well.
  • GldA BioBrick (<bbpart>BBa_K1172201</bbpart>) was examined.
    • GldA Biobrick Devices with different promotors and RBS could be added: (<bbpart>BBa_K1172203</bbpart>, <bbpart>BBa_K1172204</bbpart>, <bbpart>BBa_K1172205</bbpart>)
  • OprF BioBrick (<bbpart>BBa_K1172501</bbpart>) is available.
    • OprF Biobrick was functionalized with different promotors and RBS: (<bbpart>BBa_K1172502</bbpart>, <bbpart>BBa_K1172503</bbpart>, <bbpart>BBa_K1172504</bbpart>, <bbpart>BBa_K1172505</bbpart>, <bbpart>BBa_K1172507</bbpart>)
  • Successful protein expression and overproduction of glycerol dehydrogenase. SDS-PAGE shows GldA at expected size.
  • We have produced a knockout. This AraC-Deletion in K12 Δalr Δdadx causes that this K12 E.coli can't produce AraC of itself and that it is dependent of the supplementation of D-alanine or the supplementation of a vector where araC is expressed.
  • We started the wet-lab work on riboflavins by isolating the rib-gene-cluster form the genomic sequence of shewanelle oneidensis
  • Optimizing measurement setup and electrode design for the 2nd generation fuel cell
  • Working at hackerspace bielefeld to print out fuel cells with a 3D-printer

Overview September

  • Successful characterization of Glycerol dehydrogenase
    • NADH-Assays show an increasing intra- and extracellular NADH concentration for Escherichia coli KRX with overexpression of glycerol dehydrogenase.
    • Glycerol dehydrogenase was examined by MALDI-TOF MS/MS with a Mascot Score of 266 against Escherichia coli database.


  • Great characterization of outer membrane porin OprF
    • Successful Hexadecan-Assay for characterization of hydrophobicity of the outer membrane. The hydrophobicity increases continuously with increasing promoter strength up to 221% hydrophobizity in contrast to the wild type.
    • ONPG and NPN uptake assays were performed. Membrane permeability is continuously increasing for Escherichia coli with heterologeous expression of OprF.
    • According to AFM images, E. coli KRX with OprF shows a slightly rougher cell surface morphology in contrast to Escherichia coli KRX wild type, which confirms the results.
    • We can see a strong overexpression band on SDS-PAGE at the expected OprF size of about 36 kDa which is equated with a strong expression and overproduction of OprF. Furthermore outer membrane porin was examined by MALDI-TOF MS/MS with a Mascot Score of 222 against bacteria database.


  • Created the MtrCAB BioBrick <bbpart>K1172401</bbpart>
  • Engineered MtrCAB devices with different promotors and RBS: (<bbpart>BBa_K1172403</bbpart>, <bbpart>BBa_K1172404</bbpart>, <bbpart>BBa_K1172405</bbpart>)


  • We supported the CeBiTec student academy with supervising the ‘Synthetic Biology’ experiment and the day of synthetic biology in the city of Bielefeld.
  • Our team assigned the Track Food & Energy in this year, with the project title ‘Ecolectricity – currently available’.


  • We successfully produced the alanine racemase biobrick <bbpart>BBa_K1172901</bbpart> also with ptac promoter (<bbpart>BBa_K1172902</bbpart>), with double terminator (<bbpart>BBa_K1172903</bbpart>) and the Barnase biobrick <bbpart>BBa_K1172904</bbpart>.
  • We successfully produced our biosafety systems araCtive (<bbpart>BBa_K1172909</bbpart>), TetOR alive (<bbpart>BBa_K1172915</bbpart>) and lac of growth (<bbpart>BBa_K1172908</bbpart>).


  • Riboflavin synthesis gene-cluster brought to BioBrick form <bbpart>BBa_K1172303</bbpart> and equipped with three different promoters, resulting in three new devices:
  • <bbpart>BBa_K608002</bbpart> + <bbpart>BBa_K1172303</bbpart> = <bbpart>BBa_K1172306</bbpart>
  • <bbpart>BBa_K608006</bbpart> + <bbpart>BBa_K1172303</bbpart> = <bbpart>BBa_K1172305</bbpart>
  • <bbpart>BBa_K525998</bbpart> + <bbpart>BBa_K1172303</bbpart> = <bbpart>BBa_K1172304</bbpart>
  • Characterization of <bbpart>BBa_K1172303</bbpart> starts with absorbance measurement of produced riboflavin.
  • Potential riboflavin supplementary genes norM and ribC converted to BioBrick standard:
  • <bbpart>BBa_K1172301</bbpart>
  • <bbpart>BBa_K1172302</bbpart>
  • Testing different compositions of M9 minimal medium und anaerobic conditions
  • Building a 3rd generation fuel cell design and using it to measure the effects of our biobricks on power output
  • Conforming that PLA and ABS plastics (used for 3D-printing) are not toxic to our cells
  • Desiging and printing final model of the DIY fuel cell


Overview October

  • Successful cultivations of Escherichia coli KRX with OprF and GldA in our Microbial Fuel Cell.
    • NADH overproduction for the GldA strain improves extracellular electron transfer mediated by NADH and resulting in an 20 % increased bioelectricity output.
    • Escherichia coli KRX with OprF shows 100 % higher voltage and electric charge than E. coli wild type. Electron shuttle-mediated electron transfer across the membrane is greatly improved by heterologous expression of outer membrane porin OprF.


  • Our preferred riboflavin production strain, E. coli KRX equipped with <bbpart>BBa_K1172306</bbpart> , was thouroughly characterized.
  • The overexpression of Riboflavin synthase beta subunit RibE, which belongs to the rib-gene-cluster <bbpart>BBa_K1172303</bbpart> . was examined by MALDI-TOF MS/MS with a Mascot Score of 906 against the NCBI database.
  • We proofed the production of riboflavin qualitatively through LC/MS measurement.
  • Measuring the fluorescence of supernatant samples from our riboflavin production strain together with riboflavin solutions of known concentration enabled us to make predications regarding the amount of riboflavin produced by our strain.
  • Measurement of supernatant samples from our riboflavin production strain against wild type samples with HPLC confirmed an approximately 60fold overexpression of riboflavin and backed up our result from fluorescence and absorbance measurements.
  • Using the 3rd generation fuel cell to measure the effects of our biobricks on power output


  • European Jamboree:
    • Advance to Championship
    • Best Presentation, Europe, Overgrad
    • Regional Finalist, Europe, Overgrad
    • Grand Prize Winner, Europe, Overgrad



Since Regional

  • We constructed new devices by combination of the mediator producing parts (riboflavin synthesis gene cluster and glycerol dehydrogenase) with the oprF coding sequence as well as oprF under control of the T7 promoter.
  • We build a fuel cell with a Ag/AgCl reference electrode and carried out experiments to learn more about the reactions taking place in the fuel cells cathode chamber.
  • In order to test the effect of the protein expression of the outer membrane porin OprF and the glycerol dehydrogenase GldA on the cell growth, growth was measured as increase in optical density and plotted against time.
  • We got in touch with several more experts.



Contents