Template:Team:Bonn:NetworkData

content.summary= "The LOV-ipaA -vinculin system is a combined system for light inducible heterodimerisation. This powerful tool, which allows photocontroled complex formation was establish by Lungu et al. in 2012.";

content.summary= "The LOV-ipaA -vinculin system is a combined system for light inducible heterodimerisation. This powerful tool, which allows photocontroled complex formation was establish by Lungu et al. in 2012.";

content.text= "<b><a href='#1'>1. 3A – Assembly</a></b></br></br><b><a href='#2'>2. Agarose preparation</a></b></br></br><b><a href='#3'>3.Agarose gel casting</a></b></br></br><b><a href='#4'>4.loading the agarose gel and starting electrophoresis</a></b></br></br><b><a href='#5'>5. Preparation of Antibiotic stocks</a></b></br></br><b><a href='#6'>6. Colony PCR</a></b></br></br><b><a href='#7'>7. Preparation of Glycerol Stocks (iGEM) </a></b></br></br><b><a href='#8'>8.Plasmid Preparation </a></b></br></br><b><a href='#8a'>8a. Midi-Prep (Promega)</a></b></br></br><b><a href='#8b'>8b. Mini-Prep (Promega)</a></b></br></br><b><a href='#9'>9.Preparation of LB agar plates</a></b></br></br><b><a href='#10'>10. PCR - Clean-Up (Macherey und Nagel)</a></b></br></br><b><a href='#11'>11. Preparation of chemocompetent DH5-alpha cells</a></b></br></br><b><a href='#12'>12. Re-transformation of BioBricks</a></b></br></br><b><a href='#13'>13. Strand directed Mutagenesis PCR</a></b></br></br><b><a href='#14'>14. Transformation using Ligation product (in DH5alpha or XL1Blue) </a></b></br></br></br></br><h2><a name='1'>1. 3A – Assembly</a></h2><hr><i>NOTE: Enzymes and buffers were provided by Promega </i></br></br><b>Restriction (50 &micro;l Reaction)</b></br>- 25 &micro;l Mastermix Restriction-Enzyme Buffer (2x, with BSA)</br>- add 1 &micro;l from every restriction enzyme to 500ng backbone equimolar DNA</br>- fill up to 50 &micro;l dest. water</br>- incubate for 1.5h-3h at 37&ordm;C </br>- inactivate for 20min at 70&ordm;C (no clean-up, if directly used for ligation) </br></br><b>Ligation (20 &micro;l Reaction)</b></br>- 2,0 &micro;l equimolare restriction samples (inserts)</br>- 20ng/1.5 &micro;l backbone</br>- fill up to 17.7  &micro;l with dest. water</br>- incubate 5min at 37&ordm;C</br>- add 2 &micro;l Ligation buffer (10x) and 0.3 &micro;l T4 DNA Ligase </br>- incubate for 3h RT or 15&ordm;C over night </br>- inactivate for 10min at 70&ordm;C</br></br></br><h2><a name='2'>2.Agarose preparation</a></h2><hr><b>Materials:</b></br>- Agarose </br>- 500ml bottle</br>- TBE (1x)</br></br><b>Procedure:</b></br>- dissolve 1g agarose in 100ml TBE (1x), resulting in 1% agarose</br>- heat for 2 minutes in a microwave at maximal power</br>- mix</br>- cook until it boils (1 min)</br>- mix carefully</br><i>2 clues for a successful boiling: 1. no cords, 2. boiling retardation</i></br>- store in 65&ordm;C incubator</br></br></br><h2><a name='3'>3.Agarose gel casting</a></h2><hr>- assemble the gel chamber (chamber + 2 fences + 1 - 2 gel combs ) under the ethidiumbromid hood</br>- prepare 50ml falcon tube (label it!)</br>- fill 40ml warm agarose in the falcon tube</br>- add 4 &micro;l  ethidiumbromid (1:10.000) under the ethidiumbromid hood</br>- mix by inverting 2-3 times</br>- fill agarose in the gel chamber</br>- wait until the gel becomes solid (about 20minutes)</br></br></br><h2><a name='4'>4.loading the agarose gel and starting electrophoresis</a></h2><hr>- add LoadingDye (1:6) to your sample</br>- remove comb and fence from the gel</br>- place agarose gel in the electrophoresis chamber</br>- pipette samples carefully in the pockets (small pockets: up to 20 &micro;l, big pockets: up to 50 &micro;l)</br>- Place lid on the electrophoresis chamber and connect the electrodes to it.</br>- set parameters (high resolution: 120V, 20-30minutes, low resolution: 130V, 15min)</br>- evaluate gel under UV-light</br></br></br><h2><a name='5'>5. Preparation of Antibiotic stocks</a></h2><hr><b>Ampicillin:</b></br>- dissolve 100 mg ampicillin in 1 ml dest. water</br>- store at 20 &ordm;C</br></br><b>Chloramphenicol:</b></br>- dissolve 18 mg chloramphenicol in 1 ml ethanol</br>- store at 20 &ordm;C</br></br></br><h2><a name='6'>6. Colony PCR</a></h2><hr>- inoculate 10 &micro;l dest. water with colony.</br>- use 1  &micro;l of this water for one reaction:</br><img src='https://static.igem.org/mediawiki/2013/9/91/Bonn_MS_Methods1.png' width='550px'></br></br></br><h2><a name='7'>7.Preparation of Glycerol Stocks (iGEM)</a></h2><hr>- autoclave glycerol (60%)</br>- add 0,5 ml Glycerol to 1,5 ml cell culture in a cryo tube</br>- mix</br>- shock freeze in liquid nitrogen</br>- store at -80 &ordm;C</br></br></br><h2><a name='8'>8. Plasmid Preparation</a></h2><hr><h2><a name='8a'>8a. Midi-Prep (Promega)</a></h2><hr>- centrifuge 50 ml of liquid cell culture for 10min at 5000g </br>- decant supernatant</br>- resuspend with 3 ml resuspension solution </br>- add 3 ml cell lysis solution and incubate for maximal 3 min at room temperature </br>- add 5 ml neutralization solution </br>- centrifuge for 20 min at 20 &ordm;C, 5000g </br>- vacuum pump lysat through cleaning column into binding column </br>- abolish cleaning column</br>- vacuum pump with 10 ml endotoxin removal wash solution</br>- vacuum pump with 20 ml column wash solution</br>- dry membrane by vacuum</br>- add 600  &micro;l nuclease free water on membrane</br>- centrifuge for 5 min at 1750 g into a fresh tube</br></br></br><h2><a name='8b'>8b. Mini-Prep (Promega)</a></h2><hr>- fill 1,5 ml overnight-culture in a new tube</br>- centrifuge for 30 seconds at maximal speed </br>- decant supernatant</br>- Repeat previous steps 2-5 times (depending on growth density)</br>- resuspend with 600  &micro;l dest water </br>- add 100  &micro;l cell lysis buffer </br>- after 1min (maximum 2min) add 350  &micro;l of neutralization buffer </br>- centrifuge 3min at maximal speed</br>- place mini column in a collection tube and transfer supernatant into PureYield^TM Mini column</br>- centrifuge for 15 sec at maximal speed</br>- add 200  &micro;l Endotoxin Removal Wash</br>- centrifuge for 15 sec at maximal speed</br>- add 400  &micro;l column Wash solution</br>- centrifuge for 30 sec at maximal speed</br>- place mini column in a new tube</br>- add 30  &micro;l elution buffer to the mini column, incubation at RT for 1 min</br>- centrifuge for 15 seconds at maximal speed </br>- store DNA at -20 &ordm;C</br></br></br><h2><a name='9'>9. Preparation of LB agar plates</a></h2><hr>1l LB agar will result in approximately 30 plates</br></br>- dissolve 15g agar and 20g LB in 1l dest. Water</br>- autoclave</br>- cool down to 60-70&ordm;C </br>- add antibiotics (1:1000) under the laminar airflow cabinet</br>- mix</br>- cast plates (approximately  20ml / plate)</br>- dry for 2h by room temperature</br>- store at 4&ordm;C</br></br></br><h2><a name='10'>10. PCR - Clean-Up (Macherey und Nagel) </a></h2><hr><b>Gel Extraction: </b></br>1. add double amount NTI to gel</br>2. Incubate 3-7minutes at 50&ordm;C and at 1000rpm (until gel is dissolved)</br>- continue with regular Clean-up Protocol (from step 3.) </br></br><b>Cleanup: </b></br>1. fill up sample with dest. water to 50 &micro;l, if necessary</br>2. add double amount NTI to the sample</br>3. place column in a collection and add transfer solution to the column</br>4. centrifuge 30 seconds at 11.000g and discard flow through </br>5. add 700 &micro;l NT3 </br>6. centrifuge 30 seconds at 11.000g and discard flow through </br>7. repeat step 5) and 6)</br>8. centrifuge 1minute at 11.000g</br>9. place column in a new tube and dry column at 70&ordm;C for 5min</br></br>small parts (<1000bp): </br>9a. place column in a new tube and add 30 &micro;l Elution buffer </br>9b. incubate 1min at room temperature</br>9c. Centrifuge 1minute at 11.000g </br></br>Bigger Parts: (>1000bp) </br>9A. place column in a new tube and add 20 &micro;l Elution buffer </br>9B. incubate at 70&ordm;C for 5minutes </br>9C. centrifuge at 50g for 1minute</br>9D. centrifuge at 11.000g for 1minute</br>9E. repeat step 9A. to 9D.</br></br></br><h2><a name='11'>11. Preparation of chemocompetent DH5-alpha cells</a></h2><hr>- Start with 200 ml Overnight culture with OD₆₀₀ of 0,6-0,8</br>- centrifuge at 4 &ordm;C, 4500 g, 10 minutes </br>- decant supernatant</br>- resuspend with 40 ml inoune transformation buffer </br>- centrifuge at 4 &ordm;C, 4500 g, 10 minutes </br>- decant supernatant</br>- resuspend in 20 ml inoune transformation buffer </br>- add 1,5 ml DMSO</br>- incubate 10 minutes on ice</br>- transfer 100 – 200 &micro;l into precooled tubes</br>- shock freeze in liquid nitrogen</br></br></br><h2><a name='12'> 12. Re-transformation of Bio Bricks</a></h2><hr>- add 10  &micro;l sterile dest water to DNA on plate </br>- incubate for 10 min at RT</br>- take 2  &micro;l, leave rest on plate </br>- store plates at -20 &ordm;C </br>- add the 2  &micro;l DNA solution to 5  &micro;l competent DH5-alpha</br>- incubate for 30 min on ice </br>- heat shock for 45 s at 42 &ordm;C </br>- incubate 3 min on ice </br>- add 250  &micro;l LB medium at 37 &ordm;C </br>- incubate for 45 min at 37 &ordm;C, 800 rpm </br>- plate 300 &micro;l on Agar-plate with appropriate antibiotic </br>- dry 15min at RT</br>- incubate at 37&ordm;C over night</br></br></br><h2><a name='13'> 13. Strand directed Mutagenesis PCR</a></h2><hr>Prepare master mix and add template as follows: </br><img src='https://static.igem.org/mediawiki/2013/b/b6/Bonn_MS_Methods2.png' width='550px'></br>- start PCR-Program: </br>1. initial denaturation 94&ordm;C for 120 seconds </br>2. Denaturating 94&ordm;C for 30 seconds</br>3. Annealing 94&ordm;C for 30 seconds</br>4. Elongation 68 for 720 seconds</br>5. Repeat step 2) to 4) 12x </br></br></br><h2><a name='14'>14. Transformation using Ligation product (in DH5alpha or XL1Blue) </a></h2><hr>- thaw bacteria on ice </br>- add 2-4 &micro;l Ligation mixture to 50 &micro;l bacteria</br>- incubate 30minutes on ice </br>- heat shock 30-45 seconds (XL1Blue preferably 35 seconds) at 42&ordm;C</br>- incubate 6min on ice</br>- add 250 &micro;l LB medium at 37&ordm;C</br>- incubate for 45minutes at 37&ordm;C, 800rpm </br>- plate 300 &micro;l on appropriate antibiotic</br>- dry 15 minutes at RT</br>- incubate at 37&ordm;C over night</br>";

content.text= "<b><a href='#1'>1. 3A – Assembly</a></b></br></br><b><a href='#2'>2. Agarose preparation</a></b></br></br><b><a href='#3'>3.Agarose gel casting</a></b></br></br><b><a href='#4'>4.loading the agarose gel and starting electrophoresis</a></b></br></br><b><a href='#5'>5. Preparation of Antibiotic stocks</a></b></br></br><b><a href='#6'>6. Colony PCR</a></b></br></br><b><a href='#7'>7. Preparation of Glycerol Stocks (iGEM) </a></b></br></br><b><a href='#8'>8.Plasmid Preparation </a></b></br></br><b><a href='#8a'>8a. Midi-Prep (Promega)</a></b></br></br><b><a href='#8b'>8b. Mini-Prep (Promega)</a></b></br></br><b><a href='#9'>9.Preparation of LB agar plates</a></b></br></br><b><a href='#10'>10. PCR - Clean-Up (Macherey und Nagel)</a></b></br></br><b><a href='#11'>11. Preparation of chemocompetent DH5-alpha cells</a></b></br></br><b><a href='#12'>12. Re-transformation of BioBricks</a></b></br></br><b><a href='#13'>13. Strand directed Mutagenesis PCR</a></b></br></br><b><a href='#14'>14. Transformation using Ligation product (in DH5alpha or XL1Blue) </a></b></br></br></br></br><h2><a name='1'>1. 3A – Assembly</a></h2><hr><i>NOTE: Enzymes and buffers were provided by Promega </i></br></br><b>Restriction (50 &micro;l Reaction)</b></br>- 25 &micro;l Mastermix Restriction-Enzyme Buffer (2x, with BSA)</br>- add 1 &micro;l from every restriction enzyme to 500ng backbone equimolar DNA</br>- fill up to 50 &micro;l dest. water</br>- incubate for 1.5h-3h at 37&ordm;C </br>- inactivate for 20min at 70&ordm;C (no clean-up, if directly used for ligation) </br></br><b>Ligation (20 &micro;l Reaction)</b></br>- 2,0 &micro;l equimolare restriction samples (inserts)</br>- 20ng/1.5 &micro;l backbone</br>- fill up to 17.7  &micro;l with dest. water</br>- incubate 5min at 37&ordm;C</br>- add 2 &micro;l Ligation buffer (10x) and 0.3 &micro;l T4 DNA Ligase </br>- incubate for 3h RT or 15&ordm;C over night </br>- inactivate for 10min at 70&ordm;C</br></br></br><h2><a name='2'>2.Agarose preparation</a></h2><hr><b>Materials:</b></br>- Agarose </br>- 500ml bottle</br>- TBE (1x)</br></br><b>Procedure:</b></br>- dissolve 1g agarose in 100ml TBE (1x), resulting in 1% agarose</br>- heat for 2 minutes in a microwave at maximal power</br>- mix</br>- cook until it boils (1 min)</br>- mix carefully</br><i>2 clues for a successful boiling: 1. no cords, 2. boiling retardation</i></br>- store in 65&ordm;C incubator</br></br></br><h2><a name='3'>3.Agarose gel casting</a></h2><hr>- assemble the gel chamber (chamber + 2 fences + 1 - 2 gel combs ) under the ethidiumbromid hood</br>- prepare 50ml falcon tube (label it!)</br>- fill 40ml warm agarose in the falcon tube</br>- add 4 &micro;l  ethidiumbromid (1:10.000) under the ethidiumbromid hood</br>- mix by inverting 2-3 times</br>- fill agarose in the gel chamber</br>- wait until the gel becomes solid (about 20minutes)</br></br></br><h2><a name='4'>4.loading the agarose gel and starting electrophoresis</a></h2><hr>- add LoadingDye (1:6) to your sample</br>- remove comb and fence from the gel</br>- place agarose gel in the electrophoresis chamber</br>- pipette samples carefully in the pockets (small pockets: up to 20 &micro;l, big pockets: up to 50 &micro;l)</br>- Place lid on the electrophoresis chamber and connect the electrodes to it.</br>- set parameters (high resolution: 120V, 20-30minutes, low resolution: 130V, 15min)</br>- evaluate gel under UV-light</br></br></br><h2><a name='5'>5. Preparation of Antibiotic stocks</a></h2><hr><b>Ampicillin:</b></br>- dissolve 100 mg ampicillin in 1 ml dest. water</br>- store at 20 &ordm;C</br></br><b>Chloramphenicol:</b></br>- dissolve 18 mg chloramphenicol in 1 ml ethanol</br>- store at 20 &ordm;C</br></br></br><h2><a name='6'>6. Colony PCR</a></h2><hr>- inoculate 10 &micro;l dest. water with colony.</br>- use 1  &micro;l of this water for one reaction:</br><img src='https://static.igem.org/mediawiki/2013/9/91/Bonn_MS_Methods1.png' width='550px'></br></br></br><h2><a name='7'>7.Preparation of Glycerol Stocks (iGEM)</a></h2><hr>- autoclave glycerol (60%)</br>- add 0,5 ml Glycerol to 1,5 ml cell culture in a cryo tube</br>- mix</br>- shock freeze in liquid nitrogen</br>- store at -80 &ordm;C</br></br></br><h2><a name='8'>8. Plasmid Preparation</a></h2><hr><h2><a name='8a'>8a. Midi-Prep (Promega)</a></h2><hr>- centrifuge 50 ml of liquid cell culture for 10min at 5000g </br>- decant supernatant</br>- resuspend with 3 ml resuspension solution </br>- add 3 ml cell lysis solution and incubate for maximal 3 min at room temperature </br>- add 5 ml neutralization solution </br>- centrifuge for 20 min at 20 &ordm;C, 5000g </br>- vacuum pump lysat through cleaning column into binding column </br>- abolish cleaning column</br>- vacuum pump with 10 ml endotoxin removal wash solution</br>- vacuum pump with 20 ml column wash solution</br>- dry membrane by vacuum</br>- add 600  &micro;l nuclease free water on membrane</br>- centrifuge for 5 min at 1750 g into a fresh tube</br></br></br><h2><a name='8b'>8b. Mini-Prep (Promega)</a></h2><hr>- fill 1,5 ml overnight-culture in a new tube</br>- centrifuge for 30 seconds at maximal speed </br>- decant supernatant</br>- Repeat previous steps 2-5 times (depending on growth density)</br>- resuspend with 600  &micro;l dest water </br>- add 100  &micro;l cell lysis buffer </br>- after 1min (maximum 2min) add 350  &micro;l of neutralization buffer </br>- centrifuge 3min at maximal speed</br>- place mini column in a collection tube and transfer supernatant into PureYield^TM Mini column</br>- centrifuge for 15 sec at maximal speed</br>- add 200  &micro;l Endotoxin Removal Wash</br>- centrifuge for 15 sec at maximal speed</br>- add 400  &micro;l column Wash solution</br>- centrifuge for 30 sec at maximal speed</br>- place mini column in a new tube</br>- add 30  &micro;l elution buffer to the mini column, incubation at RT for 1 min</br>- centrifuge for 15 seconds at maximal speed </br>- store DNA at -20 &ordm;C</br></br></br><h2><a name='9'>9. Preparation of LB agar plates</a></h2><hr>1l LB agar will result in approximately 30 plates</br></br>- dissolve 15g agar and 20g LB in 1l dest. Water</br>- autoclave</br>- cool down to 60-70&ordm;C </br>- add antibiotics (1:1000) under the laminar airflow cabinet</br>- mix</br>- cast plates (approximately  20ml / plate)</br>- dry for 2h by room temperature</br>- store at 4&ordm;C</br></br></br><h2><a name='10'>10. PCR - Clean-Up (Macherey und Nagel) </a></h2><hr><b>Gel Extraction: </b></br>1. add double amount NTI to gel</br>2. Incubate 3-7minutes at 50&ordm;C and at 1000rpm (until gel is dissolved)</br>- continue with regular Clean-up Protocol (from step 3.) </br></br><b>Cleanup: </b></br>1. fill up sample with dest. water to 50 &micro;l, if necessary</br>2. add double amount NTI to the sample</br>3. place column in a collection and add transfer solution to the column</br>4. centrifuge 30 seconds at 11.000g and discard flow through </br>5. add 700 &micro;l NT3 </br>6. centrifuge 30 seconds at 11.000g and discard flow through </br>7. repeat step 5) and 6)</br>8. centrifuge 1minute at 11.000g</br>9. place column in a new tube and dry column at 70&ordm;C for 5min</br></br>small parts (<1000bp): </br>9a. place column in a new tube and add 30 &micro;l Elution buffer </br>9b. incubate 1min at room temperature</br>9c. Centrifuge 1minute at 11.000g </br></br>Bigger Parts: (>1000bp) </br>9A. place column in a new tube and add 20 &micro;l Elution buffer </br>9B. incubate at 70&ordm;C for 5minutes </br>9C. centrifuge at 50g for 1minute</br>9D. centrifuge at 11.000g for 1minute</br>9E. repeat step 9A. to 9D.</br></br></br><h2><a name='11'>11. Preparation of chemocompetent DH5-alpha cells</a></h2><hr>- Start with 200 ml Overnight culture with OD₆₀₀ of 0,6-0,8</br>- centrifuge at 4 &ordm;C, 4500 g, 10 minutes </br>- decant supernatant</br>- resuspend with 40 ml inoune transformation buffer </br>- centrifuge at 4 &ordm;C, 4500 g, 10 minutes </br>- decant supernatant</br>- resuspend in 20 ml inoune transformation buffer </br>- add 1,5 ml DMSO</br>- incubate 10 minutes on ice</br>- transfer 100 – 200 &micro;l into precooled tubes</br>- shock freeze in liquid nitrogen</br></br></br><h2><a name='12'> 12. Re-transformation of Bio Bricks</a></h2><hr>- add 10  &micro;l sterile dest water to DNA on plate </br>- incubate for 10 min at RT</br>- take 2  &micro;l, leave rest on plate </br>- store plates at -20 &ordm;C </br>- add the 2  &micro;l DNA solution to 5  &micro;l competent DH5-alpha</br>- incubate for 30 min on ice </br>- heat shock for 45 s at 42 &ordm;C </br>- incubate 3 min on ice </br>- add 250  &micro;l LB medium at 37 &ordm;C </br>- incubate for 45 min at 37 &ordm;C, 800 rpm </br>- plate 300 &micro;l on Agar-plate with appropriate antibiotic </br>- dry 15min at RT</br>- incubate at 37&ordm;C over night</br></br></br><h2><a name='13'> 13. Strand directed Mutagenesis PCR</a></h2><hr>Prepare master mix and add template as follows: </br><img src='https://static.igem.org/mediawiki/2013/b/b6/Bonn_MS_Methods2.png' width='550px'></br>- start PCR-Program: </br>1. initial denaturation 94&ordm;C for 120 seconds </br>2. Denaturating 94&ordm;C for 30 seconds</br>3. Annealing 94&ordm;C for 30 seconds</br>4. Elongation 68 for 720 seconds</br>5. Repeat step 2) to 4) 12x </br></br></br><h2><a name='14'>14. Transformation using Ligation product (in DH5alpha or XL1Blue) </a></h2><hr>- thaw bacteria on ice </br>- add 2-4 &micro;l Ligation mixture to 50 &micro;l bacteria</br>- incubate 30minutes on ice </br>- heat shock 30-45 seconds (XL1Blue preferably 35 seconds) at 42&ordm;C</br>- incubate 6min on ice</br>- add 250 &micro;l LB medium at 37&ordm;C</br>- incubate for 45minutes at 37&ordm;C, 800rpm </br>- plate 300 &micro;l on appropriate antibiotic</br>- dry 15 minutes at RT</br>- incubate at 37&ordm;C over night</br>";

content.type="Project";

content.type="Project";

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