(15 intermediate revisions by 3 users not shown) | |||
Line 1: | Line 1: | ||
+ | |||
{{NU_Kazakhstan}} | {{NU_Kazakhstan}} | ||
<html> | <html> | ||
Line 22: | Line 23: | ||
<b>PREPARING THE SUBCULTURE OF CYANOBACTERIA</b> | <b>PREPARING THE SUBCULTURE OF CYANOBACTERIA</b> | ||
<p> | <p> | ||
− | Resuspend and take 200μL of cyanobacteria from the old culture. | + | <br> 1. Resuspend and take 200μL of cyanobacteria from the old culture. |
− | Place into fresh 50 mL | + | <br> 2. Place into fresh 50 mL BG-11 media. |
− | Leave it under continuous illumination on the on the shaker at room temperature in the hood. | + | <br> 3. Leave it under continuous illumination on the on the shaker at room temperature in the hood. |
− | Check OD at 750nm.</p> | + | <br> 4. Check OD at 750nm.</p> |
− | <b>PREPARATION OF | + | <b>PREPARATION OF BG-11 media</b> |
− | <p> | + | <U><p>Stock solutions for BG-11 media:</p></u> |
− | Stock solutions for BG-11:</p> | + | |
− | <p>Prepare the stocks | + | <p>A) Prepare the stocks: |
<br> | <br> | ||
<b>Stock 1:</b> | <b>Stock 1:</b> | ||
<table><tr><td> | <table><tr><td> | ||
− | + | <p>Na<sub><font color="black">2</font></sub>MG EDTA</p></td><td> | |
− | 0.1g/liter</td> | + | <p>0.1g/liter</p></td> |
</tr> | </tr> | ||
<tr><td> | <tr><td> | ||
− | Ferric ammonium citrate</td><td> | + | <p>Ferric ammonium citrate</p></td><td> |
− | 0.6g/liter</td></tr> | + | <p>0.6g/liter</p></td></tr> |
<tr><td> | <tr><td> | ||
− | Citric acid . | + | <p>Citric acid . 1H<sub><font color="black">2</font></sub>O</p></td><td> |
− | 0.6g/liter</td></tr> | + | <p>0.6g/liter</p></td></tr> |
<tr><td> | <tr><td> | ||
− | + | <p>CaCl<sub><font color="black">2</font></sub> . 2H<sub><font color="black">2O</font></sub></p></td><td> | |
− | 3.6g/liter</td></tr> | + | <p>3.6g/liter</p></td></tr> |
</table> | </table> | ||
<p> | <p> | ||
Filter sterilize into a sterile bottle or autoclave | Filter sterilize into a sterile bottle or autoclave | ||
</p> | </p> | ||
− | |||
− | |||
− | |||
<p><b>Stock 2:</b> | <p><b>Stock 2:</b> | ||
<table><p><tr><td> | <table><p><tr><td> | ||
− | + | <p>MgSO<sub><font color="black">4</font></sub> . H<sub><font color="black">2</font></sub>O</p></td><td> | |
− | 7.5g/liter</td> | + | <p>7.5g/liter</p></td> |
</tr> | </tr> | ||
<tr></p> | <tr></p> | ||
</table> | </table> | ||
− | Filter sterilize into a sterile bottle or autoclave</p> | + | <p>Filter sterilize into a sterile bottle or autoclave</p> |
− | < | + | <p><b>Stock 3:</b> |
<table><tr><td> | <table><tr><td> | ||
− | + | <p>K<sub><font color="black">2</font></sub>HPO<sub><font color="black">4</font></sub> . 3H<sub><font color="black">2</font></sub>O<p/></td><td> | |
− | 4.0g/liter</td></tr> | + | <p>4.0g/liter</p></td></tr> |
<tr><td> | <tr><td> | ||
− | + | <p>K<sub><font color="black">2</font></sub>HPO<sub><font color="black">4</font></sub></p></td><td> | |
− | 3.05g/liter</td></tr> | + | <p>3.05g/liter</p></td></tr> |
<tr></p> | <tr></p> | ||
<table> | <table> | ||
Line 80: | Line 77: | ||
− | <b>Stock 5 (Microelements):</b> | + | <p><b>Stock 5 (Microelements):</b> |
<table><tr><td> | <table><tr><td> | ||
− | <p> | + | <p>H<sub><font color="black">3</font></sub>BO<sub><font color="black">3</font></sub></td><td> |
− | 2.86g/liter</p></td></tr> | + | <p>2.86g/liter</p></td></tr> |
<tr><td> | <tr><td> | ||
− | <p> | + | <p>MnCl<sub><font color="black">2</font></sub> . 4H<sub><font color="black">2</font></sub>O</td><td> |
− | 1.81g/liter</p></td></tr> | + | <p>1.81g/liter</p></td></tr> |
<tr><td> | <tr><td> | ||
− | <p> | + | <p>ZnSO<sub><font color="black">4</font></sub> . 7H<sub><font color="black">2</font></sub>O</td><td> |
− | 0.222g/liter</p></td></tr> | + | <p>0.222g/liter</p></td></tr> |
<tr><td> | <tr><td> | ||
− | <p> | + | <p>CuSO<sub><font color="black">4</font></sub> . 5H<sub><font color="black">2</font></sub>O</p></td><td> |
<p>0.079g/liter</p></td></tr> | <p>0.079g/liter</p></td></tr> | ||
<tr><td> | <tr><td> | ||
− | <p> | + | <p>COCl<sub><font color="black">2</font></sub> . 6H<sub><font color="black">2</font></sub>O</p></td><td> |
<p>0.050g/liter</p></td></tr> | <p>0.050g/liter</p></td></tr> | ||
<tr><td> | <tr><td> | ||
− | <p> | + | <p>NaMoO<sub><font color="black">4</font></sub> . 2H<sub><font color="black">2</font></sub>O </p></td><td> |
<p>0.391g/liter</p></td></tr> | <p>0.391g/liter</p></td></tr> | ||
<tr><td> | <tr><td> | ||
− | <p>or | + | <p>or MoO<sub><font color="black">4</font></sub> (85%)</p></td><td> |
<p>0.018g/liter </p></td></tr> | <p>0.018g/liter </p></td></tr> | ||
− | <tr>< | + | <tr><p> |
<table> | <table> | ||
<p> | <p> | ||
− | <p>B) For basic | + | <p>B) For basic BG-11 medium combine the following stock solutions:</p> |
− | < | + | <table><tr><td> |
− | Per Liter of medium | + | <p>Stock Solution</p></td><td> |
− | Stock 1 | + | <p>Per Liter of medium</p></td></tr> |
− | 10 ml | + | <tr><td> |
− | Stock 2 | + | <p>Stock 1</p></td><td> |
− | 10 ml | + | <p>10 ml</p></td></tr> |
− | Stock 3 | + | <tr><td> |
− | 10 ml | + | <p>Stock 2</p></td><td> |
− | + | <p>10 ml</p></td></tr> | |
− | 0.02g | + | <tr><td> |
− | Stock 5 | + | <p>Stock 3</p></td><td> |
− | 1.0 ml | + | <p>10 ml</p></td></tr> |
− | + | <tr><td> | |
− | 1.5g | + | <p>Na<sub><font color="black">2</font></sub>CO<sub><font color="black">3</font></sub></p></td><td> |
− | <p> | + | <p>0.02g</p></td></tr> |
− | Combine stocks and adjust pH to 7.5 (use 1.0N HCl). Aliquot into flasks (50 ml/125 ml flask) with cotton stoppers on top and autoclave. After autoclaving and cooling, the pH may change, so it must be monitored. | + | <tr><td> |
− | < | + | <p>Stock 5</p></td><td> |
− | For solid media, add 1% noble agar. | + | <p>1.0 ml</p></td></tr> |
− | For BG- | + | <tr><td> |
+ | <p>NaNO<sub><font color="black">3</font></sub></p></td><td> | ||
+ | <p>1.5g </p></td></tr> | ||
+ | <tr><p> | ||
+ | <table> | ||
+ | |||
+ | <p><br> 1. Combine stocks and adjust pH to 7.5 (use 1.0N HCl). | ||
+ | <br> 2. Aliquot into flasks (50 ml/125 ml flask) with cotton stoppers on top and autoclave. | ||
+ | <br> 3. After autoclaving and cooling, the pH may change, so it must be monitored. | ||
+ | <br> 4. For solid media, add 1% noble agar. | ||
+ | <br> 5. For BG-11 don't add NaNO<sub><font color="black">3</font></sub>. | ||
</p> | </p> | ||
− | + | ||
<br> <p> <b> TRANSFORMATIONS OF CYANOBACTERIA (OBTAINED FROM STONY BROOK IGEM TEAM) </b> | <br> <p> <b> TRANSFORMATIONS OF CYANOBACTERIA (OBTAINED FROM STONY BROOK IGEM TEAM) </b> | ||
<br> 1. Measure the OD750 (must be approx. 0.7) | <br> 1. Measure the OD750 (must be approx. 0.7) | ||
Line 139: | Line 146: | ||
<b><p>TRANSFORMATIONS OF CYANOBACTERIA (INVITROGEN)</b> | <b><p>TRANSFORMATIONS OF CYANOBACTERIA (INVITROGEN)</b> | ||
− | <br> 1. Measure the optical density of the Synechococcus elongatus cultures (from step 10, page 13) at 750 nm (i.e., OD750). | + | <br> 1. Measure the optical density of the <i><font color="black">Synechococcus elongatus</font></i> cultures (from step 10, page 13) at 750 nm (i.e., OD750). |
Note: For best performance, the OD750 of cultures should be greater than 1 and less than 2. | Note: For best performance, the OD750 of cultures should be greater than 1 and less than 2. | ||
<br> 2. Harvest 1.5 mL of the cells (per transformation) by centrifugation at 14,000 rpm for 3 minutes at room temperature. | <br> 2. Harvest 1.5 mL of the cells (per transformation) by centrifugation at 14,000 rpm for 3 minutes at room temperature. | ||
Line 168: | Line 175: | ||
<p> | <p> | ||
<U><b>PREPARING CHEMICALLY COMPETENT E.COLI</b></u> | <U><b>PREPARING CHEMICALLY COMPETENT E.COLI</b></u> | ||
− | <br> 1. Prepare 0.1M | + | <br> 1. Prepare 0.1M CaCl<sub><font color="black">2</font></sub> and 0.1M CaCl<sub><font color="black">2</font></sub> + 15% glycerol solutions beforehand |
<br> 2. Take 1 colony of DH5-alpha strain of E.coli from LB plates and inoculate in 10mL of LB in 50 ml Falcon tube | <br> 2. Take 1 colony of DH5-alpha strain of E.coli from LB plates and inoculate in 10mL of LB in 50 ml Falcon tube | ||
− | <br> 3. Place the tube with DH5-alpha E.coli strains in LB into the shaking incubator at 250 rpm at | + | <br> 3. Place the tube with DH5-alpha E.coli strains in LB into the shaking incubator at 250 rpm at 37℃, until OD600 reaches 0.2-0.3. |
− | <br> 4. Once the OD600 reaches 0.2-0.3, place the tube with DH5-alpha strain on ice for 15 min. Keep in ice solutions of 0.1M | + | <br> 4. Once the OD600 reaches 0.2-0.3, place the tube with DH5-alpha strain on ice for 15 min. Keep in ice solutions of 0.1M CaCl<sub><font color="black">2</font></sub> and 0.1M CaCl<sub><font color="black">2</font></sub> + 15% glycerol, too. |
<br> 5. Centrifuge cells at 4oC for 10 min. | <br> 5. Centrifuge cells at 4oC for 10 min. | ||
− | <br> 6. Resuspend pellet with 3 ml of 0.1M | + | <br> 6. Resuspend pellet with 3 ml of 0.1M CaCl<sub><font color="black">2</font></sub> and put on ice for 30 min. |
− | <br> 7. Centrifuge cells again and resuspend in 300 µL of 0.1M | + | <br> 7. Centrifuge cells again and resuspend in 300 µL of 0.1M CaCl<sub><font color="black">2</font></sub> + 15% glycerol. |
<br> 8. Prepare 50 µL aliquots of resulting solution in separate Eppendorf tubes. | <br> 8. Prepare 50 µL aliquots of resulting solution in separate Eppendorf tubes. | ||
− | <br> 9. Place aliquots in a Cold room at - | + | <br> 9. Place aliquots in a Cold room at -80℃.</p> |
<p><b>CHEMICAL TRANSFORMATION</b> | <p><b>CHEMICAL TRANSFORMATION</b> | ||
Line 199: | Line 206: | ||
<b> | <b> | ||
<p><U>MIRAPREP</b></u> | <p><U>MIRAPREP</b></u> | ||
− | <br> 1. Inoculate 50 ml of bacterial culture in appropriate selective media and incubate on a shaker at 250 rpm at | + | <br> 1. Inoculate 50 ml of bacterial culture in appropriate selective media and incubate on a shaker at 250 rpm at 37℃ overnight |
− | <br> 2. Next day, transfer the bacterial culture into a 50 ml tube and spin at 4000xg at | + | <br> 2. Next day, transfer the bacterial culture into a 50 ml tube and spin at 4000xg at 4℃ for 10 minutes. |
<br> 3. Discard the supernatant and resuspend the pellet in 2 ml of resuspension buffer with 50 ul/ml RNase (ThermoFisher #EN053) freshly added. | <br> 3. Discard the supernatant and resuspend the pellet in 2 ml of resuspension buffer with 50 ul/ml RNase (ThermoFisher #EN053) freshly added. | ||
<br> 4. Add 2 ml of lysis buffer to the bacterial suspension and invert the tube 3-4 times. | <br> 4. Add 2 ml of lysis buffer to the bacterial suspension and invert the tube 3-4 times. | ||
Line 263: | Line 270: | ||
<p> | <p> | ||
<b>LIGATION</b> | <b>LIGATION</b> | ||
− | <br>1. Add nuclease-free water Combine 100 ng of vector and 3 fold molar excess of insert. | + | <br>1. Add nuclease-free water |
− | <br> | + | <br> 2.Combine 100 ng of vector and 3 fold molar excess of insert. |
+ | <br> 3. Add 5 µl ligase buffer Add 1 µl ligation enzyme | ||
</p> | </p> | ||
Line 272: | Line 280: | ||
<p> | <p> | ||
Colony PCR | Colony PCR | ||
− | carried out by NEB protocols for Phusion Master Mix solution what we found as the best possible protocol for colony PCR. The general protocol is | + | carried out by NEB protocols for Phusion Master Mix solution what we found as the best possible protocol for colony PCR. The general protocol is <a href="https://www.neb.com/protocols/2012/09/06/protocol-phusion-high-fidelity-pcr-master-mix-with-hf-buffer-m0531">here</a>. |
− | < | + | <br> |
</p> | </p> | ||
<p><b> | <p><b> | ||
PCR OF LIQUID CULTURE | PCR OF LIQUID CULTURE | ||
</b> | </b> | ||
− | <br>1.Take 250 ul of culture, centrifuge at max speed for 10 min at | + | <br>1.Take 250 ul of culture, centrifuge at max speed for 10 min at 4℃. |
<br>2. Quickly remove supernatant and make sure it does not contain parts of the cells pellet. | <br>2. Quickly remove supernatant and make sure it does not contain parts of the cells pellet. | ||
<br>3. Resuspend cell pellet in 20 ul of 0.2% Triton. Heat the tubes with cells at 98°C for 10 min. | <br>3. Resuspend cell pellet in 20 ul of 0.2% Triton. Heat the tubes with cells at 98°C for 10 min. | ||
Line 288: | Line 296: | ||
<b>CPEC</b> | <b>CPEC</b> | ||
<p> | <p> | ||
− | was conducted in accordance to Quan & Tian, 2011, “Circular polymerase extension cloning for high-throughput cloning of complex and combinatorial DNA libraries” | + | was conducted in accordance to Quan & Tian, 2011, “Circular polymerase extension cloning for high-throughput cloning of complex and combinatorial DNA libraries”. Click <a href="http://www.nature.com/nprot/journal/v6/n2/full/nprot.2010.181.html">here</a> for the protocol. |
− | + | <br><br></p> | |
− | <p><b> | + | <p><b>Na<sub>2</sub>S MEASUREMENT ASSAY</b> |
− | <br>According to the information given by the company that we received our | + | <br>According to the information given by the company that we received our Na<sub><font color="black">2</font></sub>S from, our sample contained at least 60% of pure Na<sub><font color="black">2</font></sub>S. |
− | <br><br>1. Prepare a 100 mM stock solution of | + | <br><br>1. Prepare a 100 mM stock solution of Na<sub><font color="black">2</font></sub>S and bring it to pH 7. |
<br>2. This stock is diluted to 500 uM, 1 mM and 2 mM and pH is adjusted to 12 using NaOH (2M). | <br>2. This stock is diluted to 500 uM, 1 mM and 2 mM and pH is adjusted to 12 using NaOH (2M). | ||
<br>3. Measure the OD750 of cyanobacteria that you are willing to use (0.6 < OD750< 0.8). The OD750 of genetically modified and wild-type cyanobacteria is expected to be similar. | <br>3. Measure the OD750 of cyanobacteria that you are willing to use (0.6 < OD750< 0.8). The OD750 of genetically modified and wild-type cyanobacteria is expected to be similar. | ||
− | <br>4. Prepare 10 mL of cyanobacteria with according concentration of | + | <br>4. Prepare 10 mL of cyanobacteria with according concentration of Na<sub><font color="black">2</font></sub>S. |
− | <br>5. Immediately after adding | + | <br>5. Immediately after adding Na<sub><font color="black">2</font></sub>S, take 1 mL of cells, centrifuge them for 2 mins at the highest speed and take supernatant. |
− | <br>6. This supernatant is measured at NanoDrop (Uv-Vis) at 230 nm. This measurement is taken before adjustment of the supernatant and nanodrop should be blanked with the normal | + | <br>6. This supernatant is measured at NanoDrop (Uv-Vis) at 230 nm. This measurement is taken before adjustment of the supernatant and nanodrop should be blanked with the normal BG-11 (pH=7). |
− | <br>7. The pH of the supernatant is adjusted to 12 and the measurement is repeated once again with the blank of | + | <br>7. The pH of the supernatant is adjusted to 12 and the measurement is repeated once again with the blank of BG-11 of the corresponding pH(pH=12). |
− | <br>8. Measure just | + | <br>8. Measure just BG-11+Na<sub><font color="black">2</font></sub>S as a control with the pH 7 and 12 with corresponding blanks. |
<br>9. Repeat steps 6-7 after 5, 10, 15, 30, 60, 90 and 120 minutes. | <br>9. Repeat steps 6-7 after 5, 10, 15, 30, 60, 90 and 120 minutes. | ||
</p> | </p> | ||
<p> | <p> | ||
− | <b> | + | <b>Na<sub>2</sub>S SURVIVAL ASSAY</b> |
<br>1. Fill 5 Petri Dish with 6 ml of liquid genetically modified and wild type strain cyanobacteria culture. | <br>1. Fill 5 Petri Dish with 6 ml of liquid genetically modified and wild type strain cyanobacteria culture. | ||
− | <br>2. Add 150 uM, 250 uM, 500 uM, 1 mM, 2mM and 5mM of | + | <br>2. Add 150 uM, 250 uM, 500 uM, 1 mM, 2mM and 5mM of Na<sub><font color="black">2</font></sub>S into the Petri Dishes for each of the genetically modified and original cyanobacteria cultures. |
<br>3. Check the color of samples during 2-4 days. | <br>3. Check the color of samples during 2-4 days. | ||
</p> | </p> |
Latest revision as of 03:28, 18 October 2018
1. Resuspend and take 200μL of cyanobacteria from the old culture.
2. Place into fresh 50 mL BG-11 media.
3. Leave it under continuous illumination on the on the shaker at room temperature in the hood.
4. Check OD at 750nm.
Stock solutions for BG-11 media:
A) Prepare the stocks:
Stock 1:
Na2MG EDTA |
0.1g/liter |
Ferric ammonium citrate |
0.6g/liter |
Citric acid . 1H2O |
0.6g/liter |
CaCl2 . 2H2O |
3.6g/liter |
Filter sterilize into a sterile bottle or autoclave
Stock 2:
MgSO4 . H2O |
7.5g/liter |
Filter sterilize into a sterile bottle or autoclave
Stock 3:
K2HPO4 . 3H2O |
4.0g/liter | ||||||||||||||||||||||||||
K2HPO4 |
3.05g/liter | ||||||||||||||||||||||||||
H3BO3 |
2.86g/liter | ||||||||||||
MnCl2 . 4H2O |
1.81g/liter | ||||||||||||
ZnSO4 . 7H2O |
0.222g/liter | ||||||||||||
CuSO4 . 5H2O |
0.079g/liter | ||||||||||||
COCl2 . 6H2O |
0.050g/liter | ||||||||||||
NaMoO4 . 2H2O |
0.391g/liter | ||||||||||||
or MoO4 (85%) |
0.018g/liter | ||||||||||||
Stock Solution |
Per Liter of medium |
Stock 1 |
10 ml |
Stock 2 |
10 ml |
Stock 3 |
10 ml |
Na2CO3 |
0.02g |
Stock 5 |
1.0 ml |
NaNO3 |
1.5g |