Team:USP-Brazil/Protocols
From 2013.igem.org
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<h2>Protocols</h2> | <h2>Protocols</h2> | ||
<h3>Cloning</h3> | <h3>Cloning</h3> | ||
- | <h4>Plasmid DNA isolation</h4> | + | <hr> |
+ | <h4>Plasmid DNA isolation (<i>E.coli</i>)</h4> | ||
<h5>Extraction of plasmid DNA from E. coli by Alkaline Lysis – Miniprep</h5> | <h5>Extraction of plasmid DNA from E. coli by Alkaline Lysis – Miniprep</h5> | ||
<p>1.1) Formation of pellets<sup>*</sup> | <p>1.1) Formation of pellets<sup>*</sup> | ||
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<br></br> | <br></br> | ||
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<h4>Solutions P1, P2 and P3</h4> | <h4>Solutions P1, P2 and P3</h4> | ||
- | + | <p class="table"> | |
- | < | + | </p> |
- | < | + | <table> |
- | < | + | <tr class="tr_first"><td style="width:30%">P1</td><td style="width:30%">P2</td><td style="width:30%">P3</td></tr> |
- | < | + | <tr><td>23 ml glucose 20%</td><td>H<sub>2</sub>O 5580 ul</td><td>KaOH 3M</td></tr> |
- | < | + | <tr><td>GTE 500 ml</td><td>NaOH 120 ul</td><td>60 ml KOAC 5M</td></tr> |
- | < | + | <tr><td>10 ml EDTA 0.5 M pH 8,0</td><td>300 ul SDS 20%</td><td>11.5 ml Glacial Acetic Acid</td></tr> |
- | < | + | <tr><td>12.5 ml of Tris HCl 1M pH 7,0</td><td></td><td>Water to 100 ml</td></tr> |
- | </ul></ | + | <tr><td>Water to 500 ml</td><td></td><td>11.5 ml Glacial Acetic Acid</td></tr> |
+ | <tr><td>Autoclave before using</td><td></td><td>Autoclave before using</td></tr> | ||
+ | <tr><td></td><td></td><td</td></tr> | ||
+ | |||
+ | </table> | ||
+ | <hr> | ||
+ | <h4>Ethanol Precipitation of Plasmid DNA</h4> | ||
+ | <ul> | ||
+ | <li>Add 1/10 volume of Sodium Acetate (3 M, pH 5.2).</li> | ||
+ | <li>Add 2.5-3.0 X volume (calculated after addition of sodium acetate) of at least 95% ethanol.</li> | ||
+ | <li>Incubate on ice for 15 minutes. In case of small DNA fragments or high dilutions overnight.(incubation gives best results, incubation below 0 °C does not significantly improve efficiency.)</li> | ||
+ | <li>Centrifuge at > 14,000 x g for 30 minutes at room temperature or 4 °C.</li> | ||
+ | <li>Discard supernatant being careful not to throw out DNA pellet which may or may not be visible. | ||
+ | </li> | ||
+ | <li>Rinse with 70% Ethanol (see note above for details)</li> | ||
+ | <li>Centrifuge again for 15 minutes.</li> | ||
+ | <li>Discard supernatant and dissolve pellet in desired buffer. Make sure the buffer comes into contact with the whole surface of the tube since a significant portion of DNA may be deposited on the walls instead of in the pellet.</li> | ||
+ | </ul> | ||
+ | |||
+ | <hr> | ||
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- | <h4>Protocol for Miniprep from Plate (used when there was a large amount of samples)</h4> | + | <h4>Protocol for Miniprep from Plate (used when there was a large amount of samples) (<i>E.coli</i>)</h4> |
<ul> | <ul> | ||
<li>Take the plates out of the fridge</li> | <li>Take the plates out of the fridge</li> | ||
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</ul></p> | </ul></p> | ||
To validate plasmid extraction, do a digest and a run a gel or cover and put in -20°C freezer. | To validate plasmid extraction, do a digest and a run a gel or cover and put in -20°C freezer. | ||
- | + | <hr> | |
<h4>Restriction Digest</h4> | <h4>Restriction Digest</h4> | ||
<p>We use BamHI, EcoRI, NotI, PstI, SpeI for the general reaction:</p> | <p>We use BamHI, EcoRI, NotI, PstI, SpeI for the general reaction:</p> | ||
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<li>Water to 20 uL | <li>Water to 20 uL | ||
</ul></p> | </ul></p> | ||
- | + | <hr> | |
<h4>PCR Reaction</h4> | <h4>PCR Reaction</h4> | ||
<p>PCR was carried out on ice with Taq pol Enzyme following the protocol:</p> | <p>PCR was carried out on ice with Taq pol Enzyme following the protocol:</p> | ||
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</table> | </table> | ||
- | + | <hr> | |
<h4>Ligation</h4> | <h4>Ligation</h4> | ||
<ul> | <ul> | ||
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</table> | </table> | ||
- | + | <hr> | |
- | <h4>Competent Cells</h4> | + | <h4>Competent Cells (<i>E.coli</i>)</h4> |
<p><b>Day 1:</b></p> | <p><b>Day 1:</b></p> | ||
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<li> Transformation efficiency (transformants/µg) is calculated as follows: # colonies on plate/ng of DNA plated X 1000 ng/µg | <li> Transformation efficiency (transformants/µg) is calculated as follows: # colonies on plate/ng of DNA plated X 1000 ng/µg | ||
</ul></p> | </ul></p> | ||
- | + | <hr> | |
- | <h4>Transformation of Competent Cells</h4> | + | <h4>Transformation of Bacterial Competent Cells (<i>E.coli</i>)</h4> |
<p>Preparation:</p> | <p>Preparation:</p> | ||
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<li> Incubate at 37°C for 18 hours. | <li> Incubate at 37°C for 18 hours. | ||
</ul></p> | </ul></p> | ||
- | + | <hr> | |
<h4>Glycerol Stock for long-term storage of bacteria</h4> | <h4>Glycerol Stock for long-term storage of bacteria</h4> | ||
<ul> | <ul> | ||
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<li> Pipette 80 ul of bacteria and mix with a pipette with the glycerol. Cover the 96-well plate with adhesive cover along with plastic cover. Place glycerol stock in -70 ° C freezer. | <li> Pipette 80 ul of bacteria and mix with a pipette with the glycerol. Cover the 96-well plate with adhesive cover along with plastic cover. Place glycerol stock in -70 ° C freezer. | ||
</ul></p> | </ul></p> | ||
- | + | <hr> | |
+ | <br></br> | ||
<h3>Cell Cultures</h3> | <h3>Cell Cultures</h3> | ||
- | + | <hr> | |
<h4>Cell line and cultivation</h4> | <h4>Cell line and cultivation</h4> | ||
<ul> | <ul> | ||
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</ul></p> | </ul></p> | ||
- | + | <hr> | |
<h4>Transfection of <i>Pichia pastoris</i></h4> | <h4>Transfection of <i>Pichia pastoris</i></h4> | ||
<p>Transformation was performed by electroporation following the protocol:</p> | <p>Transformation was performed by electroporation following the protocol:</p> | ||
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<li> Keep plates at incubator for 2 to 4 days at 30 ° C (verify growth daily). | <li> Keep plates at incubator for 2 to 4 days at 30 ° C (verify growth daily). | ||
</ul></p> | </ul></p> | ||
- | + | <hr> | |
- | <h4>Genomic DNA extraction</h4> | + | <h4>Genomic DNA extraction (<i>P. pastoris</i>)</h4> |
<p>Genomic DNA was extracted from <i>Pichia pastoris</i> by the following protocol: <b>Single-tube LiOAc-SDS lysis</b></p> | <p>Genomic DNA was extracted from <i>Pichia pastoris</i> by the following protocol: <b>Single-tube LiOAc-SDS lysis</b></p> | ||
<ul> | <ul> | ||
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</div> | </div> | ||
</html> | </html> | ||
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+ | {{https://2013.igem.org/Team:USP-Brazil/templateDOWN}} |
Latest revision as of 02:55, 27 September 2013
Template:Https://2013.igem.org/Team:USP-Brazil/templateUP
Protocols
Cloning
Plasmid DNA isolation (E.coli)
Extraction of plasmid DNA from E. coli by Alkaline Lysis – Miniprep
1.1) Formation of pellets*
- Transfer 1.5 ml of E. coli sample to eppendorf.
- Centrifuge at 14000 RPM for one minute at 4°C.
- Discard the supernatant.
- Add the remaining E. coli, centrifuge again and discard the supernatant.
- Resuspend in 200 μL of Solution 1 (P1) and vortex to dilute the entire pellet.
1.2) Extraction of DNA
- Add 200 μL of Solution 2 (P2) freshly made.
Solution 2*:
For 2 mL: 1860 μL of milliQ water, 40 μL of NaOH 10N, and 100 μL of SDS 20%.
For 5 mL: 4650 μL of milliQ water, 100 μL of NaOH 10N, and 250 μL of SDS 20%.
*: The reagents MUST be added in the order described. Stir after each mix. Do not put ice or you might have to redo if a precipitate (crystal) forms.
- Gently invert 6 times.
- Leave at room temperature for 5 minutes.
- Add 200 μL of Solution 3 (P3), flip and put on ice immediately.
- Centrifuge at 14000 RPM for 20 minutes at 4°C.
- Collect the supernatant (with pipette) without getting any of the precipitate pellet moved into the new eppendorf. Collect 200 μL at a time with the pipette tip to prevent getting any of the pellet.
1.3) Precipitation of DNA
- Add 400 μL of isopropanol. Invert 5 times.
- Connect the speed vaccum.
- Centrifuge at 14000 RPM for 10 minutes at 4°C.
- Discard the supernatant and invert eppendorf over paper towel.
1.4) Dry DNA
- Add 500 μL of ethanol 70%. Invert 5 times.
- Centrifuge at 14000 RPM for 5 minutes at 4°C.
- Discard and speed vacuum for 15 minutes.
1.5) Resuspend the DNA and degrade the RNA
- Resuspend in 30 μL of milliQ water with light finger touches.
- Treat with 5 μL RNAse per sample. Resuspend with light finger touches.
- Leave at 37°C for at least half an hour.
- Place in 20°C freezer for overnight storage.
2) Quantification by Nanodrop
- Connect software.
- Select option “Nucleic Acid.”
- Place 2 μL of milliQ water on each pedestal and clean with paper towel.
- Place 2 μL of milliQ water to calibrate the instrument and press “OK.”
- Carry out the “Blank” using 2 μL of either milliQ water or buffer, depending on what you used to dilute your DNA sample.
- Place 2 μL of sample and click measure.
- Observe the quantification of DNA in ng/μL.
- Also observe the ratio of 260/280, which must be around or greater than 1.7-1.8.
3) Digest to linearize the plasmid
Reagents | 1 reaction |
ECO RI* | 1μL |
Enzyme Buffer | 2μL |
DNA | 2μL |
H2O | 15μL |
Total | 20μL |
Solutions P1, P2 and P3
P1 | P2 | P3 |
23 ml glucose 20% | H2O 5580 ul | KaOH 3M |
GTE 500 ml | NaOH 120 ul | 60 ml KOAC 5M |
10 ml EDTA 0.5 M pH 8,0 | 300 ul SDS 20% | 11.5 ml Glacial Acetic Acid |
12.5 ml of Tris HCl 1M pH 7,0 | Water to 100 ml | |
Water to 500 ml | 11.5 ml Glacial Acetic Acid | |
Autoclave before using | Autoclave before using | |
Ethanol Precipitation of Plasmid DNA
- Add 1/10 volume of Sodium Acetate (3 M, pH 5.2).
- Add 2.5-3.0 X volume (calculated after addition of sodium acetate) of at least 95% ethanol.
- Incubate on ice for 15 minutes. In case of small DNA fragments or high dilutions overnight.(incubation gives best results, incubation below 0 °C does not significantly improve efficiency.)
- Centrifuge at > 14,000 x g for 30 minutes at room temperature or 4 °C.
- Discard supernatant being careful not to throw out DNA pellet which may or may not be visible.
- Rinse with 70% Ethanol (see note above for details)
- Centrifuge again for 15 minutes.
- Discard supernatant and dissolve pellet in desired buffer. Make sure the buffer comes into contact with the whole surface of the tube since a significant portion of DNA may be deposited on the walls instead of in the pellet.
Protocol for Miniprep from Plate (used when there was a large amount of samples) (E.coli)
- Take the plates out of the fridge
- Add 1 µL of media (LB) with ampicillin (100 µg/mL) to each well
- Choose colonies by poking with a sterile toothpick and inoculate (put toothpick in well). Cover the 96-well plate with adhesive cover (the worse version) and poke a hole through cover with a needle.
- Put on a shaker at 37°C at 300 RPM for 22 hours
- [in sterile hood] Prepare the 96-well plate with 80 µL with 50% glycerol
- [in sterile hood] Pipette 80 µL of bacteria and mix with a pipette with the glycerol. Cover the 96-well plate with (better) adhesive cover along with plastic cover. Place glycerol stock in -70°C freezer.
- [on ice] Centrifuge at 4000 RPM for 10 minutes (put RNAse on ice to thaw)
- [on ice] Discard the supernatant and turn plates upside down on paper towel
- [on ice] Add 240 µL of solution 1; seal plates with [worse] cover and resuspend with vortex.
- [on ice] Centrifuge at 4000 RPM for 10 minutes
- [on ice] Prepare solution 2
- [Preparing solution 2: not on ice] Add 5.58 µL of water
- [Preparing solution 2: not on ice] Add 120 µL of 10M NaOH and mix thoroughly
- [Preparing solution 2: not on ice] Finally, add 300 µL of 20% SDS and mix (make sure there isn’t any precipitate)
- [on ice] Discard the supernatant and turn plates upside down on paper towel
- [on ice] Add 80 µL of solution 1 – seal plate and resuspend cells with vortex
- [on ice] Take the U-bottom 96-well plate, and add 5 µL of RNAse (10 mg/mL) per well
- Transfer 60 µL of cells to the U-bottomed plate
- Add 60 µL of solution 2; seal with [better] cover and invert plate 10 times
- Leave on the bench for 10 minutes. Spin for a few seconds. (Turn on and preheat heater to 80°C)
- Add 60 µL of solution 3. Seal with [better] cover and invert 10 times
- Leave on the bench for 10 minutes. Spin for a few seconds.
- Take off cover and place plate in 80°C heater.
- [no adhesive cover] Put on ice for 10 minutes.
- [no adhesive cover] Centrifuge at 4000 RPM for 10 minutes
- [no adhesive cover] Attach V-bottom 96-well plate to plate with filter and secure using masking tape
- Transfer all the sample without the pellet and centrifuge at 4000 RPM for 15 minutes.
- Discard the filter plate and add 110 µL of cold 100% isopropanol
- Cover the plate with [better] cover and invert 10 to 20 times
- Spin, change the seal to another cover and centrifuge for 45 minutes (turn on speed vacuum)
- Discard the supernatant and add 200 µL of cold 70% ethanol
- Centrifuge for 5 minutes at 4000 RPM. Discard supernatant
- Dry the plate for 15 minutes using the speed vacuum
- Resuspend with 40 µL of water
Restriction Digest
We use BamHI, EcoRI, NotI, PstI, SpeI for the general reaction:
- NEB Enzyme X: 1 uL (for 10.000 enzimatic unit)
- NEB Enzyme Y (if is a double digestion): 1 ul
- corresponding NEB Buffer: 2 uL
- If necessary BSA: 0.2 uL
- Water to 20 uL
PCR Reaction
PCR was carried out on ice with Taq pol Enzyme following the protocol:
Component | Volume | Final Concentration |
10X PCR buffer minus Mg | 10μL | 1X |
10 mM dNTPmixture | 2μL | 0.2 mM each |
50 mM MgCl2 | 3μL | 1.5 nM |
Primer mix (10 μM each) | 5μL | 0.5 μM each |
Template DNA | 1-20μL | n/a |
Taq DNA Polymerase (5 U/μl) | 0.2-0.5μL | 1.0–2.5 units |
Autoclaved distilled water | to 100μL | n/a |
Temperature cycles:
Temperature | Time |
98 ° C | 0:10 |
98 ° C | 0:30 |
69 ° C | 1:00 |
72 ° C | 1:00 (and repeat 35x) |
72 ° C | 2:00 |
10 ° C | hold |
Ligation
- pPIC9K: 10 ng/µL; 5 µL for 50 ng
- RFP: 17.2 ng/1.72 nl
- 16 ° C overnight
Ligation reaction | µL |
2X buffer | 10 |
pPIC9K | 5 |
RFP | 1.72 |
T4 ligase | 1(and repeat 35x) |
water | 2.28 |
Competent Cells (E.coli)
Day 1:
- Streak out the E.coli onto an LB agar plate with streptomycin 12.5 mg / mL
- Incubate overnight at 37 ° C
- Autoclave 3-4 liters of milli-Q water
Day 2:
- Inoculate 5 mL of LB medium containing streptomycin 12.5 ug / mL (in a 50 mL Falcon: LB 5 mL + 1.25uL streptomycin 50 mg / mL) with a single colony
- Incubate 18 hours at 37 ° C at 200 rpm
- Put SOB media at at 37 ° C (to pre-warm)
Day 3:
- Take 4mL of the innoculant and add to 400 ml of SOB (no streptomycin) at 37 °C .Incubate for 2 hours at 37 ° C at 200rpm
- Measure the OD600. The optimal OD is ~ 0.65. If you are below this value let the cells grow longer
- Upon reaching the desired OD, split the 400 mL into 8 x 50 mL tubes
- Incubate on ice for 20 minutes
- Centrifuge for 5 minutes at 7000g at 4° C. Discard the supernatant.
- Resuspend each pellet in 50 mL of cold autoclaved milli-Q H2O. In this step the total volume is 400 mL.
- Centrifuge for 5 minutes at 7000g at 4° C. Discard the supernatant.
- Resuspend each pellet in 25 mL of cold autoclaved milli-Q H2O.In this step the total volume is 200 mL.
- Put 2 tubes together into 1 tube, so you have a total of 4 tubes!
- Centrifuge for 5 minutes at 7000g at 4° C. Discard the supernatant.
- Resuspend the pellets in an 8 ml of autoclaved cold 10% glycerol. Meanwhiletheotherthree pellets are onthe ice!
- Resuspend the pellets remaining in the same solution, one at a time, gathering all the cells at the end! At the point you have 1 x 8mL tube.
- Centrifuge for 5 minutes at 7000g at 4° C (you will need a balance). Discard the supernatant.
- Resuspend in 1.2 to 1.6 mL (depending on size of pellet) of autoclavedta cold 10% glycerol.
- Make aliquots of 50 µL and immediately frozen in liquid N2.
- Store in freezer at -80 ° C (yields about 48 eppendorfs).
Efficiency test:
- Dilute pGEM vector from 20ng/µL to 0.1 ng/µL; 0.2 ng/µL and 0.4 ng/µL
- 0.4ng/ µL = 1 µL of 20ng/ µL + 49 µL dH20;
- 0.2ng/ µL = 2 µL of 1ng/ µL + 2 µL dH20;
- 0.1ng/ µL = 2 µL of 1ng/ µL + 2 µL dH20
- Prepare 3 large LB+Ampicillin plates for 3 transformations (50mL per plate = 150mL total. Add 150 µL of ampicillin at a stock concentration of 100mg/mL)
- [each transformation] 1uL of the diluted pGEM + 5uLdH20
- [each transformation] Add all 6µL to an aliquot of competent cells and shock
- [each transformation] Add 950µL of SOC media. Incubate1 hour at 37° C.
- [each transformation] Dilute before plating out
- [each transformation] 10µL of culture (competent cells) + 990 µL of SOC
- [each transformation] Plate 100 µL onto large LB+Amp plate and incubate overnight at 37° C
- Next day: calculate efficiency
- Count number of colonies on plate
- Transformation efficiency (transformants/µg) is calculated as follows: # colonies on plate/ng of DNA plated X 1000 ng/µg
Transformation of Bacterial Competent Cells (E.coli)
Preparation:
- Place the cuvettes on ice (1 for processing)
- Prepare tubes (15mL Falcon tube or glass) containing 750μL of SOC medium (1 per transformation)
- Keep the SOC aliquot at room temperature (200μL by transformation)
- Thaw eletrocompetent bacteria aliquots on ice (approx. 2 min.)
- Connect the electroporation equipment(set pulse to 200 - machine above - and voltage to 2.5 kV)
- Aliquot DNA to be transformed (diluted with water or resuspended precipitate without salt and water if necessary)
Transformation:
- Mix bacterial DNA in eppendorf (approx. 50 to 100 ng for each 50mL of bacteria) and leave on ice for 1 min.
- Transfer the volume from the cuvettes, dry the metal sides and electroporate (press the two red buttons simultaneously and release when you hear the "beep"). NOTE: Do not hold the metal cuvettes by side and not eletroporate with moist. Dry before!
- IMMEDIATELY (In max. 30s) add 200μL of SOC to the cuvette and transfer the culture to the tube containing 750μL of SOC
- Incubate in shaker at 37°C for 40 minutes
- Centrifuge for 2min. at 4000rpm, discard until roughly half 150uL.
- Resuspend the samples.
- Plate on plates containing LB + appropriate antibiotic
- Incubate at 37°C for 18 hours.
Glycerol Stock for long-term storage of bacteria
- Prepare the 96-well plate with 80 ul with 50% glycerol
- Pipette 80 ul of bacteria and mix with a pipette with the glycerol. Cover the 96-well plate with adhesive cover along with plastic cover. Place glycerol stock in -70 ° C freezer.
Cell Cultures
Cell line and cultivation
- Escherichia coli: strain DH10B, cultivated at 27 ° C and 250 rpm, in a medium with the antibiotic correspondent to its plasmid.
- Pichia pastoris: strain GS115(his4), cultivated at 30 ° C
Transfection of Pichia pastoris
Transformation was performed by electroporation following the protocol:
- Keep electroporation cuvettes at -20 ° C;
- Gently mix 80μL of competent cells with 5-20μg of digested DNA (10μL).
- Transfers all mix to 0,2cm cuvettes (for electroporation). (Be careful: do not allow bubbles formation, electric current will pass from outside instead of inside in this case)
- Incubate cuvettes with yeast on ice for 5 to 10 minutes;
- Pulse cells following instructions of electroporation machine: Voltage 1500V,2. - Capacitance 25uF, Resistance 200.
- Add 1 mL of sorbitol 1M in each cuvette and transfer to a sterile eppendorf, in case of selection by gentamicin add 1mL of YPD media with 1M of sorbitol and incubate for 1h at 30°C;
- Plate 100 μL in a MD plate, 100 μL in a YPD plate with gentamicin and 100 μL in a YPD plate. Plate the remnant volume (800μL) in other MD plate (optional).
- Keep plates drying in sterile hood.
- Keep plates at incubator for 2 to 4 days at 30 ° C (verify growth daily).
Genomic DNA extraction (P. pastoris)
Genomic DNA was extracted from Pichia pastoris by the following protocol: Single-tube LiOAc-SDS lysis
- Collect 100 μL liquid YPD culture (OD600 = 0.4) or pick P. pastoris (or collect overnight culture in 5 mL)
- Suspend in 100 μL 200 mM lithium acetate (LiOAc) 1% SDS solution
- Vortex and incubate for 10 min at 70°C (or 20 min at room temperature)
- Add 300 μL of 96% ethanol (cold) for DNA precipitation
- Briefly vortex and collect DNA by centrifugation (15,000× g) for 3 min
- Remove supernatant and wash the pellet with 500 μL 70% ethanol (cold) (pipette up and down)
- Briefly vortex and collect DNA by centrifugation (15,000×g) for 3 min. Discard supernatant. Briefly dry pellet at room temperature.
- Suspend in 100 μL water or TE to dissolve DNA
- Remove debris by centrifugation (15,000× g for 1 min)
- Use 1μL supernatant for PCR
OBS: To test gDNA quality, dilute 80-100 μL in 10-fold of water. Scan in spectrophotometer (200-360 nm) and analyse data.
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