Team:KIT-Kyoto/Notebook/Protocol
From 2014.igem.org
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<li>Centrifuge again for 1 minute at 13,000 rpm | <li>Centrifuge again for 1 minute at 13,000 rpm | ||
</li> | </li> | ||
- | <li>Place the column on a new sample tube and add 100 | + | <li>Place the column on a new sample tube and add 100 μL distilled water |
</li> | </li> | ||
<li>Centrifuge for 1 minute at 6,000 rpm | <li>Centrifuge for 1 minute at 6,000 rpm | ||
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<td>45 seconds</td> | <td>45 seconds</td> | ||
<td>2 minutes</td> | <td>2 minutes</td> | ||
- | <td>1 | + | <td>1 minute</td> |
</tr> | </tr> | ||
<tr> | <tr> | ||
Line 964: | Line 964: | ||
<div class="scroll"> | <div class="scroll"> | ||
</div> | </div> | ||
- | <h2><a href="javascript:void(0);"> | + | <h2><a href="javascript:void(0);">Preculture</a></h2> |
<div class="ac"> | <div class="ac"> | ||
<p class="sentence"> | <p class="sentence"> | ||
Line 1,270: | Line 1,270: | ||
</tr> | </tr> | ||
<tr> | <tr> | ||
- | <td>10% (w/v)SDS ( | + | <td>10% (w/v)SDS (μL) </td> |
<td>80</td> | <td>80</td> | ||
<td>80</td> | <td>80</td> | ||
Line 1,278: | Line 1,278: | ||
</tr> | </tr> | ||
<tr> | <tr> | ||
- | <td>10% (w/v) ammonium persulfate (AP) ( | + | <td>10% (w/v) ammonium persulfate (AP) (μL)</td> |
<td>27</td> | <td>27</td> | ||
<td>27</td> | <td>27</td> | ||
Line 1,286: | Line 1,286: | ||
</tr> | </tr> | ||
<tr> | <tr> | ||
- | <td>TEMED ( | + | <td>TEMED (μL)</td> |
<td>4</td> | <td>4</td> | ||
<td>4</td> | <td>4</td> | ||
Line 1,315: | Line 1,315: | ||
</tr> | </tr> | ||
<tr> | <tr> | ||
- | <td>10% SDS ( | + | <td>10% SDS (μL) (ml)</td> |
<td>50</td> | <td>50</td> | ||
</tr> | </tr> | ||
<tr> | <tr> | ||
- | <td>10% APS ( | + | <td>10% APS (μL) (ml)</td> |
<td>17</td> | <td>17</td> | ||
</tr> | </tr> | ||
Line 1,642: | Line 1,642: | ||
<p class="sentence"> | <p class="sentence"> | ||
<ul class="procedure"> | <ul class="procedure"> | ||
- | <li>Prepare PCR primers (10 pmol/ | + | <li>Prepare PCR primers (10 pmol/μL) and template plasmid (50 ng/μL)</li> |
<li>Prepare the PCR reaction mixture as follows: | <li>Prepare the PCR reaction mixture as follows: | ||
<div class="m_table"> | <div class="m_table"> | ||
Line 1,720: | Line 1,720: | ||
</tr> | </tr> | ||
<tr> | <tr> | ||
- | <td>Control Primer #1(10 pmol/ | + | <td>Control Primer #1(10 pmol/μL)</td> |
<td>1.5μL</td> | <td>1.5μL</td> | ||
</tr> | </tr> | ||
<tr> | <tr> | ||
- | <td>Control Primer #2(10 pmol/ | + | <td>Control Primer #2(10 pmol/μL)</td> |
<td>1.5μL</td> | <td>1.5μL</td> | ||
</tr> | </tr> | ||
<tr> | <tr> | ||
- | <td>Control Plasmid pAK119M (50 ng/ | + | <td>Control Plasmid pAK119M (50 ng/μL)</td> |
<td>1μL</td> | <td>1μL</td> | ||
</tr> | </tr> | ||
<tr> | <tr> | ||
- | <td>KOD -Plus- (1 U/ | + | <td>KOD -Plus- (1 U/μL) </td> |
<td>1μL</td> | <td>1μL</td> | ||
</tr> | </tr> | ||
Line 1,773: | Line 1,773: | ||
<div class="ac"> | <div class="ac"> | ||
<ul class="procedure"> | <ul class="procedure"> | ||
- | <li>Add 2 | + | <li>Add 2 μL of <em>Dpn</em>1 restriction enzyme (10 U/μL) to 50 μL PCR reaction from |
step 1.</li> | step 1.</li> | ||
<li>Gently and thoroughly mix each reaction mixture by pipetting</li> | <li>Gently and thoroughly mix each reaction mixture by pipetting</li> | ||
Line 1,845: | Line 1,845: | ||
coli</em> cells. <br> | coli</em> cells. <br> | ||
<ul class="procedure"> | <ul class="procedure"> | ||
- | <li>Gently thaw the competent cells (100 | + | <li>Gently thaw the competent cells (100 μL) on ice. </li> |
- | <li>Add 10 | + | <li>Add 10 μL of reaction mixture from Step 3 to the competent cells, swirl gently |
and incubate for 30 min on ice.</li> | and incubate for 30 min on ice.</li> | ||
<li>Incubate for 30 seconds at 42°C and then place on ice for 2 min</li> | <li>Incubate for 30 seconds at 42°C and then place on ice for 2 min</li> | ||
- | <li>Add 900 | + | <li>Add 900 μL of SOC medium and incubate at 37°C for 1 hr with shaking. |
</li> | </li> | ||
- | <li>Plate appropriate volumes (10~200 | + | <li>Plate appropriate volumes (10~200 μL) of transformed <em>E. coli</em> solution on agar |
plates containing the appropriate antibiotic for the plasmid vector. </li> | plates containing the appropriate antibiotic for the plasmid vector. </li> | ||
<li>Incubate the plates at 37°C for ~16 hr.</li> | <li>Incubate the plates at 37°C for ~16 hr.</li> |
Latest revision as of 03:36, 18 October 2014
Protocol
Miniprep
Materials
Buffer 1 | 250μL |
Buffer 2 | 250μL |
Buffer 3 | 350μL |
Buffer 4 | 500μL |
Buffer 5 | 700μL |
Distilled water | 100μL |
Sample |
Procedure
- Suspend the sample in buffer 1 (1.5 ml sample tube)
- Add buffer 2 to the sample and mix it
- Add buffer 3 to the sample and mix it
- Centrifuge for 5 minutes at 13,000 rpm and apply the supernatants to the column
- Add buffer 4 and centrifuge for 1 minute at 13,000 rpm then throw away the filter paper
- Add buffer 5 and centrifuge for 1 minute at 13,000 rpm then throw away the filter paper
- Centrifuge again for 1 minute at 13,000 rpm
- Place the column on a new sample tube and add 100 μL distilled water
- Centrifuge for 1 minute at 6,000 rpm
Recipes for Buffer
Buffer 1 (Suspension Buffer) | 50 mM Tris-HCl and 10 mM EDTA, pH 8.0 (25°C) 50 μg/ml RNase A |
Buffer 2 (Lysis Buffer) | 0.2 M NaOH and 1% SDS |
Buffer 3 (Neutralization and Binding Buffer) | 4 M guanidine hydrochloride and 0.5 M potassium acetate, pH 4.2 |
Buffer 4 (Wash Buffer) | 5 M guanidine hydrochloride, 20 mM Tris-HCl, pH 6.6 (25°C) [final conentrations after addition of ethanol] with 38% ethanol |
Buffer 5 (Wash Buffer) | 20 mM NaCl, 2 mM Tris-HCl, pH 7.5 (25°C) [final conentrations after addition of ethanol] with 80% ethanol |
PCR-1
Materials
Buffer for KOD-FX-NEO | 50μL |
dNTP | 20μL |
Primer mix | 1.0μL |
Template DNA | 0.5μL |
KOD-FX-NEO (TOYOBO) | 2.0μL |
H2O | 26.5μL |
Total | 100μL |
---|
Procedure
- Add buffer, dNTP, primer mix, Template DNA, KOD-FX-NEO and distilled water to an Eppendorf tube and mix
- Place the PCR tubes into the PCR machine and set the program
PCR Profile for KOD-FX-NEO
Predenature | Denature | Annealing | Extension | Final Extension |
98.0°C KOD-FX-NEO | 98.0°C | 51.0°C | 68.0°C | 68.0°C |
2 minutes | 10 seconds | 30 seconds | 1 minute | 2 minutes |
1 cycle | 30 cycles | 1 cycle |
PCR Primer Design
Lot.No | Oligo | Base Number | Sequence |
---|---|---|---|
T14F190235 | pGEX6P-2F1 | 30 | CACACAGGAACTAGTATTCATGTCCCCTAT |
T14F190236 | pGEX6P-2F2 | 30 | GGATCTGGAAGTTCTGTTCCACTAGTCCCT |
T14F190237 | pGEX6P-2R | 29 | TCATCACCGAAACGCTCGAGGCAGATCGT |
PCR-2
Materials
Taq Buffer | 50μL |
dNTP | 20μL |
Primer mix | 1.0μL |
Template DNA | 0.5μL |
Taq polymerase | 2.0μL |
H2O | 26.5μL |
Total | 100μL |
---|
Procedure
- Add buffer, dNTP, primer mix, Template DNA, Taq polymerase and distilled water to an Eppendorf tube and mix
- Place the PCR tubes into the PCR machine and set the program
PCR Profile for KOD-FX-NEO
Predenature | Denature | Annealing | Extension | Final Extension |
---|---|---|---|---|
98.0°C Taq polymerase | 95.0°C | 53.0°C | 72.0°C | 72.0°C |
30 seconds | 30 seconds | 45 seconds | 2 minutes | 1 minute |
1 cycle | 30 cycles | 1 cycle |
PCR Primer Design
Lot.No | Oligo | Base Number | Sequence |
---|---|---|---|
T14H280166 | Terpinene3-suffix-Spe1 | 30 | CAGTCAGTCACGAACTAGTTTAAGGATGGG |
T14H280167 | Terpinene3-prefix-Xba1 | 30 | CCGGGTTCTAGATGGCTGCATCCACTACTT |
T14H180317 | Terpinene3-mutagenesis-FP | 28 | TTGGAGTTCTTGCAGGATTCTCCCGATA |
T14H180318 | Terpinene3-mutagenesis-RP | 26 | GGCCTCCTTTGTTATTGGATTTGCTG |
Restriction Digest
Materials
DNA sample | 6μL |
Buffer | 1μL |
Restriction Enzyme | 0.5μL |
Distilled water | 2.5μL |
Procedure
- Add all materials to a tube and mix them gently
- Incubate at 37˚C for the enzyme reaction for 15 minutes
AGE
Materials
Sample | 5μL |
Agarose gel | |
2X Loading Buffer Triple Dye (NIPPON GENE) | 5μL |
1X TAE Buffer |
Procedure
- Set an agarose gel on an electrophoresis chamber
- Add 1X TAE buffer to the electrophoresis chamber
Note: Do not generate bubbles under the gel - Add 2X loading buffer to electrophoresis samples
- Apply samples on agarose gel wells
- Set an appropriate voltage (100 V) and run the electrophoresis
- Stop the electrophoresis when the BPB reaches 2/3 of the gel
- Soak the gel in EtBr (ethidium bromide) solution and dye it for 20 minutes
- Place plastic cooking wrap on the trans-illuminator and irradiate UV to the gel on the wrap
- Take photographs of the gel by using a trans-illuminator
Agarose Concentration Versus Optical Range of DNA Size
Agarose Concentration (%) | DNA (kbp) |
0.3 | 5-60 |
0.6 | 1-20 |
1.0 | 0.3-7 |
1.5 | 0.2-4 |
2.0 | 0.1-2 |
DNA Refinement 1
Materials
DNA sample | 200μL |
distilled H2O | 400μL |
CH3COONa | 50μL |
Phe/Chl | 700μL |
Isopropyl alcohol | 750μL |
75% Ethanol | 1000μL |
Procedure
- Add materials (DNA, H2O, CH3COONa, and Phe/Chl) to sample tube and vortex
- Centrifuge at 14,500 rpm for 10 minutes at room temperature
- Transfer the supernatant to a new sample tube
- Add 750 μL of isopropyl alcohol to the sample tube and vortex
- Centrifuge at 14,500 rpm for 10 minutes at 4°C
- Remove isopropyl alcohol gently so that the pellet will not break
- Add 1,000 μL of 75% ethanol and centrifuge at 14,500 rpm for 5 minutes at 4°C
- Dry it by aspirator for 10 minutes
- Add 25 μL of distilled H2O and mix
Note
- Phe/Chl composition Phenol:Chloroform:Isoamyl alcohol=25:24:1
DNA Refinement 2
Materials
sample | 30μL |
Bacterial Alkaline Phosphatase (BAP) | 1μL |
Low melting agarose gel | |
6×Loading Buffer Double Dye | 5μL |
Distilled water | 200μL |
Phenol | |
Phe/Chl | |
Isopropyl alcohol | 750μL |
5M CH3COONa | 50μL |
70% Ethanol | 1000μL |
Procedure
- Add BAP to vector and dephosphorize for 30 minutes at 37°C
- Run the electrophoresis with agarose gel
- Cut out the targeted band and mix with 200 μL of distilled water in a tube
- Heat the sample for 5 minutes at 65°C
- Add the same amount of phenol as the sample and vortex
- Centrifuge at 14,500 rpm for 10 minutes at room temperature and apply the supernatant to the new sample tube
- Add the same amount of Phe/Chl as the sample and vortex
- Centrifuge at 14,500 rpm for 5 minutes at room temperature and apply the supernatant to the sample tube
- Add 750 μL of Isopropyl alcohol and 50 μL of CH3COONa and centrifuge at 14,500rpm for 10 minutes at 4°C
- Rinse with 70% ethanol at 14,500 rpm 5 minutes at 4°C
- Dry it for 15 minutes
Ligation
Materials
DNA sample | 5μL |
DNA ligase (Ligation High from Nippon gene) | 5μL |
Procedure
- Mix DNA sample and DNA ligase in a sample tube gently
- Ligation for 15 minutes at room temperature
Transformation (E. coli)
Materials
DNA Sample | 10μL |
Competent cell | 50μL |
Procedure
- Thaw the competent cells on ice
- Add 10 μL of sample into thawed competent cells
- Cool the sample tube, which contains competent cells and DNA samples, with ice for 1 hour, then Heat shock the cells by immersion in pre-hearted water bath at 42°C for 30 seconds
- Place the tube on ice for 2 minutes to cool it down
- At a clean bench, add 1.0 ml of LB medium into the tube and suspend it
- Incubate the tube at 37°C for 35 minutes
- Harvest the cells by centrifuge
- Spread the transformed competent cells onto the agar plate and incubate it at 37°C overnight
Transformation (S. cerevisiae)
Materials
Sample | 5μL |
Competent cells | 95μL |
YPD plate containing G418 |
Procedure
- Cool down a cuvette for 5 minutes on ice
- Harvest the yeast cells by centrifuge at 4 °C
- Suspend the cells in 20 ml of cold 1M sorbitol and harvest by centrifuge at 4 °C (2times)
- Suspend the cells in 500μL of cold 1M sorbitol
- Mix DNA sample (5 μL) and the cell suspension (95 μL) in a cold cuvette
- Electroporate under the following conditions: 200 Ω, 25 μF and 1.5 kV
- Immediately inoculate on YPD plates containing G418
- Incubate at 30 °C for 2 days
Preculture
Materials
Sample (E. coli cells ) | |
Medium (LB medium with appropriate antibiotics) | 20ml |
Procedure
- Scrape samples from the agar plate and inoculate them in liquid media
- Cultivate overnight (37℃, 120 rpm)
Main Culture
Materials
LB medium | 100ml |
IPTG | 10μL |
Sample | 500μL |
Procedure
- Add samples to LB medium and cultivate (37°C, 120 rpm) until reaching a cell density of OD600=0.5
- Add IPTG (10 μL) to the medium (25 ml)
- Further cultivation for 3 hours
Protein Extraction (E. coli)
Materials
Sample | |
FastBreak Cell Lysis Reagent, 10X (Promega) | |
50mM potassium phosphate buffer (=pH6.8) | |
SDS sample buffer |
Procedure
- Separate samples into two and harvest by centrifuge
- Add potassium phosphate buffer, then mix and remove medium completely
- Add FastBreak Cell Lysis Reagent, 10X at the ratio of FastBreak Buffer Cell Lysis Reagent,10X: Samples=1:9 and extract protein for 15 minutes at room temperature
Protein Extraction (S. cerevisiae)
Materials
Glass Beads | |
50 mM potassium phosphate buffer (pH6.8) | |
SDS sample buffer |
Procedure
- Harvest yeast cells by centrifuge at 3,000 rpm for 4 minutes at room temperature
- Wash cells once with potassium phosphate buffer
- Cool down the sample tube on ice for 1 minute
- Add the same amount of glass beads as the sample then add 20 μL of potassium phosphate buffer and mix
- Disrupt the cells by FastPrep 24 (MP Biochemicals) for 45 seconds at speed 4.5
- Cool down the sample tube on ice for 1 minute
- Add 80 µl of potassium phosphate buffer, cool it down and centrifuge for 5 minutes at 14,500 rpm at 4°C
- Transfer 40 µl of the supernatant and mix with 8 µl of SDS sample buffer
- Treat the sample with heat for 5 minutes at 100˚C
Colony Sweep
Materials
Sample | |
Phenol/Chloroform water-saturated solution (Phe/Chl) | |
Cracking solution 3% w/v SDS, 50 mM Tris-base, pH12.6 |
Procedure
- Dispense cracking solution (50 μL) each into sample tubes
- Collect the sample and suspend it into cracking solution
- Incubate at 65°C for 10 minutes
- Add Phe/Chl and BPB pigment and vortex
- Centrifuge at 14,000 rpm for 5 minutes
- Apply the samples (upper layer) to agarose gel with loading dye
- Check the bands by agar gel electrophoresis
SDS-PAGE
Materials
Sample | |
Separating Gel | |
Stacking Gel |
Procedure
- Place stacking gel on separating gel
- Rinse the wells of gel with distilled water
- Load prepared samples into wells
- Run the electrophoresis (25 mA for 75 min)
- Check the bands with CBB stain
Separating Gel
Acylamide (%) | 7.5 | 10 | 12.5 | 15 | 17.5 |
MilliQ H2O (ml) | 3.89 | 3.22 | 2.55 | 1.87 | 1.2 |
Acrylamide/Bis-acrylamide (30%/0.8% w/v) | 1.99 | 2.7 | 3.38 | 4.04 | 4.7 |
1.5M Tris-HCl(pH8.8) (ml) | 2 | 2 | 2 | 2 | 2 |
10% (w/v)SDS (μL) | 80 | 80 | 80 | 80 | 80 |
10% (w/v) ammonium persulfate (AP) (μL) | 27 | 27 | 27 | 27 | 27 |
TEMED (μL) | 4 | 4 | 4 | 4 | 4 |
Stacking Gel
MilliQ H2O (ml) | 2.89 |
30% (w/v) acrylamide (ml) | 0.79 |
0.5M Tris-HCl(pH6.8) (ml) | 1.25 |
10% SDS (μL) (ml) | 50 |
10% APS (μL) (ml) | 17 |
TEMED (μl) (ml) | 5 |
Western Blotting
Materials
BufferⅠ | 0.3 M Tris base, 20% MetOH (pH 10.9) |
BufferⅡ | 25 mM Tris base, 20% MetOH |
BufferⅢ | 25 mM Tris base, 0.05 mM Boric acid, 20% MetOH (pH 9.5) |
PBS | 137 mM NaCl, 8.1 mM Na2HPO4 (12H2O), 2.68 mM KCl, 1.47 mM KH2PO4 |
PBS-S | PBS including 0.1% skim milk |
PBS-T | PBS including 0.05% Tween20 |
PBS-TS | PBS including 0.1% skim milk & 0.05% Tween20 |
PonceauS (Sigma) | |
PVDF membrane (Immobilon Transfer membrane by Millipore) | 1 sheet |
Whatman paper (Whatman 3MM) | |
Hybridization bag (Cosmo Bio) | |
Peroxidase Stain Kit (Nacalai Tesque) | |
Anti-GST antibody conjugated with HRP (Wako) |
Procedure
- Cut the gel in appropriate size
- Soak gel in buffer III and shake gently for 15 minutes
- Soak the membrane on methanol then transfer it in buffer III
- Soak Whatman papers (all in the same size) in Buffer I (2 sheets), Buffer II (1 sheet) and Buffer III (3 sheets) respectively
- Wet the surface of the blotter
- Put items in the following order: Buffer III paper, gel, membrane, Buffer II paper and Buffer I paper
- Blot at the constant current of membrane's area ×2.5 mA for 20 minutes
- Dye the membrane with Ponceau S for 5 minutes, rinse it with distilled water and scan it
- Shake and wash with PBS-TS (3 minutes ×3times)
- The membrane was incubated with anti-GST antibody containing HRP in PBS-S at room temperature for 1 hour
- Wash with PBS-T twice (5 minutes/10 minutes)
- Wash with PBS twice (5 minutes/5 minutes)
- Stain the membrane using Peroxidase Stain Kits
- Scan it
LB Medium
Materials
Tryptone | final concentration: 1%(w/v) |
Yeast Extract | final concentration: 0.5%(w/v) |
NaCl | final concentration: 1%(w/v) |
5M NaOH |
Procedure
- Dissolve Tryptone (1.0 g), Yeast Extract (500 mg) and NaCl (1.0 g) in distilled water (90 ml)
- Adjust pH to 7.0 by adding 20 μL of 5M NaOH
- Fill up to 100 ml with distilled water
- Autoclave
Note
- To make agar plate, add agar powder at the final concentration of 2 %(w/v) in Procedure 2
YPD Medium
Peptone | final concentration: 2%(w/v) |
Yeast extract | final concentration: 1%(w/v) |
Glucose | final concentration: 2%(w/v) |
Procedure
- Dissolve peptone (2.0 g), yeast extract (1.0 g) and glucose (2.0 g) to distilled water (90 ml)
- Fill up to 100 ml with distilled water
- Sterilize by autoclave
Note
- To make agar plate, add agar powder (final concentration: 2.0%) at procedure 1.
SD Medium
Materials
Yeast nitrogen base | 0.67%(w/v) |
Glucose | 2% (w/v) |
Adenine | 0.004% (w/v) |
Histidine | 0.002% (w/v) |
Leucine | 0.006% (w/v) |
Lysine | 0.003% (w/v) |
Methionine | 0.002% (w/v) |
Tryptophan | 0.004% (w/v) |
Procedure
- Dissolve yeast nitrogen base (6.7 g), adenine (40 mg), histidine (20 mg), leucine (60 mg), lysine (30mg), tryptophan (40mg) and methionine (20mg) into 40 ml of distilled H2O, and then fill up to 50 ml with H2O.
- Dissolve glucose (20.0 g) into 40 ml of distilled H2O, and then fill up to 50 ml with H2O.
- Sterilize each solution by autoclave.
- Mix solutions after cooling it down.
Note
- Autoclave glucose and agar plate separately from other materials
No. 1 Inverse PCR
- Prepare PCR primers (10 pmol/μL) and template plasmid (50 ng/μL)
- Prepare the PCR reaction mixture as follows:
PCR grade water 35μL 10×Buffer for iPCR 5μL 2 mM dNTPs 5μL Primer A (10 pmol/μL) 1.5μL Primer B (10 pmol/μL) 1.5μL Plasmid Template DNA (50ng/μL) 1μL KOD-Plus-DNA Polymerase 1μL Total 50μL
- Perform PCR reaction as follows: PCR Profile for KOD-FX-NEO
94.0°C 98.0°C 68.0°C 4.0°C 2 minutes 10 seconds 7 minutes Hold 1 cycle 20 cycles 1 cycle
- [Optional] The control reaction is as follows:
PCR grade water 35μL 10×Buffer for iPCR 5μL 2 mM dNTPs 5μL Control Primer #1(10 pmol/μL) 1.5μL Control Primer #2(10 pmol/μL) 1.5μL Control Plasmid pAK119M (50 ng/μL) 1μL KOD -Plus- (1 U/μL) 1μL Total 50μL
94.0°C 98.0°C 98.0°C 2 minutes 10 seconds 5 minutes 1 cycle 5 cycles
No. 2 Dpn1 digestion of the template plasmid
- Add 2 μL of Dpn1 restriction enzyme (10 U/μL) to 50 μL PCR reaction from step 1.
- Gently and thoroughly mix each reaction mixture by pipetting
- Spin down the reaction mixture and incubate at 37°C for 1 hr to digest the template plasmid
(Optional) Gel electrophoresis
To confirm PCR amplification, we recommend agarose gel electrophoresis analysis.
However, in the case of 5 or less cycles of amplification, it may be only possible to
detect a faint band or no band at all. If only a faint or no band is detected, please
proceed to the next step.
No. 3 Self-ligation of the PCR Product
- Prepare the kination/ligation reaction mixture using a fresh tube as follows:
Dpn1- treated PCR product 2μL PCR grade water 7μL Ligation high 5μL T4 Polynucleotide Kinase 1μL Total Volum 15μL
- Gently and thoroughly mix each reaction mixture by pipetting
- Centrifuge the reaction mixture and incubate each reaction at 16°C for 1 hr
No. 4 Transformation
Standard E. coli strains can be used as the transformation host. Both
electrocompetent and chemically competent E. coli cells can be used. The
following protocol is a standard protocol using chemically prepared competent E.
coli cells.
- Gently thaw the competent cells (100 μL) on ice.
- Add 10 μL of reaction mixture from Step 3 to the competent cells, swirl gently and incubate for 30 min on ice.
- Incubate for 30 seconds at 42°C and then place on ice for 2 min
- Add 900 μL of SOC medium and incubate at 37°C for 1 hr with shaking.
- Plate appropriate volumes (10~200 μL) of transformed E. coli solution on agar plates containing the appropriate antibiotic for the plasmid vector.
- Incubate the plates at 37°C for ~16 hr.
No. 5 Analysis of Transfomants
A typical mutagenesis efficiency of this kit is greater than 80%. Therefore, analysis
of 4-8 clones is typically appropriate for sequence verification.