Line 7: | Line 7: | ||
<h3>[0] Recipes</h3> | <h3>[0] Recipes</h3> | ||
− | < | + | <h4>1x TAE</h4> |
<p>1mM EDTA, 20mM acetic acid, 40mM tris</p> | <p>1mM EDTA, 20mM acetic acid, 40mM tris</p> | ||
− | < | + | <h4>LB Broth(Lennox)</h4> |
<p>10g Caesin tryptone, 5g yeast extract, 5g NaCl, 1mL NaOH</p> | <p>10g Caesin tryptone, 5g yeast extract, 5g NaCl, 1mL NaOH</p> | ||
− | < | + | <h4>LB Plates(Lennox)</h4> |
<p>15g Bacto-agar, 10g Caesin tryptone, 5g yeast extract, 5g NaCl, 1mL NaOH</p> | <p>15g Bacto-agar, 10g Caesin tryptone, 5g yeast extract, 5g NaCl, 1mL NaOH</p> | ||
− | < | + | <h4>Gene Ruler 1kb+ DNA Ladder</h4> |
<p>100uL Gene Ruler plus, 50uL 20x loading dye, 850uL dH2O</p> | <p>100uL Gene Ruler plus, 50uL 20x loading dye, 850uL dH2O</p> | ||
− | < | + | <h4>Bromoblue 20x loading dye</h4> |
<p>12mL 100% glycerol, 250mg bromophenol blue, 250mg xylene cyanol</p> | <p>12mL 100% glycerol, 250mg bromophenol blue, 250mg xylene cyanol</p> | ||
</div> | </div> |
Revision as of 04:44, 5 September 2016
Protocols
[0] Recipes
1x TAE
1mM EDTA, 20mM acetic acid, 40mM tris
LB Broth(Lennox)
10g Caesin tryptone, 5g yeast extract, 5g NaCl, 1mL NaOH
LB Plates(Lennox)
15g Bacto-agar, 10g Caesin tryptone, 5g yeast extract, 5g NaCl, 1mL NaOH
Gene Ruler 1kb+ DNA Ladder
100uL Gene Ruler plus, 50uL 20x loading dye, 850uL dH2O
Bromoblue 20x loading dye
12mL 100% glycerol, 250mg bromophenol blue, 250mg xylene cyanol
[1A] Polymerase Chain Reaction
PCR is used to rapidly amplify certain segments of DNA that are selected via designed primers. This protocol was used to accomplish a variety of goals, from extraction of parts from a cloning vector to the addition of restriction cut sites at the ends of parts.
- Defrost template, 2x Master Mix and primers
- Determine desired total working volume (~25uL)
- Label reaction tubes
- Create below reaction mix
- Place mixture in thermal cycler at settings shown below
Part | Concentration | Volume for 25uL reaction |
---|---|---|
2x Master Mix | 2x | 12.5uL |
dsDNA Template | - | 1uL |
Forward primer | - | 1uL |
Reverse primer | - | 1uL |
DI H2O | - | 9.5uL |
Sample Reaction
This is an example protocol used in the thermal cycler, durations and temperatures subject to change
Step Name | # of Cycles | Temperature(℃) | Duration(min) |
---|---|---|---|
Initial | 1 | 98 | 3 |
Denaturation | 30 | 98 | 0.5 |
Annealing | 30 | 56 | 0.5 |
Elongation | 30 | 72 | 0.5 |
Final Elongation | 1 | 72 | 10 |
Storage | 1 | 4 | ∞ |
[1B] PCR Cleanup
The Qiagen Qiaquick PCR cleanup kit was used to purify the thermal cycler product and remove remaining polymerases and nucleotides.
- Gather the solutions from the PCR cleanup kit
- Mix 5 times volume of Buffer PB with PCR reaction tube
- Add 10uL 3M sodium acetate
- Spin down the mixture in a QIAquick filter column at max speed for 60s. Discard flow-through and replace column into tube
- Add 750uL of Buffer PE to the mixture and spin down at max speed for 60s to wash. Discard flow-through and replace column
- Centrifuge the tube one more time to remove any remaining wash buffer
- Place column in clean 1.5mL plastic tube
- Add 30uL of Buffer EB to the column and let stand for 1min. Centrifuge at max speed for 1 min.
[2A] DNA Restriction Digest
- Gather DNA sample, digestion buffer, and restriction enzymes from cold storage
- Label tubes
- Create the below reaction mixture
- Place mixture in 37°C heat block for 10 minutes
Component | Volume for 25uL reaction |
---|---|
DNA Sample | 15uL |
10x FastDigest Digestion Buffer | 2.5uL |
Restriction Enzyme 1 | 1uL |
Restriction Enzyme 2 | 1uL |
DI H2O | 5.5uL |
[2B] Gel Verification/Extraction
- Make 1% gel by adding .6g of agarose to 60mL of 1x TAE buffer
- Swirl in glass flask and microwave for 40s
- Remove from microwave and swirl again. Microwave again for 40s
- Let cool until safe to touch. Add 6uL of SYBR safe red stain
- Pour mixture into gel mold with comb set up
- Fill gel electrophoresis apparatus with 1x TAE
- Remove comb from gel and submerge gel in apparatus
- Add 4uL of 1kb+ blue ladder to the first well
- Add samples mixed with loading dye to other wells
- Connect negative/positive ends to apparatus. Run at 110V
- Run for 30min-1hr. Remove and take to UV imager
- Photograph under UV light. If doing gel extraction, use scalpel to cut out blocks of gel containing desired bands
- Gel purify using Qiagen Gel Purification kit (the protocol can be found here)
- (If extracting)Use Nanodrop Spectrophotometer to measure DNA concentration
[2C] Ligation
- Retrieve digested samples(insert and vector DNA), ligase, and ligation buffer from cold storage
- Determine a desired ratio of insert:vector molecules in reaction (2:1, or higher for higher success)
- Set up the below reaction
- Create a negative control with vector DNA but no insert DNA
- Mix via flicking the tube. Incubate at room temperature for 10 min
Component | Volume for 10uL reaction |
---|---|
Insert DNA | - |
Vector DNA | - |
2x Rapid Ligation Buffer | 5uL |
T4 DNA Ligase | 1uL |
DI H2O | - |
[2D] Transformation(for ligated samples)
- Retrieve ligation sample, and enough plates for all samples and a control
- Warm up plates in 37°C
- Retrieve competent cells from freezer and store in ice
- Mix total ligation mixture with 50uL of cells in a tube. Mix via pipetting
- Incubate on ice for 10 minutes
- Place tubes in 42°C heat block for 45 seconds to heat shock, then put them back on ice for 1 minute
- Add 750uL SOC media to tubes
- Tape tubes to 37°C shaking incubator for 45 minutes to recover
- Remove from incubator and pellet in centrifuge. Discard the supernatant
- Add 100uL of LB broth with antibiotic that matches selected plates
- Pipette total mixture onto plates with antibiotic. Spread with glass beads
- Incubate overnight at 37°C
[3] Miniprep
The miniprep kit that was used was the Sigma-Aldrich GenElute Plasmid Miniprep Kit. The used protocol can be found here
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