Team:WashU/Notebook
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Notebook
You should make use of the calendar feature on the wiki and start a lab notebook. This may be looked at by the judges to see how your work progressed throughout the summer. It is a very useful organizational tool as well.
May 31
- Preliminary Shopping List
- PCR buffer w/o MgCl - 5ML - $45.00
- M8787- 5ML -MgCl Reagent- $49.30
- D7295-.5ML - dNTP - $73.00
- D4184-250UN - Taq Polymerase - $150.00
- D8045-250UN - AccuTaq - $300
- E1385-5ML – Ethidium Bromide – $23.70
- T8280-1L – Tris Acetate EDTA Buffer – $45.10
- NA1020-1KT – PCR Clean-Up Kit -$102.50
- NA1111-1KT - Gel Extraction Kit - $102.00
Subtotal: $890.60
- Met with Cohen Lab grad students to finalize plan and get cassettes.
- Received Leu2 cassette in pRS305 plasmid.
- Received Ura3 cassette in pRS306 plasmid.
June 1
- Lesson from Bert Berla on how to design primers
- Codon Optimized the four genes using tool at: http://www.encorbio.com/protocols/Codon.htm
- Double checked gene and restriction sites to make sure enzyme does not cut in the middle of the gene
- Design Primers for cassettes
- Ura3, Leu2, KanMX4, and NatMX4
June 2
- Made two liters of LB solution
- 25g of LB Broth per Liter (10g Tryptone, 5g Yeast Extract, and 10g NaCl)
- Autoclaved solutions: 30 minute sterilization.
- Refrigerated after cooling.
June 3
- Made YPD
- In 800ml water in 1 L bottle dissolve 10g of BactoYeast extract
- Dissolve 20g of BactoPeptone in the above solution
- In 200ml water in 500ml bottle dissolve 20g Dextrose
- Autoclave both, combine after autoclaving. (30 minute sterilization)
- Made 1000X Ampicillin Stock
- Added 2g Ampicillin to 20ml water.
- Added NaOH until dissolved.
- Sterile filtered.
- Frozen in -20C Freezer
- Made cultures of E. coli strains with KanMx4 and Natmx4 inserts.
- In culture tubes, added 5ml LB and 5ul 1000X Ampicillin Stock.
- Transferred one colony per strain from plates to culture tubes.
- Incubate at 30 degrees Celsius shaking at 225rpm overnight.
- Made cultures of Yeast strains BC177 and BC178
- Added 5ml YPD to two culture tubes.
- Transferred one colony per strain from plates to culture tubes.
- Incubate at 30 degrees Celsius shaking at 225rpm overnight.
June 4
- Making freezer stocks of yeast cultures BC177 and BC178
- Add 1.25mL glycerol to yeast culture
- Freeze yeast culture in -80 degree freezer
- Make E.coli mini-preps for plasmids containing KanMX4 and NatMX4 (Sigma-Aldrich Mini-Prep Kit)
- Transferred 4 ml of each culture to microcentrifuge tubes.
- Centrifuge for one minute at 12000xg
- Pour out supernatant
- add 200uL of resuspension solution with RNase
- add 200uL of lysis buffer
- add 350uL of neutralization buffer
- Centrifuge for 10 minutes at 12000xg
- Insert a Miniprep Binding Column into microcentrifuge tubes and add 500uL of Column Preparation Solution to each miniprep column.
- Centrifuge at 12000xg for 1 minute. Discard the flow-through
- Take the lysis of the cultures resulting from the 10 minute centrifuge and pipet it into the binding column
- Centrifuge at 12000xg for 1 minute. Discard the flow-through
- Add 500uL of Wash Solution 1 to the column and centrifuge at 12000xg for one minute. Discard the flow-through.
- Repeat the previous step
- Add 750uL of Wash Solution 2 (with ethanol) to the column and centrifuge at 12000xg for one minute. Discard the flow-through.
- Centrifuge at 12000xg for one minute.
- Transfer the column to a fresh collection tube and add 100uL of Elution Solution to the column
- Centrifuge at 12000xg for one minute.
- Store the eluate at -20 degrees C
- This procedure was done separately for the plasmids that contain KanMX4 and NatMX4.
June 5
Read absorbances for all four solutions that contain plasmids with our cassettes: Ura3, Leu3, KanMX4, and NatMX4.
Data was obtained using a nano-drop spectrophotometer. Absorbance was observed between 250nm and 280nm.
DNA Concentrations were as follows:
- Ura3: Very high absorbance reading, must be diluted 1/10 in order to get accurate concentration reading.
- Leu2: Very high absorbance reading, must be diluted 1/10 in order to get accurate concentration reading.
- KanMX4: 30.5 ng/uL
- NatMX4: Very low absorbance reading, eluent was discarded.
- Last year's NatMX4 solution: Very high absorbance reading, must be diluted 1/10 in order to get accurate concentration reading.
- Made new culture of NatMX4
- 5ml of TB + 5uL of 1000x Ampicillin
- Incubated overnight at 31 degrees Celsius.
June 6
- LEU2 group
- Make dilution for nanodrop
- Make solution of 5uL LEU2, 45uL DI water
- Concentration: 42.0 ng/uL
- Make dilution for nanodrop
- URA3 group
- Make dilution for nanodrop
- Make solution of 5uL URA3, 45uL DI water
- Concentration: 35.9 ng/uL
- Make dilution for nanodrop
- KanMX4 group
- 30.5 ng/uL (from previous day)
- NatMX4 group
- Performed mini-prep on previous day's culture
- 200uL eluent with concentration of 28.7 ng/uL
- Made a 1/10 dilution of last year's NatMX4 stock. (DNA Concentration: 23.3 ng/ul)
June 7
- Ordered PCR materials and electrophoresis materials from Sigma-Aldrich.
- Designed primers to add homology to left side of cassette and an AvrII site to right side of cassette.
- Primer designs are:
Leu2
- Forward: TTT CCT AGG CCA AAC TGG AAC AAC ACT CAA CCC
- Reverse: ATA TTT AAT TAT TGT ACA TGG ACA TAT CAT ACG TAA TGC TCA ACC TAA TTT CGT GTC GTT TCT ATT ATG AAT TTC ATT TAT
Ura3
- Forward: TTT CCT AGG ACC ACA GCT TTT CAA TTC AAT TCA TCA TTT
- Reverse: AGT ATC ATA CTG TTC GTA TAC ATA CTT ACT GAC ATT CAT AAC CGC ATA GGG TAA TAA CTG ATA TAA TTA AAT TG
KanMX4
- Forward: TTT CCT AGG AGC TTG CCT CGT CCC CGC C
- Reverse:ATG AAC ATA TTC CAT TTT GTA ATT TCG TGT CGT TTC TAT TAT GAA TTT TCG ACA CTG GAT GGC GGC GTT
NatMX4
- Forward: TTT CCT AGG AGC TTG CCT CGT CCC CGC C
- Reverse: GGG TAA TAA CTG ATA TAA TTA AAT TGA AGC TCT AAT TTG TGA GTT TAG TCG ACA CTG GAT GGC GGC GTT
June 8
- Split into four technique groups
- PCR group
- Practice PCR
- Mastermix:
- 10x buffer:10uL
- betaine: 25 uL
- dNTP: 2.0uL
- Primer 1: 2.5 uL
- Primer 2: 2.5 uL
- Taq polymerase: 5 uL
- dH20: 28.0 uL
- Sample 1:
- 3uL MgCl2
- 1uL DNA template
- 16 uL master mix
- Sample 2:
- 4uL MgCl2
- 1uL DNA template
- 15 uL master mix
- Sample 3:
- 5uL MgCl2
- 1uL DNA template
- 14 uL master mix
- Sample 4 (Negative Control):
- 4uL MgCl2
- 15 uL master mix
- Mastermix:
- Practice PCR
94 degrees: 4min
34 Cycles:
- 94 degrees: 30 sec
- 58 degrees: 30 sec
- 72 degrees: 2 min (2kb product)
72 degrees: 5min
4 degrees: hold
Gel Team:
- We made a gel to use tomorrow:
- 1. Added 500 mL 1xTAE and 5g Agarose
- 2. Microwaved until dissolved completely
- 3. Allowed to cool until able to handle and added 9 mL ethidium bromide
- 4. Poured into gel mold and allowed to cool overnight
June 9
Gel Team:
- We ran the DNA the PCR team amplified yesterday
- filled the electrophoresis chamber with 1xTAE
- Added 2 mL loading buffer to each sample
- put ladder and 4 samples into gel
- ran electrophoresis for ~1h
- We imaged the gel
- used UV imaging machine to take picture below
- [[1]]
- The desired band was not visible. We determined the problem was we were testing the wrong template DNA
- We made a new batch of gels using 400mL of water and 3.5g of agarose
PCR team:
- We repeated PCR with new template DNA and freshly ordered supplies
Recipe per sample for running plasmid DNA:
- 2.5uL 10x buffer
- 1.25 uL dNTP
- 1.5 uL forward primer 44
- 1.5 uL reverse primer 43
- 16.5 uL dH20
- 0.25 uL Accutaq LA DNA polyermerase
Mastermix:
- 12.5uL 10x buffer
- 6.25 uL dNTP
- 7.5 uL forward primer 44
- 7.5 uL reverse primer 43
- 82.5 uL dH20
- 1.25 uL LA polyermerase
Sample 1, 2, 3:
- 1.5 uL DNA of plasmid pTCP2031v
- 23.5 uL Mastermix
Sample 4:
- 23.5 uL plasmid Mastermix
Recipe per sample for running genomic DNA:
- 2.5uL 10x buffer
- 1.25 uL dNTP
- 0.5 uL DMSO
- 0.5 uL forward primer 42
- 0.5 uL reverse primer 43
- 17.0 uL dH20
Mastermix:
- 12.5uL 10x buffer
- 6.25 uL dNTP
- 2.5 uL DMSO
- 2.5 uL forward primer 42
- 2.5 uL reverse primer 43
- 85.0 uL dH20
- 1.25 uL LA polyermerase
- 0.25 uL Accutaq LA DNA polyermerase
Sample 5, 6, 7:
- 1.5 uL vector DNA
- 23.5 uL Mastermix
Sample 8: 23.5 uL genomic Mastermix
Run same temperatures as before with 34 cycles
June 10
- Ran PCR products on a 1% agarose gel.
- Used UV imaging machine to produce picture below
- [[2]]
All six expected bands were visible.
Performed gel extraction on all six bands using the Sigma Kit
- excised the bands from the gel. The genomic band was too big so we cut it in half
- vector:.37g
- genomic1: .20g
- genomic2: .21g
- Placed gels in separate collection tubes and added 3 gel volumes of Gel Solubilization Soln. Allowed gels to dissolve
- Prepared 3 binding columns by adding 500uL of Column prep soln and centrifuging for 1 min. Discarded eluate
- Added 1 gel volume isopropanol to each collection tube and mixed thoroughly.
- Loaded the gel solution into the binding columns in 700 uL portions. centrifuged for 1 min and discarded eluate
- Added 700uL of Wash Soln to each column, centrifuged 1 min, and discarded eluate
- Centrifuged columns again for 1 min and discarded eluate
- Transfer each binding column to a fresh collection tube. Added 50uL of Elution Solution and incubate 1 min
- centrifuge 1 min. The elution contains the DNA
June 13
- Performed PCR product clean-up using a Sigma Kit.
gel team:
- we did PCR cleanup
- Added .5 mL of the column prep soln to 2 miniprep column and centrifuged at 12000g for 1 min. Discard eluate.
- Added 65 uL of Binding soln and 15 uL of each PCR reaction to separate columns and centrifuged for 1 min. Discard eluate
- Add .5ml of Wash soln to each column and centrifuge 1 min. Discard eluate.
- Centrifuge additional 2 min. Discard eluate and place binding column into new collection tube
- Add 50uL elution soln and allow to incubate 1 min
- centrifuge 1 min. The PCR product is in the eluate
Nano-dropped four samples:
- Gel extraction vector DNA
- No DNA present; one large peak at 230nm signifying the presence of protein.
- Gel extraction genomic DNA
- No DNA present; one large peak at 230nm signifying the presence of protein.
- PCR product clean-up vector DNA
- 50uL of solution at 36.9ng/uL
- PCR product clean-up genomic DNA
- 50uL of solution at 18.4ng/ul
June 14
Transformation:
- Made plates with LB agar
June 16
Biobrick Transformation in E. coli:
- GC5 E. coli cells and SOC medium arrived
- Began transformation of E. coli with Leu2 and Ura3 biobricks
- Thawed 50 uL cells in ice bath
- Added 10 uL sterile ddH2O into biobrick wells 11A and 11C in plate 3
- Waited 5 minutes for DNA to resuspend
- Transferred the 10 uL to microcentrifuge tubes
- Added 20 uL cells to Ura3 tube, 20 uL cells to Leu2 tube, 10 uL cells to control tube
- Added 2 uL biobrick DNA to respective tubes
- Waited 30 minutes for cells to transform on ice
- Heat shocked in water bath at 37 C for 45 seconds
- Placed cells on ice for 2 minutes
- Added 200 uL SOC medium into each tube (100 uL into control tube)
- Put tubes in shaker at 37 C at 220 rpm for one hour
- Spread onto plates with LB agar (made June 14)