Difference between revisions of "Team:Paris Bettencourt/Notebook/VitaminA"
Jeanbcaron (Talk | contribs) |
Jeanbcaron (Talk | contribs) |
||
Line 216: | Line 216: | ||
<li>the tubes were then kept at 10°C</li> | <li>the tubes were then kept at 10°C</li> | ||
</ul> | </ul> | ||
+ | |||
+ | <br><b>Gibson assembly</b> | ||
+ | <ul> | ||
+ | the goal is to assemble all the parts togther to get the plasmid with the 3 genes that are needed to produce beta carotene in <i>Saccharomyces cerevisiae</i> | ||
+ | Gibson was performed on : | ||
+ | <li>the PCR product of HO-Poly-KanMX4-HO, a plasmid from addgene </li> | ||
+ | <li>PCR product of the gblock 1.1</li> | ||
+ | <li>PCR product of the gblock 1.2</li> | ||
+ | <li>PCR product of the gblock 2</li> | ||
+ | <li>PCR product of the gblock 3</li> | ||
+ | <li>PCR product of the gblock 4</li> |
Revision as of 15:33, 7 August 2015
Jul. 14th
Jul. 15th
[add photos]
we must not forget to mention the controls.
Jul. 22nd
PCR: Made 2 tubes of PCR for each gBlocks, containing:
Settings PCR:
The PCR worked.
We then made a PCR purification (should I describe full protocol?) and measured the final concentration of gBlocks with a Nanodrop:
Jul. 28th
PCR of gBlock vA-1 part 1 and vA-1 part 2:
Settings PCR:
PCR of TDH3:
Settings PCR:
PCR of TDH3:
Settings PCR:
Gibson assembly
Goal
Extract the integrative plasmid HO-Poly-KanMX4-HO from the E.Coli provided by AddGene (Accession number #51662).Procedure
- Liquid culture overnight in LB + Ampicillin.
- Made a glycerol stock and stored it in the -20 freezer (g15.35)
- Centrifuge the tube for 1 minute with 11000 rpm.
- Follow the standard protocol of Thermo Scientific miniprep kit (is it? I followed Ihab's protocol here: https://docs.google.com/document/d/1QHBHcN8RY0c-oEY8X5kAqPrKYODTBm7K8eU_lY_yw-o/edit, we should compare them)
- Measure concentration with Nanodrop
Results
Final DNA concentrations of the 4 tubes of miniprep, measured with Nanodrop:- tube HO pl. 1 = 431.1 ng/uL
- tube HO pl. 2 = 313.6 ng/uL
- tube HO pl. 3 = 366.4 ng/uL
- tube HO pl. 4 = 261.7 ng/uL
Jul. 15th
Goal
Test chromosomal integration in WT yeast SK1 with the integrative plasmid HO-Poly-KanMX4-HO.Procedure
We followed the method described in "High-efficiency Yeast transformation using liAc/SS carrier DNA/PEG method" (Gietz 2007).- Inoculation of a single colony of the SK1 yeast strain in liquid YPD overnight on a rotatory shaker at 130 r.p.m and 30°C.
- After 16 hours the titer of the cell culture was determined. The OD 600 nm of a 1/100 dilution (10 uL in 1 mL) was measured and the cell concentration determined using the formula (1*10^6 cells.mL^-1 will give an OD600nm of 0.1).
- 2.5*10^8 cells were added to 50 mL of pre-warmed YPD and incubated for 4.5 hours at 30°C and 130 rpm.
- 1.0 mL of salmon sperm carrier DNA was denaturated in a heat block at 99°C during 5 min, and chilled rapidly in ice.
- The cells where harvested by centrifugation at 3000g for 5 min and resuspended in 25 mL of water and centrifuged again 5 min at 3000g. The washing process was repeated again, then the cells were resuspended in 1.0 mL of sterile water.
- The suspension was transfered into a 1.5 mL eppendorf tube and centrifuged for 30s at 13,000g and the suppernatent discarded
- The cells were resuspended in 0.5 mL of sterile water. 100uL of the solution are pipette in a 1.5mL microcentrifuge then the transformation mix has been added(240uL of PEG 3350,36uL of liAc 1.0 M, 50 uL of the single stranded DNA carrier(2.0 mg.mL^-1, 35 uL of DNA plus sterile water up to a total of 360 uL.u woot m8 ?
- tubes were placed at 42°C for 40 min.
- tubes were centrifuged at 13 000g for 30s in a microcentrifuge and the supernanant removed with a micropipettor. Pellet was resuspended in YPD and incubate for 3 hours at 30°C to ensure good expression of the antibiotic resistance.
- 2,20 and 200 uL of the cell suspension were plated on YPD agar + G418 and spread with glass beads.
- plates were put to grow at 30°C for 3 days
Results
We had many transformants, with the resistance marker:[add photos]
we must not forget to mention the controls.
Jul. 22nd
Goal
Amplify gBlocks vA-2, vA-3, and vA-4, which form the last parts of the polycistron.Procedure
Resuspend gBlocks and primers:- Resuspended gBlocks vA-2, vA-3 and vA-4 in 100 uL water, to reach a final concentration of 10 ng/uL.
- Made aliquots of these gBlocks at concentration 1 ng/uL.
- Resuspended primers o15.056, o15.076, o15.058, o15.059, o15.060, o15.061 in water to reach a final concentration of 100 uM for each.
- Made aliquots of each primer at concentration 10 uM.
PCR: Made 2 tubes of PCR for each gBlocks, containing:
- 1 uL of gBlock (1 ng)
- 2 uL forward primer
- 2 uL reverse primer
- 50 uL Master Mix 2X
- 45 uL water
Settings PCR:
- 30s at 98°C
- 35 times:
- 10s at 98°C
- 30s at 50°C
- 1m at 72°C
- 10m at 72°C
- the tubes were then kept at 10°C
Results
After gel migration, we got this: [image]The PCR worked.
We then made a PCR purification (should I describe full protocol?) and measured the final concentration of gBlocks with a Nanodrop:
- Final concentration gBlock vA-2 tube a = 126.1 ng/uL
- Final concentration gBlock vA-2 tube b = 96.6 ng/uL
- Final concentration gBlock vA-3 tube a = 128.7 ng/uL
- Final concentration gBlock vA-3 tube b = 75.8 ng/uL
- Final concentration gBlock vA-4 tube a = 201.8 ng/uL
- Final concentration gBlock vA-4 tube b = 108.3 ng/uL
Jul. 28th
Goal
Amplify gBlock vA-1 part 1 and gBlock vA1 part 2, which form the first parts of the polycistron.Procedure
(before maybe, explain the plan of the polycistron, and why we had to cut gBlock 1 into 2 parts) Resuspend gBlocks and primers:- Resuspended gBlocks vA-1 part 1 and vA-1 part 2 in 50 uL water, to reach a final concentration of 10 ng/uL.
- Made aliquots of these gBlocks at concentration 1 ng/uL.
- Resuspended primers o15.117, o15.118, o15.119, and o15.120 in water to reach a final concentration of 100 uM for each.
- Made aliquots of each primer at concentration 10 uM.
PCR of gBlock vA-1 part 1 and vA-1 part 2:
- 1 uL of gBlock (1 ng)
- 2 uL forward primer
- 2 uL reverse primer
- 50 uL Master Mix 2X
- 45 uL water
Settings PCR:
- 30s at 95°C
- 35 times:
- 30s at 95°C
- 30s at 55°C
- 1m at 72°C
- 10m at 72°C
- the tubes were then kept at 10°C
Results
... ______Goal
Retrieve TDH3 promoter from Biobrick BBa_K530008.Procedure
PCR of TDH3:
- 1 uL of gBlock (1 ng)
- 2 uL forward primer o15.123
- 2 uL reverse primer o15.124
- 50 uL Master Mix 2X
- 45 uL water
Settings PCR:
- 30s at 95°C
- 35 times:
- 30s at 95°C
- 30s at 55°C
- 1m at 72°C
- 10m at 72°C
- the tubes were then kept at 10°C
Results
... ______Goal
Linearize and amplify vector HO-Poly-KanMX4-HO.Procedure
- Prepare a tube with 1ng of plasmid HO-Poly-KanMX4-HO: put 1uL from tube HO pl. 4 (261.7 ng/uL) in 261 uL water. - make a PCR with:PCR of TDH3:
- 1 uL of plasmid (1 ng)
- 2 uL forward primer o15.135
- 2 uL reverse primer o15.136
- 50 uL Master Mix 2X
- 45 uL water
Settings PCR:
- 30s at 95°C
- 35 times:
- 30s at 95°C
- 30s at 55°C
- 4m at 72°C
- 10m at 72°C
- the tubes were then kept at 10°C
Gibson assembly
-
the goal is to assemble all the parts togther to get the plasmid with the 3 genes that are needed to produce beta carotene in Saccharomyces cerevisiae
Gibson was performed on :
- the PCR product of HO-Poly-KanMX4-HO, a plasmid from addgene
- PCR product of the gblock 1.1
- PCR product of the gblock 1.2
- PCR product of the gblock 2
- PCR product of the gblock 3
- PCR product of the gblock 4