Revision as of 15:53, 28 September 2010 by Willh (Talk | contribs)
Week 9: Monday 6th September - Sunday 12th September



86. Expt: Extract CDABEG from pJS555

  • Using 2 primers
    • prefix start of O
    • suffix end of G
  • Hope that it will glow in its own right without luxR+I
  • Need to put under a new promoter

87. Expt: Gibson transformation (cont. from p.70)

3 colonies on one plate were not pink. These were streaked out on new Chl plated and put into liquid cultures along with 2 of the red colonies.

Next check for the right sized fragment with colony PCR and try to induce with arabinose.

88. Expt: Plate Reader G28

Well Arabinose conc.
A1 0 x1,9
A2 1µM
A3 5µM
A4 10µM
A5 100µM
A6 Blank
A7 pSB1C3
A8 Blank x8,16

Reads every 10 mins

89. Expt: Extracting YFP, CFP, Luc tetR, G28 via miniprep (Paul)

Nanodrop readings (ng/µl)
YFP 33.3, 55.4
CFP 17.9, 20.4
Luc tetR 33.7
G28 125.3, 96.9
G28? 17.9

90. Expt: Colony PCR to extract the thioesterase gene from E. coli K12 (Paul)

We used TOP10 cells, a substrain of DH10B, which is a substrain of K12.

We did a colony PCR to isolate the gene:

3 replicates with: 1 negative control:
2x Phusion Mastermix 10µl 10µl
Template DNA 1µl 0
Primer 1 1µl 1µl
Primer 2 1µl 1µl
Nuclease-free H20 7µl 8µl

The negative control was to check for primer/dimer and contamination.

PCR protocol:

  • Initial denaturation: 5min @ 98°C
  • Touchdown: 16 cycles
    • Denaturation: 10s @ 98°C
    • Annealing: 20s @ 65°C to 57°C
    • Elongation: 15s @ 72°C
  • 30 cycles
    • Denaturation: 10s @ 98°C
    • Annealing: 20s @ 50°C
    • Elongation: 15s @ 72°C
  • End and hold at 10°C
  • We then ran result on a gel with SyberSafe at 6x lodaing Dye and Hyperladder IV

Lane: 1 2 3 4 5
Ladder Tube 1 Tube 2 Tube 3 Negative Control

Failed: Something obtained in control...

Nothing in other lanes

We repeated without touchdown PCR:

  • Denaturation 5min @ 98°C
  • 35 Cycles
    • Denaturation: 12s @ 98°C
    • Annealing: 20s @ 58.5°C
    • Elongation: 15s @ 72°C
  • Hold at 10°C

Failed again: Product in negative control observed again...


91. Expt: Further testing

Column Arabiniose/µl Well names
Repeat 1 Repeat 2 Repeat 3
1 0 X1 X12 X23
2 0 X2 X13 X24
3 0 X3 X14 X25
4 5 X4 X15 X26
5 10 X5 X16 X27
6 50 X6 X17 X28
7 100 X7 X18 X29
8 1000 X8 X19 X30
9 10,000 X9 X20 X31
10 Blank X10 X21 X32
11 Blank X11 X22 X33

Inoculation: 1ml overnight added to 3ml, Amp + Cm

92. Expt: Restriction Enzyme Digests

DNA Enzymes used Subsequent Nanodrop readings/ng/µl
1. Linear Plasmid EP 5.6
2. Luc TetR ES 4.0
3. Luc TetR EP 2.8
4. RBS YFP XP 19.4
5. RBS CFP XP 2.9
6. G28 lux SP 6.1

93. Expt: Extracting DNA 2.0 from Registry

  • Remove filter from plastic bag and place on a sterile and clean surface.
  • Add 100µl of 10mM Tris-HCl, pH 7.5 directly to the center of the filter
  • Incubate at room temperature for 2minutes.
  • Puncture the bottom of at 0.6ml tube using a syringe.
  • Place filter in the 0.6ml tube and place 0.6ml tube in a 1.5ml tube.
  • Place the 1.5ml tube(now containing punctured 0.6ml tube with filter) in tabletop centrifuge.
  • Spin 1 minute at full speed. The DNA containing liquid will transfer from the filter in the 0.6ml tube into the 1.5ml tube.
  • Discard the 0.6ml tube with filter. The 1.5ml tube now contains ~90µl buffer+DNA.
  • Carefully remove supernatant. there may be a small pellet consisting of filter debris. This pellet does NOT contain any of the DNA. The supernatant should contain approximately 2µl plasmid DNA(~20ng/µl).

The isolated DNA can subsequently be transformed, cut with restriction enzymes, or sequenced without further purification.

Then transformed using standard protocol

Result: Colonies all grew


94. Expt: Ligating restriction digests from yesterday

Theo wished to prepare three constructs:

  • A: P[TetR repressed] - WT luciferase - YFP in pSB1C3
  • B: pBad Lux aoperon (G28) - YFP in pSB1C3
  • C: P[TetR repressed] - WT luciferase

Volumes all in µl

pSB1C3 linearise cut with EP Luc cut with ES Luc cut with EP G28 YFP Rapid ligation buffer T4 ligase
A 4 9 0 0 2 4 1
B 4 0 0 9 2 4 1
C 2 0 13 0 0 4 1