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Glycerol Stocks
- 1mL of each culture (with 2 clones) has been added to 1mL of 40% glycerol.
- For each clone, two glycerol stocks have been done.
- Stored at -20°C.
| name
| Strain
|
| S141
| MG1655
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| S142
| J61002
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Result of the isolation of colonies
E0240 and pSB3K3
E0240 and pSB3K3 are ok : there is a lot of single colonies
Two colonies are picked for an overnight culture at 37°C, 225 rpm, in order to extract plasmids (MiniPreps)
S120 and S121
S120 and S121 : there is a problem, there is nothing on the plates. We have to check whether those strains are really resistant to Amp.
We checked in the strain library, actually the strains do not carry any resistance cassette. We plated them once again on petri dishes with LB without antibiotics
Preparation of the newly amplified promoters
Electrophoresis of the PCR products made yesterday
 Standart PCR to amplify pflgA, pflgB and pflhB(Gel1)  PCR with gradient to amplify pflhDC(Gel2) Electrophoresis settings
- Gel : 1.5 % agar
- 3µL template DNA
- 10µL QuickLoad DNA ladder 100 bp
| Name
| Promotor
| Gel
| Band
| Expected size
| Measured size
|
| PCR_124
| pFlgA
| 1
| 2
| 261 pb
| 250 pb
|
| PCR_125
| pFlgB
| 1
| 3
| 261 pb
| 250 pb
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| PCR_126
| pFlhB
| 1
| 4
| 260 pb
| 250 pb
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| PCR_127
| pFlhDC
| 2
| 2 to 13
| 446 pb
| nothing
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Results
- We have no results for pflhDC, wo don't know yet where is the problem. We will try with other conditions! (yet undetermined)
- Concerning pflhB, pflgA and pflgB, the protocol seems to be very operational: we always have great results !
Washing of the PCR products
- Kit used : Wizard SV Gel and PCR Clean-Up System from Promega
- Standart protocol except the last step. Instead of eluting with water, we used 30 µL of BE buffer (from Qiagen)
DNA concentration measurement
We used two methods:
With a Spectrophotometer
- λ = 260 nm
- White: 100µL BE Buffer
- Templates : 2 µL DNA + 98 µL BE Buffer
| Template
| Absorbance
| Estimated
Concentration
(µg/µL)
|
| pflgA
| 0.202
| 0.5
|
| pflgB
| 0.210
| 0.5
|
| pflhA
| 0.193
| 0.5
|
With a Biophotometer
| Template
| Estimated
Concentration
(µg/µL)
| Ratio DO260/DO280
|
| pflgA
| 0.05
| 1.06
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| pflgB
| 0.1
| 1.44
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| pflhA
| 0.O5
| 1.66
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Remarks :
- There is a great difference between the two methods : sometimes 1 log !
- The electrophoresis of the PCR products showed that pflgB was more concentrated than pflgA and pflhA. As a consequence, we rely on the figures determined by the Biophotometer
Digestion
Protocol
 Gel 1 - 1% agar, ladder 1kb  Gel 2 - 1.5 % agar, ladder 100bp
| Digestion name
| Template DNA
| Enzymes
| Quantity of DNA used
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| D132
| PCR 124 - pflgA
| EcoRI-SpeI
| 2 µL
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| D133
| PCR 125 - pflgB
| EcoRI-SpeI
| 1 µL
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| D134
| PCR 16 - pflhB
| EcoRI-SpeI
| 2 µL
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| D136
| MP123
| EcoRI-SpeI
| 8 µL
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Digestion mix:
- X µL of template DNA
- 1 µL Enzyme 1
- 1 µL Enzyme 2
- 3 µL Buffer P2
- 0.3 µL BSA
- 24.7 - X µL of distilled water
We pu the digestion mix to incubate during 2h at 37°C
Results
| Name
| Gel
| Band
| Expected size
| Measured size
|
| D136
| 1
| 2
| 2925 pb
| 3000 pb
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| MP 123
| 1
| 4
| 3002 pb
| 3000 pb
|
| D133
| 2
| 2
| 225 pb
| nothing
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| D134
| 2
| 3
| 225 pb
| nothing
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| D135
| 2
| 4
| 226 pb
| nothing
|
Conclusion : The digestion of MP123 into D136 worked very well. Tomorrow we will isolate it.
We see nothing on the other digestion. Maybe someone forgot to put the template DNA inside the tube !?
Anyway, we will do the manipulation again tomorrow.
Transformations
Protocol
Use of TOP10 chemically competent cells
- Defroze competent cells on ice during 5'
- Add 5µl of Ligation products in 50µL of competent bacteria (or 1µL for the positive control puc19)
- Incubate 30' on ice
- Heat-shock the cells during 30" at 42°C without shaking
- Put 2' on ice
- Add 250µL of pre-warmed SOC medium (4°C)
- Incubate 1h at 37°C under shaking (225rpm)
- Spin at 5.000rpm during 30"
- Remove 150µL of supernatant
- Resuspend the pellet in the 150µL left
- Spread on adequate plates
- Incubate O/N at 37°C
List of the Ligation Transformation
| Name
| Description
| Antibio
|
| Ligation
|
| L128
| J61002-pFlgA
D136 (FV) - D132 (FI)
| Amp
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| L129
| J61002-pFlgB
D136 (FV) - D133 (FI)
| Amp
|
| L130
| J61002-pFlhB
D136 (FV) - D134 (FI)
| Amp
|
| L131
| J61002-pFlhDC
D136 (FV) - D135 (FI)
| Amp
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| Control
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| Control 1
| D136
| Amp
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| Positive control
| pUC19
| Amp
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PCR Screening of Ligation Transformants of 1st August
Use of 8 clones of Ligation transformants for screening PCR
Protocol of screening PCR
| Name
| Vol (µl)
| Concentration
|
| Quick Load
| 25µl
| 2X
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| OligoF_VF2 (O18)
| 1µl
| 10µM
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| OligoR_VR (O19)
| 1µl
| 10µM
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| water
| 23µl
|
- 50µl of Mix PCR by tube/clone
- one toothpick of each clone's colony by tube
- Program : Annealing 55°C - Time élongation 1'30" - Number cycle : 29
Conditions of electrophoresis
- 10µl of ladder 1 kb
- 10µl of screening PCR
- migration ~30min at 100W on 1% gel
Results
Gel 1 : L100-L101
Gel 2 : L113-L114
Gel 3 : L120-L122
Gel 4 : L123-L126
Gel 5 : L126
| name
| Description
| Expected size
| Measured size
| Gel
| Band
| Comments
|
| PCR1_’’’L101(1-8)’’’
| D110-D131
| 1200
| 1100
| 1
| 2-9
| (1-8) ok
|
| PCR2_’’’L102(1-8)’’’
| D129-D118
| 1045
| 1000
| 1
| 10-17
| (1-8) ok
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| PCR3_’’’L113(1-8)’’’
| D126-D130
| 1239
| 2500
| 2
| 1, 3-9
| to do again
|
| PCR4_’’’L114(1-8)’’’
| D126-D131
| 1239
| 1200
| 2
| 10-17
| (1-8) ok
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| PCR5_’’’L120(1-8)’’’
| D106-D130
| 1239
| 2000
| 3
| 1,2, 4-9
| (1-8) ok
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| PCR6_’’’L122(1-4)’’’
| D107-D130
| 1239
| 1200
| 3
| 10-13
| (1) ok
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| PCR7_’’’L123(1-8)’’’
| D107-D131
| 1200
| 1100
| 4 & 4'
| 2-8, 1
| (1-8) ok
|
| PCR8_’’’L126(1-6)’’’
| D102-D118
| 1045
| 1000
| 4'
| 3-8
| (1-8) ok
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| PCR5_’’’L126(7-8)’’’
| 1000
| 6
| 2-3
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==> Conclusion :In futur , we will prepare minipreps and stocks for the transformant clones succesfull.
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