green light receptor
Digestion for 2A-assembly
Investigators: Julia, Sandra
Digestion of:
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| vector a
| vector b
| insert 1
| insert 2
| insert 3
| insert 4
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| S2b
| S4
| S64 (Ccas)
| S46 (ho1)
| S50 (pcyA)
| S67 (Ccar)
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| Enzyme 1
| SpeI
| SpeI
| XbaI
| XbaI
| XbaI
| XbaI
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| Enzyme 2
| PstI
| PstI
| PstI
| PstI
| PstI
| PstI
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Ligation
Ligation of the parts:
in vector S2b:
in vector S4:
It was incubated over night at 16°C. In the morning ligase was inactivated at 80°C.
blue light receptor
Miniprep
Investigators: Sandra
Miniprep of:
- ♥-A3 Not 1
- ♥-A3 noT 2
- ♥-A3 noT 3
Plates with tetracyclin showed not a single colony.
Testdigest
Investigators: Sandra
Testdigest of minipreps.
Digested with EcoRI and PstI.
Testdigestd showed no bands for the inserts.
new Ligation
Investigators: Sandra
New Ligation with the already digested parts. New digested vector from Julia, pSB1C3.
Parts were ligated for 2 hours this time.
Parts:
- Notgate
- Lovtap
- vector: pSB1C3
Trafo
Investigators: Sandra
After the ligation a transformation was performed and the plates were incubated over night at 37°C. Hopefully we get something to see tomorrow:-)
Plan B: We designed new primers for the gibson assembly.
red light receptor
NAME OF YOUR EXPERIMENT
Investigators:NAME
Lysis cassette
NAME OF YOUR EXPERIMENT
Investigators:NAME
Precipitator
Ligation
| Name: Sophie
| Date: 31.01.11
|
| Continue from Date: 30.08.11 Name: Sophie
Experiment: Digestion
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| Project Name: inducible promoter for pbd
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Procedure
PCR tube:
total volume 20 μl
- add H2O (17 μl -X-Y-Z)
- add 2 μl Ligase Buffer 10x
- add Insert 1, Insert 2(when proceeding from 3A digestion use 2 μl of each)
- add Vector (20ng needed. When proceeding from 3A digestion use 2 μl)
- Add 1 μl T4-DNA Ligase
- Incubate 10-30 min at room temperature
- heat for 20 minutes at 80°C
- store at -20°C or directly proceed to transformation
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| Name of part
| Ratio Insert:Vector
= 3:1 or 1:1
| Volume (μl)
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| X insert 1
| S54
| both
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| Y insert 2
| ε 5
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| Z vector
| psb1C3
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| H2O
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Documentation:
Why are you doing this experiment? Where are your parts stored? Name the parts for ligation etc.
Transformation
| Name:Sophie
| Date: 31.08.11
|
| Continue from Date: 31.08.11 Name: Sophie
Experiment: Ligation
|
| Project Name: inducible promoter for pbd
|
Procedure
- take cells from -80°C freezer and put them on ice! (every eppi contains about 400 μl cells)
- thaw cells on ice 20 minutes
- pipette 50 μl cells and 2 μl DNA into eppi still on ice!
- Incubate for 30 minutes on ice
- Heat at 42°C for 60 sec
- Incubate on ice for 5 minutes
- Add 200 μl LB Broth
- Incubate for 2 hours at 37°C (cells with lysis cassette at 30°C!!)
- Plate 50 μl and 200μl on two different LB/Agar plates with appropriate antibiotic resistance
Documentation:
Why are you doing this experiment? Name of the sample? Where are they stored? Name the vector with inserts, antibiotika resistance etc.
| Name: S54-ε 5-C3 1:1 / 1:3
stored in incubator on Cm plates
|
PCR
| Name: Sophie
| Date: 31.08.11
|
| Continue from Experiment new (Date)
(Name)
|
| Project Name:: pbd in Gst-vector
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PCR-Mixture for one Reaction:
For a 50 µl reaction use
| 32,5µl
| H20
| Name
|
| 10µl
| 5x Phusion Buffer
| of Primer
|
| 2.5µl
| Primer fw
| P93
|
| 2.5µl
| Primer dw
| P94
|
| 1µl
| dNTPs
| of Template DNA
|
| 1µl
| DNA-Template
|
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| 0.5 µl
| Phusion (add in the end)
|
|
What program do you use?
First 25 cycles touchdown 63°C -0,3°C per cycle
next 10 cycles touchdown 72°C -0,3°C per cycle
To confirm the PCR-Product has the correct size, load 2 µl of the sample onto an agarose-gel.
How did you label the PCR-Product, where is it stored and what do you do next?
Labeled GFP-pbd-PCR
stored in
I will digest it with Dpn I and with bamH I and Xho and ligate it to a GST-vector.
Digestion
| Name: Sophie
| Date: 31.08.11
|
| Continue from Date: 31.08.11 Name: Sophie
Experiment: PCR
|
| Project Name: pbd into GST-vector
|
Procedure
- add H2O (38μl-DNA )
- 5 μl NEB4 buffer (stored at iGEM’s, -20°C)
- 5 μl 10x BSA (used 1:10 diluted sample stored at iGEM’s, -20°C)
- DNA (500 ng) (Vector:Insert ratio 1:3 in following Ligation)
- 1 μl restriction enzymes (stored at iGEM’s, -20°C)
- heat for 1-2 hours 37°C (6 hours if time)
- add 5,6 μl phosphatase buffer and 1 μl antarctic phosphatse to the vector and digest for another hour
- heat for 20 minutes 80°C (inactivation of enzymes)
- keep at 4°C if you cannot continue
Measured DNA-concentration with Nanodrop to calculate the volume of DNA to do the digestion:
| Sample Name
| DNA concentration (μg/μl)
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| pGex
| 480
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| gFP-pbd-PCR
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Restriction enzymes you need to cut the vector, insert1 and insert 2:
| Components
| Vector (μl)
| Insert
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| DNA (500ng)
|
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| BSA (10x) (5μl)
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| NEB4 Buffer (5μl)
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| Enzyme 1 (1μl)
| BamH I
| BamH I
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| Enzyme 2 (1μl)
| Xho I
| Xho I
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| H2O (38 μl- DNA)
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| In total 50 μl
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Documentation:
Why are you doing this experiment? Where are the samples stored? Antibiotica resistance, vector used etc.
| Why? I want to produce pbd-protein to make experiments and to get data for the modeling.
Vector: pGEX from Hemin
insert: GFP-pbd-PCR
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