Team:Freiburg/Notebook/9 September
From 2011.igem.org
Contents |
Commons
Testdigests
Investigators: Sophie
Testdigest of our various minipreps
green light receptor
digest for cloning PcpcG infront of CFP/YFP
Investigators:Julia
1. Digestion of PCR Product(PcpcG)
38µl PCR product
5µl BSA (10x)
5µl NEB buffer 4
1µl EcoRI
1µl SpeI
2.Digestion of CFP/YFP Vector
36,1/34 µl water
1.9µl DNA of YFP/ 3.7µl DNA of CFP = 500ng DNA
5µl BSA (10x)
5µl NEB buffer 4
1µl EcoRI
1µl XbaI
Incubation over night.
blue light receptor
Gibson assembly
Name
Sandra, Sophie | Date:
26.07.2011 |
Continue from Experiment (Date) from PCR (Lovtap 3000bp and Not-Gate 980bp) from today.
(Name) Sophie | |
Project Name: Blue light receptor: Ligation of Lovtap and Not-Gate |
Gibson-Assembly
1. Prepare 5X ISO buffer. Six ml of this buffer can be prepared by combining the following:
3 ml of 1 M Tris-HCl pH 7.5150 μl of 2 M MgCl260 μl of 100 mM dGTP 60 μl of 100 mM dATP 60 μl of 100 mM dTTP60 μl of 100 mM dCTP300 μl of 1 M DTT 1.5 g PEG-8000300 μl of 100 mM NADAdd water to 6 ml Aliquot 100 μl and store at -20 °C
2. Prepare an assembly master mixture. This can be prepared by combining the following:
320 μl 5X ISO buffer0.64 μl of 10 U/ μl T5 exo20 μl of 2 U/μl Phusion pol160 μl of 40 U/μl Taq ligAdd water to 1.2 ml
Aliquot 15 μl and store at -20 °C. This assembly mixture can be stored at -20 °C for at least one year. The enzymes remain active following at least 10 freeze-thaw cycles. This is ideal for the assembly of DNA molecules with 20-150 bp overlaps. For DNA molecules overlapping by larger than 150 bp, prepare the assembly mixture by using 3.2 μl of 10 U/ μl T5 exo.
3. Thaw a 15 μl assembly mixture aliquot and keep on ice until ready to be used.
4. Add 5 μl of DNA to be assembled to the master mixture. The DNA should be in equimolar amounts. Use 10-100 ng of each ~6 kb DNA fragment. For larger DNA segments, increasingly proportionate amounts of DNA should be added (e.g. 250 ng of each 150 kb DNA segment).
5. Incubate at 50 °C for 15 to 60 min (60 min is optimal).
6. If cloning is desired, electroporate 1 μl of the assembly reaction into 30 μl electrocompetent E. coli.
Documentation:
Why are you doing this experiment? Name the parts for the Gibson-Assembly.
Parts for Gibson-Assembly: G-♥ and G-NOT |
How did you label your samples and where are they stored?
Labelled G-♥-NOT and G-♥-NOT 50 |
PCR
Name: Sophie
| Date: 9.9.11 |
Continue from Experiment: Gibson (Date): 9.9.11
(Name): Sophie, Sandra | |
Project Name: |
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 | P97 |
2.5µl | Primer dw | P100 |
1µl | dNTPs | of Template DNA |
1µl | DNA-Template | G-♥-NOT and G-♥-NOT 50 |
0.5 µl | Phusion (add in the end) |
What program do you use?
First 25 cycles: touchdown 69°C -0.4°C
next 5 cycles: touchdown 72°C -0.2°C
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: G-♥-NOT inserts a,b
stored in blue light box
Digestion
Name: Sophie | Date: 9.9.11 |
Continue from Date 9.9.11 Name: Sophie
Experiment: PCR | |
Project Name: ♥-NOT in PR-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)
- 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) |
G-♥-NOT a,b | ~140 |
Restriction enzymes you need to cut the vector, insert1 and insert 2:
Components | | Insert(μl) | |
DNA (500ng) | |||
BSA (10x) (5μl) | |||
NEB4 Buffer (5μl) | |||
Enzyme 1 (1μl) | Spe I | Nhe I | |
Enzyme 2 (1μl) | Pst I | Pst I | |
H2O (38 μl- DNA) | |||
In total 50 μl |
Documentation:
Why are you doing this experiment? Where are the samples stored? Antibiotica resistance, vector used etc.
The LOV-Repressor protein needs to be expressible
Samples stored in blue light box Vector used: all PR-vectors (D39- D44) |
Ligation
Name: Sophie | Date: 9.9.11 |
Continue from Date:9.9.11 Name: Sophie
Experiment: Digestion | |
Project Name: G-♥-NOT in PR-vector |
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
Name of part | Ratio Insert:Vector
= 3:1 or 1:1 | Volume (μl) | |
X insert 1 | G-♥-NOT insert a,b | ||
Z vector | D39 -D44 | ||
H2O |
Documentation:
Why are you doing this experiment? Where are your parts stored? Name the parts for ligation etc.
Ligated parts labeled L39 -L44 (red pencil)
stored in blue light box |
Lysis cassette
NAME OF YOUR EXPERIMENT
Investigators:NAME
Precipitator
NAME OF YOUR EXPERIMENT
Investigators: NAME