Silification tests
PCR of C1 v2 and C2 v2 with Takara enzyme
Agarose gel
Electrophoresis of the PCR products (C1 v2 and C2 v2)
PCR Clean up
PCR of A1, A2, B1, B2, D1, D2, E1 and C2
Analysis of PCR products from August 1
PCR clean up
Ligation of PCR products with TOPO cloning
Transformation in TOP10 competent cells
PCR of A1⁄A2 and D1⁄D2
Analysis of PCR products from August 2, 2016
Miniprep of cultures C1 v2 and C2 v2 from August 2
Digestion of C1 v2 and C2 v2
Electrophoresis of C1 v2 and C2 v2
DNA extraction from the gel
Ligation of C1.2 /C1.5 and C2.1/C2.2 with pET43.1 and transformation with TOP10 competent cells
Miniprep of B1⁄B2 and E1⁄E2
Digestion of B1⁄B2, E1⁄E2 and pET43.1 with Hind III and Xba I
Dephosphorylation of digested pET43.1
PCR of A1⁄A2 and D1⁄D2 without MgCl2
Preculture of TOPO – C1 v2 (2) and (5) and TOPO – C2 v2 (1) and (2)
Electrophoresis of PCR products A1⁄A2 and D1⁄D2
Next PCR of A1⁄A2 and D1⁄D2
Pool of inserts C1 v2 and C2 v2
August 5, 2016:
Digestion of B1⁄B2 and C1⁄C2
Ligation of C1 and C2 with pET43.1 digested and dephosphorylated
Transformation of TOP10 competent cells
Ligation of B1⁄B2⁄C1⁄C2 in pET43.1
Transformation of B1⁄B2⁄C1⁄C2 in TOP10
Aim: Check if the sillification is working with different volume of HCl and TEOS.
Protocol: follow in this link
What we did in the lab:
Materials:
• 1.5 ml Eppendorfs
• Silification protein
• HCl 1 M
• TEOS
• Shaking incubator
• 15 ml Falcon
• Buffer A
• 10 μl and 200 μl pipettes
Method:
1. In a 1.5 ml Eppendorf prepare a sample with our protein, add 1 ml of HCl, 65.8 μl of TEOS and let it incubate for 4 minutes in the rotating incubator
2. In a 15 ml Falcon, put 9 ml of buffer A and add the previous sample
3. Follow if silification initiates and progresses at various times :
Times | Comments |
---|---|
10 minutes |
Ø |
15 minutes |
Microscopic crystalline specs appear |
30 minutes |
Microscopic crystalline specs continue to appear |
50 minutes |
Microscopic crystalline specs continue to appears + crystalline specs grow and form a precipitate |
Times | Comments |
---|---|
15 minutes |
Crystalline specs appear |
2 hours |
Crystalline specs continue to appear |
Times | Comments |
---|---|
1h45 |
Ø |
Aim: Test the specificity of primers For and Rev to obtain more insert.
Protocol: follow in this link
What we did in the lab:
Materials:
• dNTP mix
• MgCl2 25 mM
• EX polymerase buffer 10X
• RNAse free water
• C1⁄C2 insert DNA
• primers For and Rev
• Takara EX DNA polymerase
• PCR machine
• 10 µμl and 200 μl pipettes
Method:
1. Use a Globalmix with :
Volumes (μl) | |
---|---|
dNTP |
25 |
Mgcl2 |
25 |
Buffer 10X |
50 |
RNAse free water |
36.5 |
Final |
50 |
Tube | Name | Premix (μl) | C1 (μl) | C2 (μl) | Primer For (μl) | Primer Rev (μl) |
---|---|---|---|---|---|---|
1 |
C1 insert (For +Rev) | 46.5 | 1 | Ø | 1 | 1 |
2 |
C1 For | 46.5 | 1 | Ø | 1 | Ø |
3 |
C1 Rev | 46.5 | 1 | Ø | Ø | 1 |
4 |
C2 insert (For +Rev) | 46.5 | Ø | 1 | 1 | 1 |
5 |
C2 For | 46.5 | Ø | 1 | 1 | Ø |
6 |
C2 Rev | 46.5 | Ø | 1 | Ø | 1 |
7 |
Without DNA | 46.5 | Ø | Ø | 1 | 1 |
8 |
C1 without primer | 46.5 | 1 | Ø | Ø | Ø |
9 |
C2 without primer | 46.5 | Ø | 1 | Ø | Ø |
Aim: Test the specificity of primers For and Rev to obtain more insert.
Protocol: follow in this link
What we did in the lab:
Materials:
• Loading buffer 6X
• PCR products
• Inserts C1 v2, C2 v2
• Primer S
• Primer AS
• Electrophoresis chamber, and power supply
• 10 μl pipette
Method:
1. Add 5 μl of DNA and 1 μl of buffer 6X to each sample
2. Use 6 µl of molecular weight marker and deposit each sample in the wells :
L1 | L2 | L3 | L4 | L5 | L6 | L7 | L8 | L10 | L11 | L12 |
---|---|---|---|---|---|---|---|---|---|---|
M. weight Marker | Ø | C1 + insert | C1 + primer S | C1 + primer AS | C2 + insert | C2 + primer S | C2 + primer AS | Without DNA | C1 without primer | C2 without primer |
Aim: Test the specificity of primers For and Rev to obtain more insert.
Protocol: follow in this link
What we did in the lab:
Materials:
• Agarose
• Ethidium bromide drop
• Molecular weight ladder (Gene ruler 1 Kb, Thermofisher)
• Loading buffer 6X
• PCR products
• Electrophoresis chamber, power supply
• 10 μl pipette
Method:
1. Make an agarose gel at 0.7%
2. Prepare the samples with 5 µl of PCR products and 1 µl of loading buffer 6X
3. Depose each samples in the wells :
L1 | L2 | L3 | L4 | L5 | L6 | L7 | L8 | L9 | L10 | L11 | L12 | L13 | L14 | L15 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Ladder | Ø | A1 | A2 | Ø | B1 | B2 | Ø | D1 | Ø | D2 | Ø | E1 | E2 | Ø |
Aim: Test the specificity of primers For and Rev to obtain more insert.
Protocol: follow in this link
What we did in the lab:
Materials:
• Qiagen PCR clean up kit
• PCR products
• 200 μl pipette
Method:
1. Prepare the 8 samples:
Samples | A1 | A2 | B1 | B2 | D1 | D2 | E1 | E2 |
---|---|---|---|---|---|---|---|---|
Buffer A (μl) < |
90 | 90 | 90 | 90 | 90 | 90 | 90 | 90 |
Aim: Test the specificity of primers For and Rev to obtain more insert.
Protocol: follow in this link
What we did in the lab:
Materials:
• PCR products
• Salt solution
• pET43.1 vector DNA
• Incubator 37°C
• 10 µl pipettes
• 1 ml Eppendorfs
Method:
1 For each inserts, prepare the following mix :
Volumes (μl) | |
---|---|
PCR products |
4 |
Salt solution |
1 |
pET 43.1 |
1 |
Total |
6 |
Aim: Increase the quality of DNA.
Protocol: follow in this link
What we did in the lab:
Materials:
• dNTP
• MgCl2
• Buffer 20X
• RNAse free
• 10 μl , 20 µl and 200 μl pipettes
• 1.5 ml Eppendorfs
• A1⁄A2 and B1⁄B2 inserts
• PCR machine
• 10 μl 20 µl and 200 μl pipettes
• 1.5 ml Eppendorfs
Method:
1. Prepare a Globalmix with :
Volumes (μl) | |
---|---|
dNTP |
12.5 |
MgCl2 |
12.5 |
Buffer 20X |
25 |
RNAse free |
182.5 |
Primer S (For) |
5 |
Primer AS (Rev) |
5 |
Total |
242.5 |
A1 | A2 | B1 | B2 | |
---|---|---|---|---|
Vinserts (μl) |
1 | 1 | 1 | 1 |
Vglobalmix |
48.5 | 48.5 | 48.5 | 48.5 |
Aim: Check the efficiency of the PCR.
Protocol: follow in this link
What we did in the lab:
Materials:
• Agarose
• Ethidium bromide drops
• Molecular weight ladder (Gene ruler 1 Kb, Thermofisher)
• Loading buffer 6X
• PCR products
• 10 μl pipette
• Electrophoresis machine
• 1.5 ml Eppendorfs
Method:
1. Make an agarose gel at 0.7%
2. Prepare the samples with 5 μl of PCR products and 1 μl of loading buffer 6X
3. Deposit each sample in the wells :
L1 | L2 | L3 | L4 | L5 | L6 | L7 | L8 |
---|---|---|---|---|---|---|---|
Ladder (6 μl) | Ø | A1 : 5 μl of DNA + 1 μl of buffer 6X | A2 : 5 μl of DNA + 1 μl of buffer 6X | Ø | D1 : 5 μl of DNA + 1 μl of buffer 6X | D2 : 5 μl of DNA + 1 μl of buffer 6X | Ø |
Aim: Make the inserts fitted with the plasmid.
Protocol: follow in this link
What we did in the lab:
Materials:
• Hind III (NEB)
• Xba I 5NEB)
• Buffer CutSmart 10X (NEB)
• H2O
• 1.5 Eppendorfs
• C1 v2 and C2 v2
• Incubator 37°C
• 20 μl and 200 μl pipettes
Method:
1. Prepare a Globalmix :
Volumes (μl) | |
---|---|
HindIII |
20 |
XbaI |
20 |
Buffer CutSmart 10X |
50 |
H2O |
10 |
Total |
100 |
Aim: Check if our inserts have been correctly digested by the enzyme.
Protocol: follow in this link
What we did in the lab:
Method:
Lane 1 :
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 |
---|---|---|---|---|---|---|---|---|---|---|---|---|
Ladder | Ø | C1.1 | Ø | C1.2 | Ø | C1.3 | Ø | C1.4 | ||||
14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | |
Ø | C1.5 | Ø | C1.6 | Ø | C1.7 | Ø | C1.8 |
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 |
---|---|---|---|---|---|---|---|---|---|---|---|---|
Ladder | Ø | C2.2 | Ø | C2.3 | Ø | C2.4 | Ø | C2.5 | ||||
14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | |
Ø | C2.6 | Ø | C2.8 | Ø | C2.9 | Ø | Ø | Ø |
Aim: Get back the DNA which was digested and purified.
Protocol: follow in this link
What we did in the lab:
Materials
• Qiagen Gel Extraction Kit
Method:
Use Qiagen extraction kit with a final volume of 50 μl.
Results
Sample | Weight of gel (g) |
---|---|
C1.2 | 1.3435 |
C1.4 | 1.3564 |
C1.5 | 1.3825 |
C1.6 | 1.4318 |
C1.7 | 1.4392 |
C1.8 | 1.3564 |
C1.10 | 1.3800 |
C2.1 | 1.3179 |
C2.2 | 1.2500 |
C2.3 | 1.3910 |
C2.9 | 1.3668 |
C2.10 | 1.3934 |
Aim: Prepare the ligation.
Protocol: follow in this link
What we did in the lab:
Materials
• 1.5 ml Eppendorfs
• DNA
• Buffer CutSmart (NEB)
• HindIII (NEB)
• XbaI (NEB)
• H2O
• Samples B1⁄B2, E1⁄E2
• 10 μl and 20 μl pipettes
Method:
1. Make a master mix with :
Volumes (μl) | pET 43.1 | B1⁄B2⁄E1⁄E2 |
---|---|---|
DNA |
7.5 | 7.5 |
Buffer CutSmart |
2.5 | 7.5 |
HindIII |
1 | 1 |
XbaI |
1 | 1 |
H2O |
1.5 | 0.5 |
Total |
25 | 25 |
Aim: Avoid the religation of the plasmid with itself.
Protocol: follow in this link
What we did in the lab:
Materials
• 1.5 ml Eppendorfs
• Digested DNA
• Dephosphorylase rSAP (recombinant Shrimp alkaline phosphatase) (NEB)
• Buffer CutSmart
• H2O
• Incubator 37°C
• 10 μl and 20 μl pipettes
Method:
1. In a 1.5 ml Eppendorf, put :
Volumes (μl) | |
---|---|
Digested DNA |
9 |
Dephosphorylase |
0.2 |
Buffer CutSmart |
2 |
H2O |
8.8 |
Total |
20 |
Aim: Increase the quantity of DNA.
Protocol: follow in this link
What we did in the lab:
Materials
• dNTP mix
• MgCl2 25 mM
• Buffer 10X
• RNAse free water
• Primer S
• Primer AS
• Samples A1⁄A2 and D1⁄D2
• 10 μl , 20 μl and 200 μl pipettes
• PCR machine
• Takara DNA polymerase enzyme
• 1.5 ml Eppendorfs
Method:
1. Prepare the mix :
Volumes (μl) | |
---|---|
dNTP |
12.5 |
MgCl2 |
Ø |
Buffer 10X |
25 |
RNAse free |
195 |
Primer S |
5 |
Primer AS |
5 |
Total |
242.5 |
Tube | Names | Mix (μl) | A1 (μl) | A2 (μl) | D1 (μl) | D2 (μl) |
---|---|---|---|---|---|---|
1 |
A1 | 48.5 | 1 | Ø | Ø | Ø |
2 |
A2 | 48.5 | Ø | 1 | Ø | Ø |
3 |
D1 | 48.5 | Ø | Ø | 1 | Ø |
4 |
A1 | 48.5 | Ø | Ø | Ø | 1 |
Aim: Check if the PCR is efficient.
Protocol: follow in this link
What we did in the lab:
Materials
• Agarose
• A1⁄A2 and D1⁄D2
• Molecular weight marker ladder (Gene ruler 1 Kb, Thermofisher)
• Loading buffer 6X
• 10 μl pipette
Method:
1. Make a 0.7% agarose gel
2. Add 5 μl of DNA and 1 μl of loading buffer. But we used 10 μl of DNA for the sample 4
3. Depose the sample for the electrophorese like this :
L1 | L2 | L3 | L4 | L5 | L6 | L7 | L8 | L19 |
---|---|---|---|---|---|---|---|---|
Ladder 6 μl | Ø | (1) | Ø | (2) | Ø | (3) | Ø | (4) |
Aim: Increase the quantity of DNA.
Protocol: follow in this link
What we did in the lab:
Materials
• dNTP mix
• MgCl2 25 mM
• Buffer 10X
• RNAse free
• Primer S
• Primer AS
• A1⁄A2 and D1⁄D2
• 200 μl pipette
Method:
1. Make a Globalmix with :
Volumes (μl) | |
---|---|
dNTP |
72.5 |
MgCl2 |
Ø |
Buffer 10X |
145 |
RNAse free |
1131 |
Primer S |
29 |
Primer AS |
29 |
Total |
1206.5 |
Name | Samples | Globalmix (μl) | DNA (μl) |
---|---|---|---|
A1 |
to (7) | 48.5 | 1 of A1 |
A2 |
(8) to (14) | 48.5 | 1 of A2 |
D1 |
(15) to (21) | 48.5 | 1 of D1 |
D2 |
(22) to (28) | 48.5 | 1 of D2 |
A1 | A2 | D1 | D2 | |
---|---|---|---|---|
A |
(1) | (8) | (15) | (22) |
B |
(2) | (9) | (16) | (23) |
C |
(3) | (10) | (17) | (24) |
D |
(4) | (11) | (18) | (25) |
E |
(5) | (12) | (19) | (26) |
F |
(6) | (13) | (20) | (27) |
G |
(7) | (14) | (21) | (28) |
Aim: Make the inserts fitted with the plasmid.
Protocol: follow in this link
What we did in the lab:
Materials
• 10 μl, 20 μl and 200 μl pipette
• Hind III (NEB)
• XbaI (NEB)
• Buffer CutSmart
• H2O
• B1⁄B2 and C1⁄C2
Method:
1. Make a Globalmix with :
Volumes (μl) | |
---|---|
HindIII |
45 |
XbaI |
45 |
Buffer CutSmart |
112.5 |
H2O |
67.5 |
Total |
270 |
Volumes (μl) | |
---|---|
DNA |
20 |
HindIII |
1 |
XbaI |
1 |
Buffer CutSmart |
2.5 |
H2O |
1.5 |
Total |
26 |
Aim: Prepare the plasmid for the transformation.
Protocol: follow in this link
What we did in the lab:
Materials
• C1⁄C2
• pET43.1
• T4 ligase
• Buffer 10X
• H2O
• Incubator
• 10 1μl and 20 μl pipettes
Method:
1. In a 1.5 ml eppendorf, put :
C1 | C2 | pET 43.1 alone | |
---|---|---|---|
C1 (μl) |
15 | Ø | Ø |
C2 (μl) |
Ø | 15 | Ø | pET 43.1 (μl) |
4 | 4 | 4 | T4ligase (μl) |
1 | 1 | 1 | Buffer 10X (μl) |
2.2 | 2.2 | 2.2 | H2O (μl) |
Ø | Ø | 15 | Total (μl) |
22.2 | 22.2 | 22.2 |
Aim: Express our plasmid in bacteria.
Protocol: follow in this link
What we did in the lab:
Materials
• Qiagen Extraction Kit
Method:
Use the Qiagen gel extraction kit for a final volume of 50 μl.
Colonies | Δm (mg) |
---|---|
B1 colony 1 | 136 |
B1 colony 2 | 170 |
B2 colony 4 | 166 |
B2 colony 7 | 175 |
E1 colony 1 | 110 |
E1 colony 2 | 143 |
E2 colony 1 | 108 |
E2 colony 2 | 128 |