47.Digestion of pET43.1 (a) with Xba I and Hind III
48. DNA measurements
49. Agarose gel (0.7 % agarose gel )
50. Electrophoresis on agarose gel of pET43.1a(+) digest by Xba I and Hind III
51. Extraction of gel of pET43.1a(+) digested by Xba I and Hind III
52. Dephosphorylation of pET43.1a(+) (digest by Xba I/Hind III) done previously
53. Dephosphorylation of pET43.1a(+)digest by Xba I/Hind III)
54. Ligation of dephosphorylated pET43.1a(+) with C2
55. Ligation of pET43.1a(+) dephosphorylated with C2
56. Electrophoresis on agarose gel of pET43.1 digest by Xba I and Hind III
57. Electrophoresis of pET43.1a(+) digested by Xba I and Hind III
58. Plasmid concentration measurement
59. Transformation of DH5α competent cells
60. Verification of transformation of the 5 July 201616
61. Cultivating colonies to recover the ligated plasmids-C1, or C2 inserts
62. Ligation of pET43.1a(+) with C1 and C2
63. Digestion of insert B2
64. ligation of insert B2 in pET43.1a(+)
65. Check of transformation done on the July 6, 2016
66. Extraction of DNA from colonies from 06 July 2016
67. Agarose gel electrophoresis
68. Dosage of extracted DNA
69. Digestion of extracted DNA
70. Electrophoresis of pET43.1a(+)
71. Digestion of the recombinant plasmid
72. Electrophoresis of our results
73. Transformation of bacteria BL21DE3
Aim:We repeated the previous experiment to understand why transformation in our bacteria didn't not work. Protocol: follow in this link What we did in the lab: Materials: • pET43.1a(+)a plasmid (obtained with Midiprep done on June 8, 2016) • enzyme restriction (Xba I / Hind III) • Buffer Cutsmart 10X (NEB) • H2O • P10 pipet, P20 pipet, 1.5 ml Eppendorf, 37°C and 65°C water bath Method: 1. For our manipulation, we used Xba I and Hind III enzymes and we used Cutsmart 10X buffer because it is the most appropriate buffer. 2. Follow the next table to volumes:
pET43.1a(+) à 130 ng/µl (3 µg) | |
---|---|
DNA (µl) |
19 |
Xba I (µl) | 2 |
Hind III (µl) | 1 |
H20 (µl) | 5 |
CutSmart 10X (µl) | 24.5 |
TOTAL (µl) | 51.5 |
Aim:Check if digestion was successfully done Protocol: follow in this link What we did in the lab: Materials: • pET43.1a(+) plasmid (obtained with Midiprep on june 8, 2016) • pET43.1a(+) plasmid digested by XbaI/HindIII • gel 0.7% agarose • TAE 0.5X buffer • Electrophoresis generator ( at 50 V and after at 90 V) • DNA ladder (Thermoscientific gene ruler 1kb) • P10 and P20 pipet, 1.5 eppendorf, electrophoresis BIORAD Mini-Sub Cell GT Method: 1- Prepare an agarose gel at 0.7 % (Refer on the detail protocol which is on the protocol parts) 2- Fill electrophoresis chamber with TAE 1X 3- Follow the deposit Table 37:
Line | L1 | L2 | L3 | L4 | L5 |
---|---|---|---|---|---|
Name |
Marker weight | pET43.1a(+) X/H | pET43.1a(+) UNCUT | ||
ADNA (µl) | 5 | 10 | 5 | ||
H20 (µl) | 0 | 0 | 0 | ||
Load buffer 6X | 0 | 2 | 1 |
Aim:To recover the pET43.1a(+) which has been digested, and to purify out the band from the gel. Protocol: follow in this link What we did in the lab: Materials: • Results of electrophoresis (done previously) • Gel extraction kit from Qiagen • P10 and P20 pipet, 1.5 ml Eppendorf Method: To extract DNA we use the Gel Extraction Kit from Qiagen and we follow the different steps detailed in the kit. • Eppendorf mass : 1.4043 g • Eppendorf + Gel mass : 1.0817 g • Gel mass : 1.4043 – 1.0817 = 322.6 mg We must pour 3 volums of QG buffer, it means 967.8 µl. We added 322 µl of isopropanol and we split in two equals volums our experiment
DNA Masses (mg) | DNA Volumes (ml)) | |
---|---|---|
pET43.1a(+) |
322.6 | 1.073 |
Aim:After the electrophoresis, we saw that the digestion of pET43.1a(+) was done succesfully. Now we have to dephosphorylate it to avoid self-ligation. Protocol: follow in this link What we did in the lab: Materials: • pET43.1a(+) plasmid digested by XbaI/HindIII • Dephosphorylation rSAP enzyme • P10 and P200 pipet, 1.5 eppendorf, water bath (37 °C and 65 °C) Method: 1. For volumes, refer on the next table : We dephosphorylated 7.5*120 ng/µl, so 900 ng of pET43.1a(+)
DNA of pET43.1a(+)( µl) | rSAP ( µl) | Buffer 10X ( µl) | H2O ( µl) | TOTA ( µl) |
---|---|---|---|---|
7.5 | 2.58 | 6 | 43.92 | 60 |
Aim:To save time, we do another dephosphorylation of pET43.1 digested by enzymes to ligate it to the insert C2 (digest by XbaI/HindIII on June,28 2016). Protocol: follow in this link What we did in the lab: Materials: • pET43.1a plasmid digested by XbaI/HindIII • Dephosphorylation rSAP enzyme • P10 and P200 pipet, 1.5 eppendorf, water bath (37 °C and 65 °C) Method: 1. For volumes, refer on the next table: 2. We dephosphorylate 7.5*120 ng/µl, so 900 ng of pET43.1
DNA of pET43.1a(+)( 120 ng/µl) | rSAP ( µl) | Buffer 10X ( µl) | H2O ( µl) | TOTA ( µl) |
---|---|---|---|---|
7.5 | 2.58 | 6 | 43.92 | 60 |
Aim:We want to obtain a second expression vector, this time with pET43.1 and C2. We do the same experiment as previously performed for C1. Protocol: follow in this link What we did in the lab: Materials: • pET43.1a(+) plasmid digested by XbaI/HindIII and dephosphorylated • C2 insert cut by XbaI/HindIII (done on the June,28 2016) • T4 Ligase and Buffer 10X • P10 and P200 pipet, 1.5 eppendorf, waterbath (37 °C and 65 °C) Method: 1. For volumes, refer to the next table: C2 = 9.2 ng/µl We used 60 µl of pET43.1a(+) concentrated at 15 ng/µl (total 900 ng)
1:1 | 1:3 | Only pET43.1a(+) | |
---|---|---|---|
pET43.1a(+) (50 ng) |
6.7 | 6.7 | 6.7 |
Insert (C2) (µl) | 1.74 | 5.22 | |
T4 Ligase (µl) |
1 | 1 | 1 |
Buffer 10X (µl) |
1.5 | 1.5 | 1.5 |
H20 (µl) |
4.06 | 0.58 | 5.8 |
TOTAL (µl) |
15 | 15 | 15 |
Aim:At this stage, we want to obtain a recombinant vector (pET43.1a(+) + C2) Protocol: follow in this link What we did in the lab: Materials: • pET43.1a(+) plasmid digested by XbaI/HindIII and dephosphorylate (done previously) • C2 insert cut by XbaI/HindIII (done on the june,28 2016) • T4 Ligase and Buffer 10X • P10 and P200 pipet, 1.5 eppendorf, warm bath (37 °C and 65 °C) Method: 1. For volums, refer to the next table :>> C2 = 11.4 ng/µl> pET43.1 = 50 ng/µl (900 ng 60 µl)>
1:1 | 1:4 | Only pET43.1a(+) | |
---|---|---|---|
pET43.1a(+) (50mg) (µl) |
20 | 20 | 20 |
Insert C2 (µl) |
1.4 | 4.2 | |
T4 ligase (µl) |
1 | 1 | 1 |
Buffer 10X (µl) |
2.5 | 2.5 | 2.5 |
H20 (µl) |
0 | 0 | 0 |
TOTAL (µl) |
24.9 | 27.7 | 22.5 |
Aim:Check if ligation of pET43.1+C1 and pET43.1+C2 were successfully done. Protocol: follow in this link What we did in the lab: Materials: • pET43.1a plamid • pET43.1a plamid cutted by HindIII/XbaI • C1 and C2 cutted by HindIII/XbaI • agarose gel 0.7% • TAE 0.5x buffer • Electrophoresis generator at 130 V • DNA ladder (Thermoscientific gene ruler 1 kb) • Electrophoresis generator (at 50 V and after at 90 V) Method: 1. Prepare an agarose gel at 0.7 % (Refer on the detail protocol which is on the protocol parts) 2. Fill electrophoresis chamber with TAE 0.5X 3. Follow the deposit table :
Lanes | L1 | L2 | L3 | L4 | L5 | L6 | L7 | L8 | L9 |
---|---|---|---|---|---|---|---|---|---|
Name |
Marker weight | pET43.1a(+) uncul | C1 (1:1) | C1 (1:3) | C2 (1:1) | C2 (1:3) | pET43.1a(+) only | ||
DNA (µl) |
7 | 6 | 5 | 5 | 5 | 5 | 5 | ||
DNA (µl) |
0 | 0 | 0 | 0 | 0 | 0 | 0 | ||
DNA (µl) |
0 | 0 | 1 | 1 | 1 | 1 | 1 |
Aim:Check if ligation of pET43.1+C1 and pET43.1+C2 was successfully done. Protocol: follow in this link What we did in the lab: Materials: • pET43.1a plamid • pET43.1a plamid cutted by HindIII/XbaI • C1 and C2 cut by HindIII/XbaI • agarose gel 0.7% • TAE 0.5x buffer • Electrophoresis generator at 130 V • DNA ladder (Thermoscientific gene ruler 1 kb) • P10 pipet, P20 pipet, test tube 250mL, electrophoresis BIORAD Mini-Sub Cell GT, 2 type of tips, 1.5ml Eppendorf sterile tubes, 37°C water bath, shaking incubator centrifuge 5415D, Method: 1. -Fill the electrophoresis chamber with TAE 0.5X buffer 2. Following this deposit table :
Lanes | L1 | L2 | L3 | L4 | L5 | L6 | L7 | L8 | L9 |
---|---|---|---|---|---|---|---|---|---|
Name |
Marker weight | pET43.1a(+) uncul | pET43.1a(+) only | C1 (1:1) | C1 (1:3) | C2 (1:1) | C2 (1:3) | ||
DNA (µl) |
5 | 1 | 5 | 5 | 5 | 5 | 5 | 5 | |
DNA (µl) |
0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | |
DNA (µl) |
0 | 1 | 1 | 1 | 1 | 1 | 1 | 1 |
Aim:The previuos experiment being still underway, we want to move ahead wier inserts. We want to digest our B2 insert to put it in the expression vector. Protocol: follow in this link What we did in the lab: Materials: • eppendorf (0.5 ml) • microbiology equipement • B2 insert • Enzymes (HindIII and XbaI) • H2O RNAse free • Buffer 10X Method: 1. Mixing all of reactants and let the digestion proceed during 1h30 at 37 °C 2. Follow this next table
B2 | |
---|---|
Vol DNA (50ng/µl) |
20 µl |
Vol Hind III | 0.5 µl |
AVol XbaI | 0.5 µl |
Vol buffer 10X (CutSmart) | 2.5 µl |
Vol TOTAL | 25 µl |
Aim:We want to check if our bacteria have produced enought ligated plasmid. Protocol: follow in this link What we did in the lab: Materials: Method: Spectro : Ultrospec 3100 pro-Amersham Bioscience Vol DNA = 2 l Vol TE buffer= 498 µl Dilution = 1/250 In a quartz cuvette ( Path Length= 1 cm): - 1 ml of buffer TE - use 2 µl DNA in 998 µl of TE for the dilution Analysis to = 260 nm Blank on TE1X Results:
λ= 260 nm | Colony (1:1) | Colony (1:2) | Colony (2:1) | Colony (2:2) |
---|---|---|---|---|
Cfinale> |
110 ng/µl | 290 ng/µl | 110 ng/µl | 70 ng/µl |
Cfinale2> |
5 500 ng/µl | 14 500 ng/µl | 5 500 ng/µl | 3 500 ng/µl |
Aim:: We want to check if the plasmid has an insert. Protocol: follow in this link What we did in the lab: Materials: Method:
Colony (1:1) | Colony (1:2) | Colony (2:1) | Colony (2:2) | |
---|---|---|---|---|
DNA (1 µg) |
9.1 µl | 3.4 µl | 9.1 µl | 14.3µl |
XbaI |
1 µl | 1 µl | 1 µl | 1 µl |
HindIII |
1 µl | 1 µl | 1 µl | 1 µl |
H20 |
15.9 µl | 21.6 µl | 15.9 µl | 10.7 µl |
Buffer 10X |
3 µl | 3 µl | 3 µl | 3 µl |
Buffer 10X |
30 µl | 30 µl | 30 µl | 30 µl |
Aim:We want to check if the plasmid has an insert. Protocol: follow in this link What we did in the lab: Method:
Lanes | L1 | L2 | L3 | L4 | L5 | L6 | L7 | L8 | L9 | L10 | ||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Name |
Mark weight | pET43.1a(+) X/H | C2 (1:1) | C2 (1:2) | C2 (2:1) | C2 (2:2) | pET43.1a(+) uncut | |||||
DNA (µl) |
6 | 30 | 30 | 30 | 30 | 30 | 30 |
Aim:We observed that two inserts were present in our gels, we therefore want to verify that the second heavier one is not as a result illegitimate ligation of XbaI/HindIII. There is a SpeI site in the neighboring sequences. Therefore, we want to split the insert to have just one insert. Protocol: follow in this link What we did in the lab: Materials: Method: 1. For volumes, refer to the next table :
C2.1.1 (110 ng/µl) | C2.1.2 (290 ng/µl) | pET43.1a(+) | |
---|---|---|---|
Vol DNA (3 µl) |
27.3 µl | 10.3 µl | 2.5 µl |
Vol SepI (µl) |
1 | 1 | 1 |
Vol XbaI (µl) |
1 | 1 | 1 |
H20 10X (µl) |
6.7 | 23.7 | 31.5 |
Vol Buffer CutSmart 10X (µl) |
4 | 4 | 4 | Vol TOTAL (µl) |
40 | 40 | 40 |
Aim:We want to check if we succeeded in splitting the twinned insert. Protocol: follow in this link What we did in the lab: Method: 1. To deposit volums, refer to this table :
Lines | L1 | L2 | L3 | L4 | L5 | L6 | L7 |
---|---|---|---|---|---|---|---|
Name |
Mark weight | pET43.1 X/S | C2 (1:1) | C2 (1:2) | |||
DNA (µl) |
10 | 40 | 40 | 40 | |||
H20 (µl) |
0 | 0 | 0 | 40 | |||
H20 (µl) |
10 | 10 | 10 | 10 |