To perform a gel extraction to isolate insert DNA purified from its plasmid thanks to the migration. We use the gel made before with inserts B2/E1/E2 but we only extract B2 bands.
• Scalpel
• 2 ml eppendorfs
• Balance
• UV table
• Microbiology equipment (type of incubator, Bunsen burner, water bath, etc… Follow this link)
• QIAGEN Gel Extraction Kit
Method:
⚠ Be aware of the risks! UV light burns the eyes and skin so make sure you have the right protection
We used the following gel (with different exposures) :
Figure 1 : picture of the gel with weak exposure
Figure 2 : picture of the gel with hight exposure
Figure 3 :picture of the gel with overexposure
Follow QIAGEN Kit steps according to the next tables for the volumes of QG buffer.
Table 130
Bands
Mass of gel (mg)
Volume of QG buffer (µl)
Band1
432
1296
Band2
423
1269
Band3
450
1350
Band4
426
1278
Band5
315
945
Band6
324
972
Band7
543
1629
Band8
483
1449
Band9
501
1503
Band10
255
765
Band11
312
936
Band12
372
1116
Band13
393
1179
Band14
414
1242
Band15
480
1440
Band16
579
1737
Band17
501
1503
Band18
501
1503
Band19
480
1440
Aim:
Measure the quantity of plasmid using a Nanodrop (Thermofisher).
What we did in the lab:
Materials :
• Nanodrop (Thermofisher)
• Elution buffer from QIAGEN kit
• Microbiology equipment (type of incubator, Bunsen burner, water bath, etc… Follow this link)
Method :
1. Analyze absorbance at 260nm.
2. Clean the Nanodrop with water.
3. Make the blank with 1 µl of elution buffer.
4. Put 1 µl of your sample on the Nanodrop.
5. Make the measure and clean the Nanodrop between each measure.
Results :
Table 131
lambda=260nm
Concentration (ng/µl)
C1
3.5
C2
2.9
C3
3.4
C4
4.2
C5
4.1
C6
15.1
C7
5.9
C8
4.9
C9
4.0
C10
4.9
C11
4.3
C12
4.1
C13
7.2
C14
4.9
C15
4.7
C16
8.5
C17
4.4
C18
3.6
C19
5.2
Aim:
To get back our insert from the Miniprep with appropriate enzymes. We perform restriction enzyme digestion in order to recover our inserts. We choose appropriate restriction sites based on the host plasmid.
A1(7 tubes) / A2 (6 tubes) / D1(6 tubes) / D2(6 tubes)
• Ligation enzymes: T4 ligase (New England Biolabs, NEB)
• Ligation buffer 10X
• 65°C heat table
• 100ng of pET43.1(a+) plasmid (6.8ng/µl)
• 50ng of purified insert B2 (15.8ng/µ)
Method :
Mix all the reagents and let digest during 30 min at room temperature.
&9888; Big volumes must be added first!
Table 133
Reactants
B2
pET43.1(a+)
Volplasmid DNA
14.5 µl
14.5 µl
VolInsert
3.2 µl
0 µl
Volligation buffer
3.7 µl
3.7 µl
VolH2O
14.5 µl
17.7 µl
VolT4 ligase
1 µl
1 µl
Voltotal
36.9 µl
36.9 µl
2. Incubate 5 minutes at 65°C to inactivate the enzymes.
3. Store at -20°C.
Aim :
To get back our insert from the Miniprep with appropriate enzymes.
We perform restriction enzyme digestion in order to recover our inserts. We choose appropriate restriction sites based on the host plasmid.
C1(10 tubes)
• Restriction enzymes: XbaI, HindIII (New England Biolabs, NEB)
• Restriction enzyme buffers
• 37°C water bath
• 65°C heating table
Method :
1. Mix all the reagents and let digest during 2 hours at 37°C.
⚠ Big volumes must be added first!
2. Make a global mix to be more accurate as we have 25 tubes.
4. Beginning of digestion 1:07PM.
Table 134
Reactants
Each sample
Global mix
VolDNA
20 µl
0 µl
VolXbaI
1 µl
10 µl
VolHindIII
1 µl
10 µl
VolH2O
0.5 µl
5 µl
VolBuffer 2.1
2.5 µl
25 µl
Voltotal
25 µl
50 µl
2. Incubate 10 min at 65°C to inactivate the enzymes.
3. Store at -20°C
Aim :
To get back our insert from the Miniprep with appropriate enzymes.
We perform restriction enzyme digestion in order to recover our inserts. We choose appropriate restriction sites based on the host plasmid.
E1 (19 tubes, one did not grow) / E2 (20 tubes)
• Four 2 l erlenmeyers
• LB (lysogeny Luria broth)
• IPTG (0.1 M)
• Precultures in 25 ml erlenmeyers
• UV spectrophotometer (Ultrospec 3100)
• Shaking incubator (INFORS HT)
• Centrifuge
• Buffer A (50 mM Tris, 150 mM of NaCl)
Method :
1. Put 1 l of LB in each erlenmeyer and make them warm with the shaking incubator at 37°C and 150 rpm.
2. Once warmed, add 5 ml of preculture in each erlenmeyer.
3. Let grow in the shaking incubator. Start of growth at 11:10AM.
4. Measure the absorbance with the UV spectrophotometer every 30 minutes :
Table 136
Times
C2 (1)
C2 (2)
C2 (3)
C2 (4)
2:22PM
0.113
0.132
0.203
0.143
2:55PM
0.303
0.339
0.421
0.328
3:38PM
0.476
0.509
0.593
0.494
3:52PM
0.614
0.659
0.683
0.609
5. Add IPTG to reach a concentration of 0.1 mM.
6. The last measure before induction is pelleted 3 minutes at 8000 g and stored at -20°C.
7. Let induce overnight in the shaking incubator
8. The day after, measure the OD and store the measure pelleted at -20°C. We measure 1.195.
9. Centrifuge at 4500 rpm the culture and throw out the supernatant, the pellet resuspended in 5 ml of buffer A are stored at -80°C before protein extraction.
Aim:
Measure the quantity of plasmid using a Nanodrop (Thermofisher).
What we did in the lab :
Materials :
• Nanodrop (Thermofisher)
• Elution buffer from QIAGEN kit
• Microbiology equipment (type of incubator, Bunsen burner, water bath, etc… Follow this link)
Method :
1. Analyze absorbance at 260nm.
2. Clean the Nanodrop with water.
3. Make the blank with 1 µl of elution buffer.
4. Put 1 µl of your sample on the Nanodrop.
5. Make the measure and clean the Nanodrop between each measure.
Results :
Table 137
Absorbance at 260nm (diluted 1/10)
A260
A280
A260/280
Concentration (ng/µl)
A1 (1)
0.393
0.206
1.91
19.6
A1 (2)
0.460
0.245
1.87
23.0
A1 (3)non diluted
1.593
0.850
1.87
79.7
A2 (1)
0.381
0.219
1.74
19.1
A2 (2)
0.303
0.150
2.02
15.1
A2 (3)non diluted
0.211
0.111
2.0
11.1
A2 (4)
0.280
0.158
1.78
14.0
D1 (2)non diluted
0.274
0.148
1.85
13.7
D2 (1)
1.740
0.911
1.91
87.0
D2 (2)
0.274
0.151
1.82
13.7
D2 (3)non diluted
0.214
0.128
1.67
10.7
D2 (4)
0.393
0.256
1.55
19.6
Aim :
To get back our insert from the Miniprep with appropriate enzymes.
We perform restriction enzyme digestion in order to recover our inserts. We choose appropriate restriction sites based on the host plasmid.
A1(3 tubes) / A2 (4 tubes)
• Restriction enzymes: HindIII (New England Biolabs, NEB)
• Restriction enzyme + buffer : XbaI Remix (New England Biolabs, NEB)
• 37°C water bath
• UV spectrophotometer
Method:
1. Mix all the reagents and let digest during 2 hours at 37°C.
⚠ Big volumes must be added first!
2. Make a global mix to be more accurate as we have 25 tubes.
3. Beginning of digestion at 12:15AM.
Table 138
Reactants
Each sample
Global mix
VolDNA
25 µl
0 µl
VolXbaI Remix
5 µl
35 µl
VolHindIII
4 µl
28µl
VolH2O
16 µl
112 µl
Voltotal
50 µl
175 µl
2. Incubate 10 min at 65°C to inactivate the enzymes.
Aim:
To perform a gel extraction to isolate insert DNA purified from its plasmid thanks to the migration. We use the gel made before with inserts B2/E1/E2 but we only extract B2 bands.