Difference between revisions of "Team:Paris Saclay/Experiments"

(gBlock plasmid insertion)
(gBlock plasmid insertion)
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Mix 7µL of gBlocks with 1µL of [[#PlasmidExtraction|extracted]] and [[#PlasmidDigestion|linearized]] plasmid, 1µL of ligase and 1µL of ligase buffer.
 
Mix 7µL of gBlocks with 1µL of [[#PlasmidExtraction|extracted]] and [[#PlasmidDigestion|linearized]] plasmid, 1µL of ligase and 1µL of ligase buffer.
 
Incubate for 1h at RT.
 
Incubate for 1h at RT.
 +
 +
===List of plasmids constructed===
 +
 +
<div id="pPS16_001"></div>
 +
{| class="wikitable"
 +
!-Plasmid name
 +
!-Backbone
 +
!-Insert
 +
!-Insert size (bp)
 +
|-
 +
|pPS16_001<div id="pPS16_001"></div>
 +
|pUC19
 +
|gBlock 1.1
 +
|960
 +
|-
 +
|pPS16_002<div id="pPS16_002"></div>
 +
|pUC19
 +
|gBlock 1.2
 +
|960
 +
|-
 +
|pPS16_003<div id="pPS16_003"></div>
 +
|pUC19
 +
|gBlock 2.1
 +
|1023
 +
|-
 +
|pPS16_004<div id="pPS16_004"></div>
 +
|pUC19
 +
|gBlock 2.2
 +
|808
 +
|-
 +
|pPS16_005<div id="pPS16_005"></div>
 +
|pUC19
 +
|gBlock 3.1
 +
|960
 +
|-
 +
|pPS16_006<div id="pPS16_006"></div>
 +
|pUC19
 +
|gBlock 3.2
 +
|960
 +
|-
 +
|pPS16_007<div id="pPS16_007"></div>
 +
|pUC19
 +
|gBlock 4.1
 +
|706
 +
|-
 +
|pPS16_008<div id="pPS16_008"></div>
 +
|pUC19
 +
|gBlock 4.2
 +
|1288
 +
|-
 +
|pPS16_009<div id="pPS16_009"></div>
 +
|pUC19
 +
|gBlock GFP 1-9
 +
|862
 +
|-
 +
|pPS16_010<div id="pPS16_010"></div>
 +
|pUC19
 +
|gBlock ATG linker RFB
 +
|374
 +
|-
 +
|pPS16_011<div id="pPS16_011"></div>
 +
|pUC19
 +
|gBlock detection
 +
|1020
 +
|-
 +
|pPS16_012<div id="pPS16_012"></div>
 +
|pUC19
 +
|gBlock St sgRNA
 +
|310
 +
|-
 +
|pPS16_013<div id="pPS16_013"></div>
 +
|pUC19
 +
|gBlock ATG linker FKBP
 +
|419
 +
|-
 +
|pPS16_014<div id="pPS16_014"></div>
 +
|pUC19
 +
|gBlock Nm sgRNA
 +
|362
 +
|-
 +
|pPS16_015<div id="pPS16_015"></div>
 +
|pUC19
 +
|gBlock spacer1
 +
|900
 +
|}
  
 
===DNA electrophoresis on agarose gel===
 
===DNA electrophoresis on agarose gel===

Revision as of 15:13, 10 August 2016

{{{titre}}}

Experiments

Describe the experiments, research and protocols you used in your iGEM project.

What should this page contain?

  • Protocols
  • Experiments
  • Documentation of the development of your project

Protocols

Antibiotics concentrations

The following concentrations of antibiotic were used to grow bacteria (on Petri dishes or liquid cultures):

Antibiotic Concentration (µg/mL)
Ampicillin 50
Chloramphenicol 30
Kanamycin 50
Spectinomycin 50
Streptomycin 50

Heat shock competent cells

Preparation

Day 1 Inoculate cells in 3.5mL LB medium. Incubate at 37°C overnight.

Day 2 Measure culture OD at 600nm. Dilute cells in 250mL of LB medium so OD equals to 0.12. Incubate overnight at 20°C and 180rpm.

Day 3 Measure culture OD at 600nm and dilute to obtain OD600nm=0.6. Cells must be kept at 4°C during all following steps. Put on ice for 10min and centrifuge for 10min at 3000rpm and 4°C. Discard supernatant and resuspend cells in 80mL of fresh TB buffer. Keep on ice for 10min and centrifuge for 10min at 3000rpm and 4°C. Discard supernatant again and resuspend cells in 20mL of fresh TB buffer with 7% of DMSO. Keep on ice for 10min. Aliquot cells and freeze with liquid nitrogen. Keep at -80°C.

TB buffer recipe

HEPES 10mM
MnCl2 55mM
CaCl2 15mM
KCl 250mM
KOH up to pH6.7

Dissolve HEPES, CaCl2 and KCl in water. Adjust pH to 6.7 with KOH. Add MnCl2. Filter to sterilize and keep at 4°C.

Tranformation

Add 1µL of plasmids to 50µL of competent cells (make a control tube without plasmid). Keep tubes on ice for 30min and heat shock at 42°C for 1min. Add 500µL of LB medium into each tube and incubate at 37°C for 1h. Spread cells on Petri dishes in duplicate and incubate at 37°C overnight.

Electro-competent cells

Preparation

Inoculate 15mL of LB with 200µL of an overnight cell culture. Incubate at 37°C and 180rpm until OD600nm reaches 0.6. Centrifuge cells for 10 minutes at 4000rpm. Wash twice with 10mL of 10% glycerol. Put cells in 200µL of 10% glycerol and use for electroporation.

Transformation

Use an Eppendorf Electroporator 2510 (tune to 2500V). Add 1µL of plasmids to 50µL of competent cells (make a control tube without plasmid). Place cells in a 1mm-cuvette, electroporate (the time constant should be close to 6ms) and recover cells with 1mL of cold LB medium. Incubate cells for 1h at 37°C. Spread cells on Petri dishes in two different concentrations and incubate at 37°C overnight.

Plasmid DNA extraction

Transfer 1.5mL of an overnight culture into an eppendorf tube. Centrifuge at 13000rpm for 1min to pellet the cells. Discard supernatant and resuspend cells in 100µL of TE buffer. Add 200µL of solution II and mix gently by inverting the tubes until lysate appears clear. Add 150µL of solution III and mixed gently. Keep the solution on ice for 10min. Centrifuge for 10min at 13000rpm and recover the supernatant. Add 100µL of phenol in each tubes to denature the proteins and vortex for 30s. Centrifuge the tubes for 7min at 13000rpm. Recover the aqueous phase. Add 2 volumes (900µL) of 100% ethanol and put at -20°C for 10min. Centrifuge the tubes again for 10min at 13000rpm. Discard supernatant and wash with 800µL of 70% ethanol to remove the remaining ions. Make sure that the pellet containing DNA remains at the bottom of the tubes. Centrifuge the tubes for 4min at 13000rpm and remove supernatants. Dry tubes in speedvac. Resuspend the pellet in 50µL of TE/RNAse. Keep the extracted plasmids at -20°C.

TE buffer recipe
Tris 10mM
EDTA 55mM


Solution II recipe (lysis solution) Keep for maximum 3 weeks.
SDS 1%
NaOH 0.1M


Solution III recipe (neutralization solution) CH3COOK 3M at pH4.8.

CH3COOK 5M 60mL
CH3COOH 11.5mL
water 28.5mL


TE/RNase Use only fresh solution.

RNase (10mg/mL) 5µL
TE 1mL

DNA extraction using the Invitrogen ChargeSwitch®-Pro Plasmid Miniprep Kit

Follow the steps below to purify plasmid DNA from 1-5ml of fresh overnight cultures using a microcentrifuge. All steps are performed at room temperature.

Before Starting

  • For a new kit, add Rnase A (provided in the kit) to the Resuspension Buffer and mix.
  • If necessary, warm the Lysis Buffer to 37°C to dissolve any precipitate.

Preparing the Sample

  1. Pellet cells from 1-5 ml of overnight culture.
  2. Resuspend in 250 µL of Resuspension Buffer premixed with Rnase A. No cell clumps should remain.
  3. Add 250 µL of Lysis Buffer. Mix well by gentle inversion. Do not vortex.
  4. Incubate at room temperature for 2-5 minutes. Do not incubate more than 5 minutes.
  5. Add 250µL of Precipation Buffer, and mix well until a white precipitate is formed.
  6. Centrifuge for 10 minutes at maximum speed to pellet the debris.

Binding the DNA

  1. Carefully transfer the supernatant from Step 2.6 above onto the ChargeSwitch®-Pro MiniPrep Colum inserted in a Collection Tube.
  2. Centrifuge the column/tube at maximun speed for 30-60 seconds.
  3. Remove the column from the tube and discard the flow-through. Re-insert the column in the same tube.

Washing the Column

  1. Add 750µL of Wash Buffer 1 to the column.
  2. Centrifuge the column/tube at the maximun speed for 30-60 seconds.
  3. Remove the column from the tube and discart the flow-through. Re-insert the column in the tube;
  4. Add 250µL of Wash Buffer 2 to the column.
  5. Centrifuge the column/tube at maximun speed for 30-60 seconds.
  6. remove the column from the tube. Discard the flow-through and the Collection Tube.

Eluting the DNA

  1. Insert the column into an Elution Tube (provided in the kit).
  2. Add 50-100µL of Elution Buffer onto the column.
  3. Centrifuge the column/tube at maximun speed for 30-60 seconds.
  4. Optional:Remove the Elution Tube and transfer the eluate back onto the same column. Re-insert the column in the tube and centrifugate at maximun speed for 30-60 seconds. This step is recommended for maximun recovery.
  5. The eluate contains your purified plasmid DNA. Store DNA at 4°C or -20°C.

Plasmid digestion

Mix 10µL of extracted plasmid with 2µL of digestion buffer and 7µL of water. Add 1µL of restriction enzyme. Incubate for 1 hour at 37°C (except for fast digest enzymes which need only 5 min of incubation at 37°C). Then digestion products are migrated on an agarose gel.

gBlock plasmid insertion

The following ratio should be over 7: \[ \frac{vector\ size}{insert\ size}\times\frac{insert\ concentration}{vector\ concentration} \]

Gently centrifuge gBlocks. Add 100µL of TE buffer (final concentration should be around 10ng/µL). Vortex and incubate at 50°C for 20min. Mix 7µL of gBlocks with 1µL of extracted and linearized plasmid, 1µL of ligase and 1µL of ligase buffer. Incubate for 1h at RT.

List of plasmids constructed

-Plasmid name -Backbone -Insert -Insert size (bp)
pPS16_001
pUC19 gBlock 1.1 960
pPS16_002
pUC19 gBlock 1.2 960
pPS16_003
pUC19 gBlock 2.1 1023
pPS16_004
pUC19 gBlock 2.2 808
pPS16_005
pUC19 gBlock 3.1 960
pPS16_006
pUC19 gBlock 3.2 960
pPS16_007
pUC19 gBlock 4.1 706
pPS16_008
pUC19 gBlock 4.2 1288
pPS16_009
pUC19 gBlock GFP 1-9 862
pPS16_010
pUC19 gBlock ATG linker RFB 374
pPS16_011
pUC19 gBlock detection 1020
pPS16_012
pUC19 gBlock St sgRNA 310
pPS16_013
pUC19 gBlock ATG linker FKBP 419
pPS16_014
pUC19 gBlock Nm sgRNA 362
pPS16_015
pUC19 gBlock spacer1 900

DNA electrophoresis on agarose gel

Gel preparation

Mix agarose and TAE buffer to get a final concentration of 0.8%(w/v). Microwave for 1-2min in order to melt the agarose. Let cool down for 10min and add BET up to 5µg/mL. This solution can be kept at 61°C. Pour the solution into the casting tray. Place the comb and let cool down for about 30min. Place the gel in an electrophoresis unit full of TAE and load the samples plus a ladder. Migrate at 100V for 20min. Visualize DNA fragments with UV light.


Polymerase chain reaction

List of PCR primers

Name Description Sequence 5'→3'
iPS120 Reverse primer amplification gBlock 1-1 TCCAGGATGCGCAGGTTGTTCAGCTTG
iPS121 Forward primer amplification gBlock 1-2 GCAAGGCAGCGAGAGACCCCTGAC
iPS122 Reverse primer amplification gBlock 1-2 TCGCTGCCCAGCACCAGCACCTTG
iPS123 Forward primer amplification gBlock 2-1 GCTGCCCTTCAGCCGCACCTGGGAC
iPS124 Reverse primer amplification gBlock 2-1 TTCTGCACCTGCTCCACGCGCACGG
iPS125 Forward primer amplification gBlock 2-2 GACCGGCGTGTGGGTGCGCAACC
iPS126 Reverse primer amplification gBlock 3-1 GGCACGGTCAGGTTGTTCAGGTCGTTC
iPS127 Forward primer amplification gBlock 3-2 CACCGAGACCAAGAAGCTGAGCAAGG
iPS128 Reverse primer amplification gBlock 3-2 CTGTCGTCGAAGGTGATGCTCAGG
iPS129 Forward primer amplification gBlock 4-1 GCTGCCTGTACACCGGCAAGACCATC
iPS130 Reverse primer amplification gBlock 4-1 AACAGGATGCTGTCCTCGAACTCC
iPS131 Forward primer amplification gBlock 4-2 CAGCTACCAGGTGGACAGCAAGTTC
iPS132 Forward primer amplification St guide TTGACAGCTAGCTCAGTCCTAGGTATAATG
iPS133 Reverse primer amplification Nm guide CTAGCACTATCAGCGTTATTTAGCG
iPS134 Forward primer sequencing Cas plasmids from Addgene TTTACGGGCATGCATAAGGCTCG
iPS135 Reverse primer sequencing Cas plasmids from Addgene GTACCTAGGACTGAGCTAGCCG
iPS136 Reverse primer sequencing DS-SPCasN- from Addgene CTGCATGAAGTTCCGGTTGGC
iPS137 Forward primer sequencing DS-SPCasN- from Addgene GAAACAGCTCAAGAGGCGCCG
iPS138 Prefix GAATTCGCGGCCGCTTCTAGAG
iPS139 Suffix CTGCAGCGGCCGCTACTAGTA
iPS83 4bases_Prefix ATTCGAATTCGCGGCCGCTTCTAGAG
iPS84 4bases_suffix AGTACTGCAGCGGCCGCTACTAGTA
Ptet_R Primer for Gibson assembly plasmid TTCTGCTGATGTGCTCAGTATC
Link-TDdcas_F Primer for Gibson assembly link-TDdcas TGAAAACCTGTACTTCCAGGGTGGTTCTG
GTGGTGGTGGTTCTAAGAAGGAGATCAA
Ter_TDdcas_R Primer for Gibson assembly TDdcas-Ter CTTTAATGAATTCGGTCAGTGCGAGGAAT
GGTCAAGGTCCCAG
Tet-SPdcas_F Primer for Gibson assembly Tet-SPdcas GATACTGAGCACATCAGCAGGAACTTTTA
CTAGAGGAGGAGGCA
Link-SPdcas_R Primer for Gibson assembly SPdcas-link CACCCTGGAAGTACAGGTTTTCACCACCA
GAACCACCACCACCGTCTCCACCGAGCT
Ptet_F Primer for Gibson assembly plasmid CGCACTGACCGAATTCATTAAAG
1152_pheoF Forward primer amplification pUC19 insert GAATTCGAGCTCGGTACCC
1151_pheoR Reverse primer amplification pUC19 insert AAGCTTGCATGCCTGCAG

PCR with Taq PCRx DNA Polymerase (recombinant) or DreamTaq DNA Polymerase from ThermoFisher Scientific

  • Prepare enough PCR master mix for the number of colonies analyzed plus one extra. Mix the following reagents :
Components Volume
10x Taq buffer with KCl 2µL
MgCl2 (25mM) 1.2µL
dNTP (10mM) 2µL
Primers mix (10µM each) 1.2µL
Taq DNA polymerase 0.1µL
Nuclease-free water up to 20µL
Total volume 20µL

or

Components Volume
10X DreamTaq Green Buffer 2.5µL
dNTP (10mM) 2.5µL
Primers mix (10µM each) 1µL
DreamTaq DNA polymerase 0.13µL
Nuclease-free water up to 25µL
Total volume 25µL
  • Mix gently and aliquot 20μL or 25μL of the mix into the PCR tubes on ice.
  • Pick up an individual colony with a sterile pipette tip and resuspend it in 20μL or 25μL of the PCR master mix (or take 1μL of liquid preculture). Make a short strike with the same tip over culture plate to save the clone for repropagation.
  • Perform PCR as follow (annealing temperature can be calculated here):
Step Temperature Time
Initial denaturation 95°C 3min
30 cycles 94°C 30sec
Tannealing 30sec
72°C 1min/kb
Final Extension 72°C 7min
Hold 4°C $\infty$

PCR with Q5® High-Fidelity 2X Master Mix from NEB

  • Prepare enough PCR master mix for the number of colonies analyzed plus one extra. For each 25μl of reaction, mix the following reagents :
Components Volume
Q5 High-Fidelity 2X Master Mix 12.5µL
Primers mix (10µM each) 2.5µL
Template DNA (from extractions) 1µL
Nuclease-free water up to 25µL
Total volume 25µL
  • Mix gently and aliquot 25μl of the mix into the PCR tubes on ice.
  • Perform PCR as follow (annealing temperature can be calculated [http://tmcalculator.neb.com/#!/ here]):
Step Temperature Time
Initial denaturation 98°C 3min
30 cycles 98°C 10sec
Tannealing 20sec
72°C 30sec/kb
Final Extension 72°C 2min
Hold 4°C $\infty$

PCR with Phusion High-Fidelity DNA Polymerase from ThermoFisher Scientific

  • Prepare enough PCR master mix for the number of colonies analyzed plus one extra. For each 50μl of reaction, mix the following reagents :
Components Volume
Buffer 5x HF 10µL
dNTP (10mM) 1µL
Primers mix (10µM each) 5µL
Template DNA (from extractions) 1µL
Phusion DNA polymerase 1µL
Nuclease-free water up to 50µL
Total volume 50µL
  • Mix gently and aliquot 50μl of the mix into the PCR tubes on ice.
  • Perform PCR as follow (annealing temperature can be calculated here):
Step Temperature Time
Initial denaturation 98°C 30sec
30 cycles 98°C 10sec
Tannealing 30sec
72°C 30sec/kb
Final Extension 72°C 7min
Hold 4°C $\infty$

Purification : PCR clean-up with NucleoSpin Gel and PCR Clean-up

Adjuste DNA binding condition

PCR sample must have 50-100µL and if not, water is added. 1 volume of sample was mixed with 2 volumes of Buffer NT1.

Bind DNA

NucleoSpin gel and PCR Clean-up column were placed into collection tube (2mL). The sample are centrifuged at 11,000rpm for 30s. The flow-through is discarded and the column put back into the collection tube.

Wash silica membrane

700µL of Buffer NT3 is added in each column. The tubes were centrifuged at 11,000 rpm for 30s. The flow-through is discarded and the column put back into the collection tube. This step is repeated another time.

Dry silica membrane

The tubes were centrifuged 1min at 11,000 rpm to removed completely.

Elute DNA

The NuleoSpin gel and PCR clean-up column were put into new tube (1.5mL) and 30*L of Buffer NE was added. The tube were left incubated for 1 at RT and then centrifuged 1min at 11,000 rpm.