GRNA Production: Difference between revisions
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(1) Oligo Rehydration | |||
100 μmol [ ] (stock) of oligos | 100 μmol [ ] (stock) of oligos | ||
Ex. 100 μmol [ ] —> 27.8 nmol [ ] —> rehydrate oligo bead with 278 μl of H2O | Ex. 100 μmol [ ] —> 27.8 nmol [ ] —> rehydrate oligo bead with 278 μl of H2O | ||
*add H2O to hydrate oligos | *add H2O to hydrate oligos | ||
*incubate 5 min at room temp | *incubate 5 min at room temp | ||
Line 7: | Line 10: | ||
*incubate another 5 min to fully dissolve store at -20°C | *incubate another 5 min to fully dissolve store at -20°C | ||
(2) Sense / Antisense Oligo Annealation | |||
TRIS Buffer | TRIS Buffer | ||
Line 23: | Line 27: | ||
* incubate samples at high temp to low temp (about -1°C / sec) - must reach 95°C | * incubate samples at high temp to low temp (about -1°C / sec) - must reach 95°C | ||
* store at 4°C | * store at 4°C | ||
(3) Plasmid Digestion | |||
Plasmid DR274 - digest with restriction enzyme BsaI | |||
Always mix then centrifuge reaction components after removing from -20° | |||
Reaction Mix (Add in parenthetical order.) | |||
# 14.5μl H2O | |||
# 1μl plasmid DNA (1-2 μg) (1.419 μg/μl —> just use 1 μl) | |||
# 2μl Buffer IV (10x) | |||
# 2μl BSA (10x) | |||
# 10U/μl BsaI (0.5 μl for example) | |||
—————————— | |||
20 μl final volume | |||
(4) Gel- Plasmid Digestion | |||
Gel Digestion | |||
*1.5% agarose gel | |||
*20 μl digestion vol + 3 μl loading dye | |||
*run for 40 min @ 130 V | |||
*take picture quickly! (avoid excessive UV exposure to nucleic acid) | |||
(5) Gel- DNA Extration/Purification of Plasmid | |||
DNA Extraction Kit (Gel Extraction) | |||
weigh eppendorf mct tube — slice out band from gel | |||
*place in tube | |||
*weigh again | |||
*add volume of Buffer 1 equivalent to weight difference (gel slice weight) — incubate at 60°C for 5-10 min to let gel dissolve in extraction buffer | |||
(should look yellow. pink/red means too basic) | |||
*apply solution to column | |||
*incubate for 1 min | |||
*centrifuge @ 13,000 rpm, 1 min | |||
*put column back to the original tube | |||
*add 500 μl wash B (salt + EtOH) | |||
*centrifuge 13,000 rpm 1-1.5 min | |||
*put column back in column tube | |||
*centrifuge @ 13,000 rpm, 2 min | |||
*put column into new 1.5 mL Eppendorf microcentrifuge tube — add 20ul H2O to column | |||
*incubate 1 min | |||
*centrifuge @ 13,000 rpm, 1 min | |||
*add 20ul H2O to column | |||
*incubate 1 min | |||
*centrifuge @ 13,000 rpm, 1min | |||
(6) gRNA oligo ligation into plasmid | |||
Reaction Mix | |||
*3μl sense/antisense annealed oligos | |||
*1μl purified vector (Kan. resistant) | |||
*1μl 10x Buffer (salts, ATP, DTT, etc.) | |||
*0.5μl ligase | |||
*4.5μl H2O | |||
—————————— | |||
10μl final vol | |||
#Master Mixes (when doing many ligations simultaneously) | |||
(1) Master Mix #1 (mix then pipette into PCR tubes) | |||
*1 μl Vextor x (n+1) | |||
*0.8 μl 10x BF x (n+1) | |||
*3.2 μl H2O (n+1) | |||
———————— | |||
*5 μl / PCR tube final vol | |||
#3 μl of oligo (pipette directly into PCR tubes with MM#1) | |||
# Master Mix #2 (mix then pipette into PCR tubes) | |||
* 0.5μl enzyme x (n+1) | |||
*0.2μl 10x BF x (n+1) | |||
*1.3μl H2O x (n+1) | |||
———————————— | |||
2 μl / PCR tube | |||
4° C ON | |||
(7) Transformation | |||
*Use recombinant bacterial cells, strain DH5α (e. coli substrain) (in PCR tubes in -80°) - must ALWAYS keep on ice!! | |||
*4μl aliquot (ligation product) into common mix (-80C°) (~20-30 μl in common mix) | |||
*incubate on ice for 25 min | |||
*heat change —> 42°C in 1.5 min | |||
*incubate on ice for 3.5 min | |||
*put into Eppendorf w/ LB (no antibiotics - give cells a chance to express the plasmid gene against antibiotics) | |||
*culture at 37°C for 1 hr | |||
*centrifuge: 6,000 rpm / 1min | |||
*trash most supernatant | |||
*resuspend e. coli culture (w/ leftover LB) plate - LB + Kan antibiotics | |||
*incubate 37° overnight | |||
Note: | |||
Kan 50 mg/L - high copy | |||
Kan 15 mg/L - low copy | |||
Notes: | |||
# If very efficient ligation / transformation with plasmid, then there will be an increased # of colonies that can survive. Therefore you should do a 2x plating (2x plates per transformation) so you can pick single colonies w/o contamination | |||
#∴ 2x plates per PCR tube of transformed DH5α — 25 μl / plate —gradient plating | |||
# Akira prepares common stock of DH5α for the lab. | |||
# Use 4μl ligation product for newly ligated plasmids. If proven highly efficient, use 1μl of product. | |||
# 42°C incubation - use Jifeng’s ’42 Keep’ thermal cycler program | |||
# For Amp. resistance, LB culture is not necessary | |||
# For Amp res. plasmids, add 50-100μl of LB directly to PCR tube, then plate | |||
# After plating, allow to dry until no excess liquid | |||
# Culture in 37° incubator ON (16 hours max!!!) in semi open plastic bag to avoid excessive moisture loss | |||
(8) Miniculture | |||
n (number of colonies you want to culture) —> n separate vials / per plate | |||
Culture Solution | |||
Kan = 50 mg/mL (stock concentration) | |||
—> 50 mg/L final dilution / concentration | |||
ex. 100 mL PBS + 100 μl Kan | |||
*use pipette tip to transfer colony gently to tube (can drop expel pipette tip directly into tube to be removed after centrifugation) | |||
*8 hours ON at 37°C | |||
(9) Miniprep | |||
Protocol | |||
*ON culture | |||
*centrifuge 5000 rpm / 10 min discard supernatant | |||
*add 250μl P1 | |||
*resuspend pellet in P1 | |||
*transfer to 2mL Eppendorf tubes | |||
*add 250 μl P2 | |||
*mix by inverting until solution becomes blue | |||
*add 350 μl N3 (guanidine hydrochloride acetyl acid) | |||
*mix immediately by inverting tubes until solution (blue) turns colorless | |||
*centrifuge 13,000 rpm / 10 min | |||
*label QIAprep spin columns | |||
*transfer supernatant to QIAprep spin columns | |||
*incubate / let stand for 1 min | |||
*centrifuge @ 13,000 rpm / 2 min | |||
*discard spin-through | |||
*+ 750 μl PE to column | |||
*centrifuge @ 13,000 rpm / 2 min | |||
*+ 750 μl PE to column | |||
*centrifuge @ 13,000 rpm / 2 min | |||
*vacuum columns’ inner rim/ridge (do NOT vacuum membrane) remove columns | |||
*label 1.5mL Eppendorf tubes | |||
*places columns into 1.5mL Eppendorf tubes | |||
*add 50 μl dH2O | |||
*let stand 1 min | |||
*centrifuge 1 min | |||
*store samples at -20°C | |||
(10) Miniprep Sample Sequencing | |||
Sequencing reaction | |||
*2 Kb plasmid | |||
requires ~100 ng [ ] per tube | |||
*_____ ng/μl [ ] | |||
ex. 170 ng/μl [ ] | |||
0.7μl sample | |||
4.3μl H2O | |||
*for multiple samples around 170ng/μl [ ], use 4.3μl H2O and then add appropriate concentration of sample to sequencing PCR tube | |||
*M13_F primer | |||
*max read length | |||
*check sequences for gRNA inserts | |||
(11) Plasmid gRNA PCR Amplification | |||
Mix | |||
0.2μl sample | |||
0.3μl For | |||
0.3μl Rev | |||
25μl Phusion MasterMix (with NTs and Taq) *** 24.2μl ddH2O | |||
————————— | |||
50 μl total vol | |||
*** 2x Phusion 9c ‘MasterMix’ (Thermo) #F-532 | |||
Master Mix | |||
*(n + 0.5) x each component | |||
*use pipette tips with filters | |||
*For + Rev + Phusion MM + ddH2O | |||
*label sides + top of tubes (#1 - #n) | |||
*briefly centrifuge samples + primers + Phusion (once dissolved) | |||
*add For + Rev + Phusion MM + ddH2O into ‘MM’ tube | |||
*pipette up and down to mix (~5x times) | |||
*aliquot 49.8 μl of MM into each PCR tube | |||
*add 0.2 μl sample to each tube | |||
*put in / start thermalcycler | |||
(12) QIAquick PCR Purification Kit | |||
*5 volumes Buffer PB to 1 vol PCR rxn (add directly to PCR tube) | |||
*mix | |||
(if orange or violet, add 10μl 3M sodium acetate and mix) | |||
(mix should turn yellow) | |||
*place QIAquick columns in 2mL collection tubes | |||
*bindDNA - add sample to column | |||
*incubate for 1 min | |||
*centrifuge for 30-60 sec | |||
*discard flow through + put column back in 2mL tube | |||
*wash - add 0.75mL PE to column | |||
*centrifuge for 30-60 sec | |||
*discard flow-through + put column back in 2 mL tube | |||
*centrifuge QIAquick column for 1 min in 2 mL collection tube | |||
*vacuum rim of column (10μl tip + 1mL tip + vac system) | |||
*centrifuge QIAquick column for 1 min in 2 mL collection tube | |||
*place columns in RNase free 1.5mL microcentrifuge tubes (put lids on column tubes and cut the column tubes’ lids off) | |||
*eluteDNA - add 20μl RNase free H2O to centre of column centrifuge column for 1 min | |||
*measure concentration (nanodrop) | |||
(13) Purified PCR product gel | |||
1μl purified product | |||
1μl dye | |||
5/6 μl TBE (1x) | |||
———————————— | |||
8/9 μl total vol | |||
(2μl Red / 50 mL of gel solution) | |||
(14) MEGAscript Kit (amnion / life technologies) | |||
Prep | |||
*prepare 70% EtOH - minimum 3mL / sample (for day 2) | |||
*keep RNAPol on ice at all times | |||
*thaw frozen reagents | |||
*vortex 10x RBuffer and NTPs | |||
*briefly centrifuge | |||
*(NTPs should be kept on ice. 10x RB must be kept at room temp.) | |||
Assemble Txn Rxn | |||
Sample | |||
Use ~500ngof Miniprep sample —> use Nanodrop concentration to calculate volume | |||
MasterMix | |||
Add MM components in the following order: H2O, NTPs, 10x BF, enzyme mix, MPI T7 | |||
(n = number of samples + 0.5) | |||
n x 2μl ATP | |||
n x 2μl CTP | |||
n x 2μl GTP | |||
n x 2μl UTP | |||
n x 2μl 10x Buffer | |||
n x ___μl H2O | |||
n x 0.5μl MPIT7 (separate - Max Planck purified T7 enzyme) | |||
n x 2μl Enzyme Mix | |||
___μl MasterMix + ___μl sample = 20μl | |||
*add sample volume directly to PCR tubes | |||
*add MasterMix to samples | |||
*mix thoroughly | |||
*incubate in thermalcycler, 37°C, overnight (max 16 hrs.) | |||
Day 2 | |||
TURBO DNase | |||
*add 1μl TURBO DNase | |||
*mix well | |||
*incubate further 15 min at 37°C | |||
*label RNase free 1.5mL microcentrifuge (μc)tubes | |||
RNA Recovery - LiCl Precipitation | |||
precipitate RNA | |||
*add 30μl RNase free H2O | |||
*add 30μl LiCl precipitation solution | |||
(preferred method: add LiCl to newly labeled 1.5mL μc tubes, add 30μl H2O to samples, transfer H2O + samples (50μl) to the μC tubes with LiCl) *mix thoroughly | |||
*chill >30 min at -20°C | |||
*centrifuge: 4°C, max speed, 15 min | |||
*CAREFULLY remove supernatant | |||
*wash pellet with 1mL 70% EtOH | |||
*centrifuge: 4°C, max speed, 15 min | |||
*wash pellet with 1mL 70% EtOH | |||
*centrifuge: 4°C, max speed, 15 min | |||
*wash pellet with 750μl 70% EtOH (lower vol. allows for easier removal of final wash) (3x total washes - centrifuge between each wash) | |||
*centrifuge: 4°C, max speed, 15 min | |||
*carefully remove EtOH | |||
*air dry 5-10 min | |||
*resuspend RNA in~50μl RNase free H2O (Variable volume. If some pellets are smaller, use less H2O.) (make very sure pellet is fully resuspended - tricky because appears clear) | |||
*determine concentration using Nanodrop (remember to use RNA detection) | |||
*store at -80°C | |||
(15) gRNA - Cas9 complex formation | |||
Injection / electroporation complex | |||
10-20μg protein (from prep 5 μg/μl) | |||
5μg each gRNA (concentration dependent) | |||
0.9 μg 10x Cas9 Buffer | |||
__ μl H2O | |||
——————————— | |||
10 μl final volume | |||
*Microinjection (single cell stage complex) | |||
5μg protein (around 1 μl - from prep 5μg/μl) | |||
4 μg gRNA ([] dependent) | |||
0.9μl 10x Cas9 Buffer | |||
__μl Hzo | |||
1 μl Fastgreen | |||
——————————— | |||
10μl final volume | |||
*Add in seq. | |||
# H2O | |||
# Buffer | |||
# gRNA | |||
# Protein | |||
*aliquot 5 ———————————l into 2x 1.5 mL PCR tubes (hyper sterile) | |||
*incubate at room temp for 5 min. | |||
*store at -80°C |
Latest revision as of 12:16, 26 July 2018
(1) Oligo Rehydration
100 μmol [ ] (stock) of oligos
Ex. 100 μmol [ ] —> 27.8 nmol [ ] —> rehydrate oligo bead with 278 μl of H2O
- add H2O to hydrate oligos
- incubate 5 min at room temp
- mix
- incubate another 5 min to fully dissolve store at -20°C
(2) Sense / Antisense Oligo Annealation
TRIS Buffer
- sufficient to allow oligos to anneal
- proper pH (7.5-8)
- 10 mmol TRIS
2 μl sense oligo, 2 μl antisense oligo, 46 μl TRIS buffer (10 mmol) ————————— 50 μl final vol
- incubate samples at high temp to low temp (about -1°C / sec) - must reach 95°C
- store at 4°C
(3) Plasmid Digestion
Plasmid DR274 - digest with restriction enzyme BsaI
Always mix then centrifuge reaction components after removing from -20°
Reaction Mix (Add in parenthetical order.)
- 14.5μl H2O
- 1μl plasmid DNA (1-2 μg) (1.419 μg/μl —> just use 1 μl)
- 2μl Buffer IV (10x)
- 2μl BSA (10x)
- 10U/μl BsaI (0.5 μl for example)
——————————
20 μl final volume
(4) Gel- Plasmid Digestion
Gel Digestion
- 1.5% agarose gel
- 20 μl digestion vol + 3 μl loading dye
- run for 40 min @ 130 V
- take picture quickly! (avoid excessive UV exposure to nucleic acid)
(5) Gel- DNA Extration/Purification of Plasmid
DNA Extraction Kit (Gel Extraction) weigh eppendorf mct tube — slice out band from gel
- place in tube
- weigh again
- add volume of Buffer 1 equivalent to weight difference (gel slice weight) — incubate at 60°C for 5-10 min to let gel dissolve in extraction buffer
(should look yellow. pink/red means too basic)
- apply solution to column
- incubate for 1 min
- centrifuge @ 13,000 rpm, 1 min
- put column back to the original tube
- add 500 μl wash B (salt + EtOH)
- centrifuge 13,000 rpm 1-1.5 min
- put column back in column tube
- centrifuge @ 13,000 rpm, 2 min
- put column into new 1.5 mL Eppendorf microcentrifuge tube — add 20ul H2O to column
- incubate 1 min
- centrifuge @ 13,000 rpm, 1 min
- add 20ul H2O to column
- incubate 1 min
- centrifuge @ 13,000 rpm, 1min
(6) gRNA oligo ligation into plasmid
Reaction Mix
- 3μl sense/antisense annealed oligos
- 1μl purified vector (Kan. resistant)
- 1μl 10x Buffer (salts, ATP, DTT, etc.)
- 0.5μl ligase
- 4.5μl H2O
——————————
10μl final vol
- Master Mixes (when doing many ligations simultaneously)
(1) Master Mix #1 (mix then pipette into PCR tubes)
- 1 μl Vextor x (n+1)
- 0.8 μl 10x BF x (n+1)
- 3.2 μl H2O (n+1)
————————
- 5 μl / PCR tube final vol
- 3 μl of oligo (pipette directly into PCR tubes with MM#1)
- Master Mix #2 (mix then pipette into PCR tubes)
- 0.5μl enzyme x (n+1)
- 0.2μl 10x BF x (n+1)
- 1.3μl H2O x (n+1)
————————————
2 μl / PCR tube
4° C ON
(7) Transformation
- Use recombinant bacterial cells, strain DH5α (e. coli substrain) (in PCR tubes in -80°) - must ALWAYS keep on ice!!
- 4μl aliquot (ligation product) into common mix (-80C°) (~20-30 μl in common mix)
- incubate on ice for 25 min
- heat change —> 42°C in 1.5 min
- incubate on ice for 3.5 min
- put into Eppendorf w/ LB (no antibiotics - give cells a chance to express the plasmid gene against antibiotics)
- culture at 37°C for 1 hr
- centrifuge: 6,000 rpm / 1min
- trash most supernatant
- resuspend e. coli culture (w/ leftover LB) plate - LB + Kan antibiotics
- incubate 37° overnight
Note:
Kan 50 mg/L - high copy
Kan 15 mg/L - low copy
Notes:
- If very efficient ligation / transformation with plasmid, then there will be an increased # of colonies that can survive. Therefore you should do a 2x plating (2x plates per transformation) so you can pick single colonies w/o contamination
- ∴ 2x plates per PCR tube of transformed DH5α — 25 μl / plate —gradient plating
- Akira prepares common stock of DH5α for the lab.
- Use 4μl ligation product for newly ligated plasmids. If proven highly efficient, use 1μl of product.
- 42°C incubation - use Jifeng’s ’42 Keep’ thermal cycler program
- For Amp. resistance, LB culture is not necessary
- For Amp res. plasmids, add 50-100μl of LB directly to PCR tube, then plate
- After plating, allow to dry until no excess liquid
- Culture in 37° incubator ON (16 hours max!!!) in semi open plastic bag to avoid excessive moisture loss
(8) Miniculture n (number of colonies you want to culture) —> n separate vials / per plate
Culture Solution Kan = 50 mg/mL (stock concentration)
—> 50 mg/L final dilution / concentration
ex. 100 mL PBS + 100 μl Kan
- use pipette tip to transfer colony gently to tube (can drop expel pipette tip directly into tube to be removed after centrifugation)
- 8 hours ON at 37°C
(9) Miniprep Protocol
- ON culture
- centrifuge 5000 rpm / 10 min discard supernatant
- add 250μl P1
- resuspend pellet in P1
- transfer to 2mL Eppendorf tubes
- add 250 μl P2
- mix by inverting until solution becomes blue
- add 350 μl N3 (guanidine hydrochloride acetyl acid)
- mix immediately by inverting tubes until solution (blue) turns colorless
- centrifuge 13,000 rpm / 10 min
- label QIAprep spin columns
- transfer supernatant to QIAprep spin columns
- incubate / let stand for 1 min
- centrifuge @ 13,000 rpm / 2 min
- discard spin-through
- + 750 μl PE to column
- centrifuge @ 13,000 rpm / 2 min
- + 750 μl PE to column
- centrifuge @ 13,000 rpm / 2 min
- vacuum columns’ inner rim/ridge (do NOT vacuum membrane) remove columns
- label 1.5mL Eppendorf tubes
- places columns into 1.5mL Eppendorf tubes
- add 50 μl dH2O
- let stand 1 min
- centrifuge 1 min
- store samples at -20°C
(10) Miniprep Sample Sequencing
Sequencing reaction
- 2 Kb plasmid
requires ~100 ng [ ] per tube
- _____ ng/μl [ ]
ex. 170 ng/μl [ ]
0.7μl sample
4.3μl H2O
- for multiple samples around 170ng/μl [ ], use 4.3μl H2O and then add appropriate concentration of sample to sequencing PCR tube
- M13_F primer
- max read length
- check sequences for gRNA inserts
(11) Plasmid gRNA PCR Amplification
Mix 0.2μl sample
0.3μl For
0.3μl Rev
25μl Phusion MasterMix (with NTs and Taq) *** 24.2μl ddH2O
—————————
50 μl total vol
- 2x Phusion 9c ‘MasterMix’ (Thermo) #F-532
Master Mix
- (n + 0.5) x each component
- use pipette tips with filters
- For + Rev + Phusion MM + ddH2O
- label sides + top of tubes (#1 - #n)
- briefly centrifuge samples + primers + Phusion (once dissolved)
- add For + Rev + Phusion MM + ddH2O into ‘MM’ tube
- pipette up and down to mix (~5x times)
- aliquot 49.8 μl of MM into each PCR tube
- add 0.2 μl sample to each tube
- put in / start thermalcycler
(12) QIAquick PCR Purification Kit
- 5 volumes Buffer PB to 1 vol PCR rxn (add directly to PCR tube)
- mix
(if orange or violet, add 10μl 3M sodium acetate and mix)
(mix should turn yellow)
- place QIAquick columns in 2mL collection tubes
- bindDNA - add sample to column
- incubate for 1 min
- centrifuge for 30-60 sec
- discard flow through + put column back in 2mL tube
- wash - add 0.75mL PE to column
- centrifuge for 30-60 sec
- discard flow-through + put column back in 2 mL tube
- centrifuge QIAquick column for 1 min in 2 mL collection tube
- vacuum rim of column (10μl tip + 1mL tip + vac system)
- centrifuge QIAquick column for 1 min in 2 mL collection tube
- place columns in RNase free 1.5mL microcentrifuge tubes (put lids on column tubes and cut the column tubes’ lids off)
- eluteDNA - add 20μl RNase free H2O to centre of column centrifuge column for 1 min
- measure concentration (nanodrop)
(13) Purified PCR product gel 1μl purified product
1μl dye
5/6 μl TBE (1x)
————————————
8/9 μl total vol
(2μl Red / 50 mL of gel solution)
(14) MEGAscript Kit (amnion / life technologies)
Prep
- prepare 70% EtOH - minimum 3mL / sample (for day 2)
- keep RNAPol on ice at all times
- thaw frozen reagents
- vortex 10x RBuffer and NTPs
- briefly centrifuge
- (NTPs should be kept on ice. 10x RB must be kept at room temp.)
Assemble Txn Rxn
Sample
Use ~500ngof Miniprep sample —> use Nanodrop concentration to calculate volume
MasterMix
Add MM components in the following order: H2O, NTPs, 10x BF, enzyme mix, MPI T7
(n = number of samples + 0.5)
n x 2μl ATP
n x 2μl CTP
n x 2μl GTP
n x 2μl UTP
n x 2μl 10x Buffer
n x ___μl H2O
n x 0.5μl MPIT7 (separate - Max Planck purified T7 enzyme)
n x 2μl Enzyme Mix
___μl MasterMix + ___μl sample = 20μl
- add sample volume directly to PCR tubes
- add MasterMix to samples
- mix thoroughly
- incubate in thermalcycler, 37°C, overnight (max 16 hrs.)
Day 2
TURBO DNase
- add 1μl TURBO DNase
- mix well
- incubate further 15 min at 37°C
- label RNase free 1.5mL microcentrifuge (μc)tubes
RNA Recovery - LiCl Precipitation
precipitate RNA
- add 30μl RNase free H2O
- add 30μl LiCl precipitation solution
(preferred method: add LiCl to newly labeled 1.5mL μc tubes, add 30μl H2O to samples, transfer H2O + samples (50μl) to the μC tubes with LiCl) *mix thoroughly
- chill >30 min at -20°C
- centrifuge: 4°C, max speed, 15 min
- CAREFULLY remove supernatant
- wash pellet with 1mL 70% EtOH
- centrifuge: 4°C, max speed, 15 min
- wash pellet with 1mL 70% EtOH
- centrifuge: 4°C, max speed, 15 min
- wash pellet with 750μl 70% EtOH (lower vol. allows for easier removal of final wash) (3x total washes - centrifuge between each wash)
- centrifuge: 4°C, max speed, 15 min
- carefully remove EtOH
- air dry 5-10 min
- resuspend RNA in~50μl RNase free H2O (Variable volume. If some pellets are smaller, use less H2O.) (make very sure pellet is fully resuspended - tricky because appears clear)
- determine concentration using Nanodrop (remember to use RNA detection)
- store at -80°C
(15) gRNA - Cas9 complex formation
Injection / electroporation complex
10-20μg protein (from prep 5 μg/μl)
5μg each gRNA (concentration dependent)
0.9 μg 10x Cas9 Buffer
__ μl H2O
———————————
10 μl final volume
- Microinjection (single cell stage complex)
5μg protein (around 1 μl - from prep 5μg/μl)
4 μg gRNA ([] dependent)
0.9μl 10x Cas9 Buffer
__μl Hzo
1 μl Fastgreen
———————————
10μl final volume
- Add in seq.
- H2O
- Buffer
- gRNA
- Protein
- aliquot 5 ———————————l into 2x 1.5 mL PCR tubes (hyper sterile)
- incubate at room temp for 5 min.
- store at -80°C