Team:UT-Tokyo/Data/Method
From 2011.igem.org
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<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:iGEM parts / ligation products | :iGEM parts / ligation products | ||
→ always on ice! Melt on ice! Mix DNA as soon as cells melt! | → always on ice! Melt on ice! Mix DNA as soon as cells melt! | ||
- | + | ===Protocol=== | |
to thaw out igem parts | to thaw out igem parts | ||
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</html> | </html> | ||
- | + | =Dual luciferase assay= | |
- | + | ||
- | + | ||
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:Dual-GloR Luciferase Assay System (Promega) | :Dual-GloR Luciferase Assay System (Promega) | ||
Line 64: | Line 62: | ||
:Luminescence vial | :Luminescence vial | ||
- | + | ===Protocol=== | |
:#Centrifuge the incubative tube at 3,000g for 15 min with soft brake. | :#Centrifuge the incubative tube at 3,000g for 15 min with soft brake. | ||
:#Decant supernatant, wash with 1 ml PBS | :#Decant supernatant, wash with 1 ml PBS | ||
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:#Calculate the ratio of luminescence from the experimental reporter to luminescence from the control reporter. | :#Calculate the ratio of luminescence from the experimental reporter to luminescence from the control reporter. | ||
- | + | ===Notes=== | |
: | : | ||
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- | + | =Cell diffsion assay= | |
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:0.25% agar LB plate (0, 1, 10, 40 or 100uM IPTG) | :0.25% agar LB plate (0, 1, 10, 40 or 100uM IPTG) | ||
- | + | ===Protocol=== | |
:#Pick single colony(<html><a href ="#chez">cheZ-</a></html>, cheZ<sup>res</sup> or cheZ<sup>rep</sup>) using a pipetman with sterile tip. | :#Pick single colony(<html><a href ="#chez">cheZ-</a></html>, cheZ<sup>res</sup> or cheZ<sup>rep</sup>) using a pipetman with sterile tip. | ||
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:#Exposure the plates every 24 hours. | :#Exposure the plates every 24 hours. | ||
- | + | ===Notes=== | |
:0.25% agar plate is fragile. You should keep it horizontal. | :0.25% agar plate is fragile. You should keep it horizontal. | ||
<!-- これは discussion へ→:Incubation at 37 °C can result in not obvious data due to fast growth of <i>E.coli.</I> --> | <!-- これは discussion へ→:Incubation at 37 °C can result in not obvious data due to fast growth of <i>E.coli.</I> --> | ||
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</html> | </html> | ||
- | + | = L-aspartate chemotaxis assay= | |
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:0.25% agar LB plate | :0.25% agar LB plate | ||
:10mM L-Asp solution | :10mM L-Asp solution | ||
- | + | ===Protocol=== | |
:#Pick <html><a href ="#JM109">JM109</a></html> single colony using a pipetman with sterile tip. | :#Pick <html><a href ="#JM109">JM109</a></html> single colony using a pipetman with sterile tip. | ||
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:#Exposure the plates after inoculating at room temperature for more 20 hours. | :#Exposure the plates after inoculating at room temperature for more 20 hours. | ||
- | + | ===Notes=== | |
:0.25% agar plate is fragile. You should keep it horizontal. | :0.25% agar plate is fragile. You should keep it horizontal. | ||
<!-- これは discussion へ→:Incubation at 37 °C can result in not obvious data due to fast growth of <i>E.coli.</I> --> | <!-- これは discussion へ→:Incubation at 37 °C can result in not obvious data due to fast growth of <i>E.coli.</I> --> | ||
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</html> | </html> | ||
- | + | =SOS response preparation= | |
- | + | =Assembly parts= | |
- | + | ==Digest== | |
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:Plasmid | :Plasmid | ||
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:Emzyme (EcoR I, Xba I, Spe I, Pst I) | :Emzyme (EcoR I, Xba I, Spe I, Pst I) | ||
- | + | ===Protocol=== | |
:# Add plasmid (≦ 2000ng total) | :# Add plasmid (≦ 2000ng total) | ||
Line 159: | Line 157: | ||
- | + | ===Notes=== | |
:H buffer for E, P, ES, SP and EP cut. | :H buffer for E, P, ES, SP and EP cut. | ||
:M buffer for X, S, EX and XP cut. | :M buffer for X, S, EX and XP cut. | ||
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</html> | </html> | ||
- | + | ==Ligation== | |
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:Vector DNA | :Vector DNA | ||
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:2x Ligation Mix (from Ligation Convenience Kit by Nippon Gene) | :2x Ligation Mix (from Ligation Convenience Kit by Nippon Gene) | ||
- | + | ===Protocol=== | |
:#Make reaction liquid | :#Make reaction liquid | ||
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:#Incubation at 16 °C for 15~30 minutes. | :#Incubation at 16 °C for 15~30 minutes. | ||
- | + | ===Notes=== | |
:Vector DNA : Insert DNA (molar ratio) = 1 : 1~1.5 | :Vector DNA : Insert DNA (molar ratio) = 1 : 1~1.5 | ||
:DNA is about 25ng total | :DNA is about 25ng total | ||
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</html> | </html> | ||
- | + | =Transformation= | |
- | + | ==Making Competent <i>E. coli</i> cell== | |
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:LB broth | :LB broth | ||
Line 207: | Line 205: | ||
:DMSO | :DMSO | ||
- | + | ===Protocol=== | |
:#Shaking culture in 2mL LB broth from frozen stock (37 °C O.N.) | :#Shaking culture in 2mL LB broth from frozen stock (37 °C O.N.) | ||
Line 224: | Line 222: | ||
- | + | ===Notes=== | |
</div> | </div> | ||
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<div class="sub-panel"><a id="toggle"><span class="shText">Hide</span></a></div> | <div class="sub-panel"><a id="toggle"><span class="shText">Hide</span></a></div> | ||
</html> | </html> | ||
- | + | ==Transformation of <i>E. coli</i>== | |
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:iGEM parts / ligation products | :iGEM parts / ligation products | ||
:SOC or LB (No antibiotic) 500μL | :SOC or LB (No antibiotic) 500μL | ||
Line 241: | Line 239: | ||
:competent cells | :competent cells | ||
→ always on ice! Melt on ice! Mix DNA as soon as cells melt! | → always on ice! Melt on ice! Mix DNA as soon as cells melt! | ||
- | + | ===Protocol=== | |
to thaw out igem parts | to thaw out igem parts | ||
Line 260: | Line 258: | ||
</html> | </html> | ||
- | + | =Purification of DNA= | |
- | + | ==Miniprep== | |
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:kit of Promega (SVMinipreps) | :kit of Promega (SVMinipreps) | ||
:incubative tube | :incubative tube | ||
:1.5ml epp tube | :1.5ml epp tube | ||
:MilliQ | :MilliQ | ||
- | + | ===Procedure=== | |
:#pour contents out of the incubative tube into the 1.5ml tube as you can | :#pour contents out of the incubative tube into the 1.5ml tube as you can | ||
:#centrifuge for 10min (15,000rpm) | :#centrifuge for 10min (15,000rpm) | ||
Line 301: | Line 299: | ||
</html> | </html> | ||
- | + | ==Gel extraction, PCR clean-up== | |
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:Kit of promega | :Kit of promega | ||
:Gel | :Gel | ||
- | + | ===Procedure=== | |
:#Gel Slice and PCR Product Preparation | :#Gel Slice and PCR Product Preparation | ||
:#;Dissolving the Gel Slice | :#;Dissolving the Gel Slice | ||
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:#Change the old tube to a new 1.5 ml Eppendorf, add 30ul Nuclease-Free Water, incubate at RT for 1 minutes, then centrifuge at 15,000 rpm for 1 minute. | :#Change the old tube to a new 1.5 ml Eppendorf, add 30ul Nuclease-Free Water, incubate at RT for 1 minutes, then centrifuge at 15,000 rpm for 1 minute. | ||
:#Measure concentration, label the Eppendorf. | :#Measure concentration, label the Eppendorf. | ||
- | + | ===Notes=== | |
:Percent Recovery Versus Double-Stranded DNA Fragment Size | :Percent Recovery Versus Double-Stranded DNA Fragment Size | ||
:{| | :{| | ||
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- | + | ==Ethanol precipitation for Parts shipping== | |
<div class="top-panel"> | <div class="top-panel"> | ||
- | + | ===Preparation=== | |
:100%, 70% Ethanol | :100%, 70% Ethanol | ||
:TE buffer | :TE buffer | ||
:Miniprep products | :Miniprep products | ||
- | + | ===Procedure=== | |
:#Add 2 volumes ice cold absolute ethanol to sample. | :#Add 2 volumes ice cold absolute ethanol to sample. | ||
:#Incubate 1 hr at -80°C. | :#Incubate 1 hr at -80°C. | ||
Line 363: | Line 361: | ||
:#Add 10 ul TE buffer. Vortex and spin down to resuspend. | :#Add 10 ul TE buffer. Vortex and spin down to resuspend. | ||
:#Determine the concentration by NanoDrop. | :#Determine the concentration by NanoDrop. | ||
- | + | ===Notes=== | |
:Pellets can be very small and hard to see. Make sure that you don't break invisible pellets on all steps. | :Pellets can be very small and hard to see. Make sure that you don't break invisible pellets on all steps. | ||
</div> | </div> | ||
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</html> | </html> | ||
- | + | =Analysis of DNA= | |
- | + | ==Sequencing== | |
- | + | =Reagents= | |
<div class="top-panel"> | <div class="top-panel"> | ||
<div class="float-left"> | <div class="float-left"> | ||
- | + | ==SOB broth== | |
{| | {| | ||
!align="left" style="width:200px"|reagents | !align="left" style="width:200px"|reagents | ||
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- | + | ==20× M9 medium== | |
{| | {| | ||
!align="left" style="width:200px"|reagents | !align="left" style="width:200px"|reagents | ||
Line 491: | Line 489: | ||
<div class="float-right"> | <div class="float-right"> | ||
- | + | ==LB broth== | |
{| | {| | ||
!align="left" style="width:200px"|reagents | !align="left" style="width:200px"|reagents | ||
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<br> | <br> | ||
- | + | ==50× TAE== | |
{| | {| | ||
!align="left" style="width:200px"|reagents | !align="left" style="width:200px"|reagents | ||
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<br> | <br> | ||
<br> | <br> | ||
- | + | ==TB== | |
{| | {| | ||
!align="left" style="width:200px"|reagents | !align="left" style="width:200px"|reagents | ||
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- | + | =Strains= | |
<div class="top-panel"> | <div class="top-panel"> | ||
<html><a name = "JM109"></a></html> | <html><a name = "JM109"></a></html> | ||
- | + | ==<span class="under">JM109 (Takara Bio INC.)</span>== | |
*Genotype: | *Genotype: | ||
:''recA1, endA1, gyrA96, thi-1, hsdR17(rK-mk+), e14–(mcrA–), supE44, relA1, Δ(lac-proAB)/F' [traD36, proAB+, lac Iq, lacZΔM15]'' | :''recA1, endA1, gyrA96, thi-1, hsdR17(rK-mk+), e14–(mcrA–), supE44, relA1, Δ(lac-proAB)/F' [traD36, proAB+, lac Iq, lacZΔM15]'' | ||
- | + | ==<span class="under">BL21(DE3)</span>== | |
*Genotype: | *Genotype: | ||
:F- ''ompT hsdSB (rB-mB-) gal dcm (DE3)'' | :F- ''ompT hsdSB (rB-mB-) gal dcm (DE3)'' | ||
- | + | ==<span class="under">ccdB survival (invitrogen)</span>== | |
*Genotype: | *Genotype: | ||
:F- ''mcrA Δ(mrr-hsdRMS-mcrBC) Φ80lacZΔM15 ΔlacX74 recA1 araΔ139 Δ(ara-leu)7697 galU galK rpsL (StrR) endA1 nupG fhuA::IS2'' | :F- ''mcrA Δ(mrr-hsdRMS-mcrBC) Φ80lacZΔM15 ΔlacX74 recA1 araΔ139 Δ(ara-leu)7697 galU galK rpsL (StrR) endA1 nupG fhuA::IS2'' | ||
<html><a name = "chez"></a></html> | <html><a name = "chez"></a></html> | ||
- | + | ==<span class="under">JW 1970 (cheZ-)</span>== | |
derived from K12 BW25113 | derived from K12 BW25113 | ||
*Genotype | *Genotype | ||
Line 609: | Line 607: | ||
:details available at http://ecoli.aist-nara.ac.jp/GB6/info.jsp?id=JW1870 | :details available at http://ecoli.aist-nara.ac.jp/GB6/info.jsp?id=JW1870 | ||
- | + | ==<span class="under">DH5α (invitrogen)</span>== | |
*Genotype: | *Genotype: | ||
:F- ''φ80lacZΔM15 Δ(lacZYA-argF)U169 recA1 endA1 hsdR17(rk-, mk+) phoA supE44 λ-thi-1 gyrA96 relA1 tonA'' | :F- ''φ80lacZΔM15 Δ(lacZYA-argF)U169 recA1 endA1 hsdR17(rk-, mk+) phoA supE44 λ-thi-1 gyrA96 relA1 tonA'' | ||
- | + | ==<span class="under">CJ236 (Takara Bio INC.)</span>== | |
*Genotype: | *Genotype: | ||
:dut1, ung1, thi-1, relA1/pCJ105(F' camr) | :dut1, ung1, thi-1, relA1/pCJ105(F' camr) | ||
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<div class="sub-panel"><a id="toggle"><span class="shText">Hide</span></a></div> | <div class="sub-panel"><a id="toggle"><span class="shText">Hide</span></a></div> | ||
</html> | </html> | ||
- | |||
- | |||
{{:Team:UT-Tokyo/Templates/EndContent}} | {{:Team:UT-Tokyo/Templates/EndContent}} |
Revision as of 14:15, 4 October 2011
Method
iGEM UT-Tokyo
Dual luciferase assay
Preparation
- Dual-GloR Luciferase Assay System (Promega)
- Transfer the contents of one bottle of Dual-GloR Luciferase Buffer to one bottle of Dual-GloR Luciferase Substrate to make Dual-GloR Luciferase Reagent.
- Calculate the amount of Dual-GloR Stop & GloR Reagent needed for the experiment. Using a new container, dilute the Dual-GloR Stop & GloR Substrate 1:100 into Dual-GloR Stop & GloR Buffer to make the needed volume of Dual-GloR Stop & GloR Reagent.
- PBS
- Luminescence vial
Protocol
- Centrifuge the incubative tube at 3,000g for 15 min with soft brake.
- Decant supernatant, wash with 1 ml PBS
- Centrifuge at 3,000g for 5 min with soft brake.
- Decant supernatant, add 100 ul cell lysis buffer.
- Remove lysate 10-50 ul to the vial.
- Add a volume of Dual-Glo® Reagent equal to the volume of cell lysate.
- Wait at least 5 minutes to allow for chemiluminescence to become stable, then measure the firefly luminescence in a uminometer.
- Add a volume of Dual-Glo® Stop & Glo® Reagent equal to the original culture medium volume.
- Wait at least 5 minutes, then measure Renilla luminescence
- Calculate the ratio of luminescence from the experimental reporter to luminescence from the control reporter.
Notes
Cell diffsion assay
Preparation
- 0.25% agar LB plate (0, 1, 10, 40 or 100uM IPTG)
Protocol
- Pick single colony(cheZ-, cheZres or cheZrep) using a pipetman with sterile tip.
- cheZres is the cheZ- transformed by lacP-RBS-CheZ-d.Ter.
- cheZrep is the cheZ- transformed by cIP-RBS-CheZ-d.Ter-lacP-RBS-cI Represser-d.Ter.
- Inoculate tip with colony into 0.25% agar plates (0, 1, 10, 40 or 100uM IPTG).
- Incubate at room temperature (25°C).
- Exposure the plates every 24 hours.
- Pick single colony(cheZ-, cheZres or cheZrep) using a pipetman with sterile tip.
Notes
- 0.25% agar plate is fragile. You should keep it horizontal.
L-aspartate chemotaxis assay
Preparation
- 0.25% agar LB plate
- 10mM L-Asp solution
Protocol
- Pick JM109 single colony using a pipetman with sterile tip.
- Inoculate tip with the colony into the point that is 25mm distant from the center of 0.25% agar LB plate.
- Incubate at room temperature (25°C) for 45 hours.
- Trickle 40µL of 10mM L-Asp solution in its center(Asp+) or 40µL of MilliQ(Asp-).
- Exposure the plates after inoculating at room temperature for more 20 hours.
Notes
- 0.25% agar plate is fragile. You should keep it horizontal.
SOS response preparation
Assembly parts
Digest
Preparation
- Plasmid
- 10x buffer (H or M)
- 0.1% BSA
- Emzyme (EcoR I, Xba I, Spe I, Pst I)
Protocol
- Add plasmid (≦ 2000ng total)
- MilliQ up to 30uL
- 3uL 10x H or M buffer
- 3uL 0.1% BSA
- 0.5uL emzyme I
- 0.5uL emzyme II
- Incubation at 37 °C for more than one hour.
- Add plasmid (≦ 2000ng total)
Notes
- H buffer for E, P, ES, SP and EP cut.
- M buffer for X, S, EX and XP cut.
Ligation
Preparation
- Vector DNA
- Insert DNA
- 2x Ligation Mix (from Ligation Convenience Kit by Nippon Gene)
Protocol
- Make reaction liquid
- MilliQ up to 20uL
- 10uL 2x Ligation Mix
- Vector DNA
- Insert DNA
- Incubation at 16 °C for 15~30 minutes.
- Make reaction liquid
Notes
- Vector DNA : Insert DNA (molar ratio) = 1 : 1~1.5
- DNA is about 25ng total
Transformation
Making Competent E. coli cell
Preparation
- LB broth
- SOB broth
- Mg sol.
- TB
- DMSO
Protocol
- Shaking culture in 2mL LB broth from frozen stock (37 °C O.N.)
- Add 1.0mL O.N. cuture to 80mL SOB broth(+0.8mL Mg sol.)
- Culture until OD600 is 0.3~0.5 (37 ° for about 2 hours or 20 ° for about 6 hours).
- On ice for 10 min.
- Split into two of 50mL tubes and centrifuge for 5 min (4 °C 4000G).
- Remove supernatant.
- Suspend in TB(10 mL / tube).
- On ice for 15 min.
- Add 200mL DMSO /tube and mix on ice.
- On ice for10~15 min.
- Bring together in a tube and mix well.
- Split into tubes (100uL/tube) and quick freezing in liquid nitrogen.
- strage at -80 °C
Notes
Transformation of E. coli
Preparation
- iGEM parts / ligation products
- SOC or LB (No antibiotic) 500μL
- TE 15μL
- plates
- ice box
- heat block(42°C)
- competent cells
→ always on ice! Melt on ice! Mix DNA as soon as cells melt!
Protocol
to thaw out igem parts
- With a pipette tip, punch a hole in the foil
- Add 15uL of TE (MilliQ),and pipetting
- Pipette 1uL of the resuspended DNA Transformation into your desired competent cells
- Hold on ice for 30 mins
- Heat shock at 42°C for 45 seconds (and on ice after it)
- Add 300uL of LBborth in each epp
- Wait for 10 mins
- Hold at 37℃ for 30 mins
- (this step can be skipped with ampicillin selection)
- Plate out
- Incubate at 37°C
Purification of DNA
Miniprep
Preparation
- kit of Promega (SVMinipreps)
- incubative tube
- 1.5ml epp tube
- MilliQ
Procedure
- pour contents out of the incubative tube into the 1.5ml tube as you can
- centrifuge for 10min (15,000rpm)
- (you can centrifuge incubative tube directly when it can endure up to 6,000g )
- throw supernatant fluid away not to damage the precipitation
- ( you should decant by using yellow tip first / remove culture medium as you can / throw waste water away in bio hazard!)
- add 250μl cell resuspension solution (red label)、suspend completely
- (incomplete suspending decreases yields / you should use epp stand like a washboard)
- add 250μl Cell lysis solution(green label)
- turn the tube upside down four times slowly not to bubble
- add 10μl Alkalin Protease Sol. (small bottle)
- turn the tube upside down four times slowly not to bubble
- wait for 5min (Be careful not to exceed 5min! colon bacillus will disintegrate too much!)
- add 350μl Neutralization Sol. (blue label)
- turn the tube upside down four times slowly not to bubble
- centrifuge for 10min (15,000rpm)
- put the supernatant fluid to column (germ’s wreckage is adhering below)
- centrifuge for 1min (15,000rpm)
- throw flow through (the liquid in the tube below) away
- add 750μl Wash Sol. to column and centrifuge for 1min (15,000rpm)
- throw flow through away, put 250μl Wash Sol. to column and centrifuge for 1min (15,000rpm)
- change the column into 1.5ml tube and centrifuge for 2min (15,000rpm)
- change the tube into new one and add 50μl MilliQ
- (use Nucleas-Free Water in the kit instead of MilliQ)
- centrifuge for 1min (15,000rpm) after waiting for 1min
- take 1 to 1.5μl and determine the concentration by NanoDrop (Don’t dilute)
- label them
Gel extraction, PCR clean-up
Preparation
- Kit of promega
- Gel
Procedure
- Gel Slice and PCR Product Preparation
- Dissolving the Gel Slice
- Cut out gel with wanted band and put it in a tube.
- Add 3 parts Mem. binding sol. to 1 part Gel volume.
- Processing PCR Amplifications
- Add an equal volume of Membrane Binding Solution to the PCR amplification.
- Shake & Incubate at 50-65 degrees C until gel is completly dissolved.
- Put in the column.
- Centrifuge at 15,000 rpm for 1 minute
- Empty collection tube and add 700 ul Mem. Wash sol, centrifuge for 1 minute.
- Empty collection tube and add 500 ul Mem. Wash sol, centrifuge for 1 minute.
- Change the column to a new 1.5 ml Eppendorf and centrifuge at 15,000 rpm for 1 minute.
- Change the old tube to a new 1.5 ml Eppendorf, add 30ul Nuclease-Free Water, incubate at RT for 1 minutes, then centrifuge at 15,000 rpm for 1 minute.
- Measure concentration, label the Eppendorf.
- Gel Slice and PCR Product Preparation
Notes
- Percent Recovery Versus Double-Stranded DNA Fragment Size
DNA Fragment Size Percent Recovery 55bp 26% 100bp 84% 1,000bp 92% 23,130bp 47%
Ethanol precipitation for Parts shipping
Preparation
- 100%, 70% Ethanol
- TE buffer
- Miniprep products
Procedure
- Add 2 volumes ice cold absolute ethanol to sample.
- Incubate 1 hr at -80°C.
- (The long incubation time is critical for small fragments)
- Centrifuge for 30 minutes at 0°C at maximum speed (generally >10000 g at least).
- Remove supernatant.
- Wash with 750-1000 ul room-temperature 95% ethanol.
- Centrifuge for 10 minutes at 4°C at maximum speed (generally >10000 g at least).
- Dry the pellet. For this you can air dry (tubes open, ~15 min).
- (Overdrying can make DNA hard to re-dissolve)
- Add 10 ul TE buffer. Vortex and spin down to resuspend.
- Determine the concentration by NanoDrop.
Notes
- Pellets can be very small and hard to see. Make sure that you don't break invisible pellets on all steps.
Analysis of DNA
Sequencing
Reagents
SOB broth
reagents | final conc. | amount |
---|---|---|
Bacto trypton | 2% | 20g |
NaCl | 0.05% | 0.5g |
Yeast extracs | 0.5% | 5g |
KCl (250mM) | 2.5mM | 10ml |
MilliQ | - | 1000ml |
Total | 1L |
Before use, add 10ml Mg sol.
- Mg sol.
reagents final conc. amount MgCl2(H2O)6 1M 20.33g MgSO4(H2O)7 1M 24.648g MilliQ - 100ml Total 100ml
20× M9 medium
reagents | final conc. | amount |
---|---|---|
Na2HPO4 | - | 6.0g |
KH2PO4 | - | 3.0g |
NaCL | - | 0.5g |
NH4Cl | - | 1.0g |
MilliQ | - | 50ml |
Total | 50ml |
After A.C. , add following reagents to 1L M9 medium
reagents final conc. amount 1M MgSO4 - 1.0ml 2M Glucose - 5.6ml 1% Thiamine - 1.0ml 1M CaCl2 - 0.1ml
LB broth
reagents | final conc. | amount |
---|---|---|
Bacto trypton | 1% | 1g |
NaCl | 0.5% | 0.5g |
Yeast extracs | 0.5% | 0.5g |
MilliQ | - | 100ml |
Total | 100ml |
50× TAE
reagents | final conc. | amount |
---|---|---|
Tris | 2M | 242g |
CH3COOH | 1M | 57.1mL |
EDTA (0.5M, pH=8.0) | 0.05M | 100ml |
MilliQ | - | 1000ml |
Total | 1L |
TB
reagents | final conc. | amount |
---|---|---|
KOH 500mM sol. | 250mM | 242g |
PIPES 500mM sol. | 10mM | 2ml |
CaCl2 750mM sol. | 15mM | 2ml |
KCl 2.5M sol. | 250mM | 10ml |
MnCl2 550mM sol. | 55mM | 10ml |
MilliQ | - | 100ml |
Total | 100ml |
Strains
JM109 (Takara Bio INC.)
- Genotype:
- recA1, endA1, gyrA96, thi-1, hsdR17(rK-mk+), e14–(mcrA–), supE44, relA1, Δ(lac-proAB)/F' [traD36, proAB+, lac Iq, lacZΔM15]
BL21(DE3)
- Genotype:
- F- ompT hsdSB (rB-mB-) gal dcm (DE3)
ccdB survival (invitrogen)
- Genotype:
- F- mcrA Δ(mrr-hsdRMS-mcrBC) Φ80lacZΔM15 ΔlacX74 recA1 araΔ139 Δ(ara-leu)7697 galU galK rpsL (StrR) endA1 nupG fhuA::IS2
JW 1970 (cheZ-)
derived from K12 BW25113
- Genotype
- (araD-araB)567, lacZ4787(::rrnB-3), lambda-, rph-1, (rhaD-rhaB)568, hsdR514
- details available at http://ecoli.aist-nara.ac.jp/GB6/info.jsp?id=JW1870
DH5α (invitrogen)
- Genotype:
- F- φ80lacZΔM15 Δ(lacZYA-argF)U169 recA1 endA1 hsdR17(rk-, mk+) phoA supE44 λ-thi-1 gyrA96 relA1 tonA
CJ236 (Takara Bio INC.)
- Genotype:
- dut1, ung1, thi-1, relA1/pCJ105(F' camr)