Team:Cambridge/Voltage/Lab Work

From 2008.igem.org

(Difference between revisions)
 
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-Designed primers for extraction of Kdp Operon from E.coli and Glu Gated channel gene from V.harveyi
-Designed primers for extraction of Kdp Operon from E.coli and Glu Gated channel gene from V.harveyi
-
-[[Meeting with Julia Davies]]
+
-Meeting with Julia Davies
 +
 
 +
-Discussed feasibility
 +
 
 +
-Osmotic problems with ion sequestration, possible solution - "inert" sugars such as sorbitol and manitol
 +
 
 +
-Glutamate/glutamine specificity problems, may need glutamine- as well as glutamate-free growth medium
 +
 
 +
-Need to test efficacy of voltage creation over range of osmolarities, use flame photometer to plot total K<sup>+</sup> as f<sup>n</sup> of growth curve
 +
 
 +
-Discussed Kch<sup>-</sup> mutants, generally benign
 +
 
 +
-Potential PD measurement methods: high resistance input voltmeter to minimise noise, glass capillary microelectrode, oxygen electrode
 +
 
 +
-Measurement issue of cells acting as charged particles, neutralising charge around electrode
-Decided on oxygen electrode for small voltage change measurements
-Decided on oxygen electrode for small voltage change measurements
 +
-Extracted BioBricks from registry to use in plasmids:
-Extracted BioBricks from registry to use in plasmids:

Latest revision as of 23:31, 29 October 2008

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15th July

Conference in Edinburgh

Meet with the other UK iGEM teams.



16th July

Conference in Edinburgh

Presentation of projects to the other teams and to the attendees of the SynBioStandards network meeting.



17th July

Progress

-Ordered mutant E.coli chassis to test: Kch-, KdpD-, KdpE-, KdpF-E-

-Designed two plasmids:

-Sourced V.harveyi BB170 culture to obtain glutamate-gated potassium channel gene

-Modelled protein structure

-Designed primers for extraction of Kdp Operon from E.coli and Glu Gated channel gene from V.harveyi

-Meeting with Julia Davies

-Discussed feasibility

-Osmotic problems with ion sequestration, possible solution - "inert" sugars such as sorbitol and manitol

-Glutamate/glutamine specificity problems, may need glutamine- as well as glutamate-free growth medium

-Need to test efficacy of voltage creation over range of osmolarities, use flame photometer to plot total K+ as fn of growth curve

-Discussed Kch- mutants, generally benign

-Potential PD measurement methods: high resistance input voltmeter to minimise noise, glass capillary microelectrode, oxygen electrode

-Measurement issue of cells acting as charged particles, neutralising charge around electrode

-Decided on oxygen electrode for small voltage change measurements


-Extracted BioBricks from registry to use in plasmids:

  • Promoter BBa_J23100
  • RBS BBa_B0030
  • Terminators BBa_B1002 and BBa_B1006



18th July

Wet Work

There was no growth on the plates spread yesterday. There has been a few adjustments to the protocol.

Biobrick Extraction

Class Registry Part Kit Location Tube Label
Promoter BBa_J23100 2008 1002-10E F
RBS BBa_B0030 2008 1002-5G G
Stop BBa_B1002 2008 1016-8A H
Stop BBa_B1006 2008 1016-8D I
Promoter BBa_J23113 2008 1002-12B J
Promoter BBa_J23114 2008 1002-12C K
Control pUC19 L


Bigger, better, faster, stronger

We found we could not extract enough DNA from the registry, so we are upgrading the extraction to the "bigger, better, faster, stronger" method.

Warm 50μL of EB in Eppendorf tubes at 50°C and add 4 punched spots. Keep it warming at 50°C for 20mins and spin down for 3 minutes at 15,000 g. Warm agin for 10mins and spin down again for 3mins. Pipette off the liquid which should have the DNA in. We then confirmed with PCR.


Each sample except the control was then put through 34 cycles of PCR. The following were added to eppendorf tubes:

5μL of DNA in EB buffer

2.5μL of each primer for Biobrick vectors

25μL of Finnzymes mastermix

15μL of sterile distilled water

And all 50μL were then run through the PCR reaction and 17μL of product run on an E-Gel with 3μL dye.

The results gave large amounts of DNA in each lane for all Biobricks except F. The original extracts of G,H,I,J,K and L were then used for the following transformations.

To chilled tubes add 5μL of DNA + EB solution to 5μL of Cells ( Chemically competent Top 10 )


Ice for 30 minutes Heat shock at 42°C for 60 seconds Ice for 2 minutes Add 500μL of SOC Incubate at 37°C overnight


Prepare Agar plates : Add 200μL of Amp (100mg/mL) into 200mL of LA ( Final conc. of 100μg/mL ) and add 100μL of Amp (100mg/mL) into 200mL of LA ( Final conc. of 50μg/mL ) Plate neat samples of G,H,I,J,K,L onto both types of plate and incubate overnight.



21st July

Wet Work

Aims for Today

The results of yesterday's modified protocol still yielded no growth on the plates. Using yesterday's PCR product our aims were:

  • Cut promoters with spe1
  • Cut RBS with Xba1
  • Ligate these together and perform further PCR amplification of linear fragments.


  • Cut first 'stop' with spe1
  • Cut second 'stop with xba1
  • Ligate these together and perform further PCR amplification of linear fragments.


  • Finally, put all the above elements into a vector plasmid.


  • End of day: Aims completed

Length

  • Promoter = 35 bases
  • RBS = 16 bases
  • Stop (B1002) = 35 bases and Stop (B1006) = 39 bases



22nd July

Wet Work

  • Inoculated 10mL LB with E.coli strain MG1655
  • Inoculated 10mL LB with E.coli strain TOP10 transformed with BioBrick J5311

16 LA plates were poured with 8 having 25μg/mL Kanamycin, ready for mutant strains to be grown on.

The gel extracts from the ligation of primer and rbs were extracted using Zymoclean gel extraction kit. Hopefully these now contain linear DNA of BBa_J23113 and BBa_B0030, and BBa_J23114 and BBa_B0030.

BioBricks J45996, J45995 and J45250 were also extracted from the registry, using the "bigger, better, faster, stronger, method", in order to provide template to extracted the OsmY promoter.



23rd July

Wet Work

  • Recovered Biobrick plasmid YFP from previous culture.
    • 1.6 ml of cells according to Zippy Plasmid Miniprep Kit protocol (60μL Elution Buffer used)
  • Added 20ml LB to 10ml innoculation of E Coli MG1655 (see 22/07/08) to increase volume in preparation for experiments tomorrow on K+ tolerance in media.



24th July

Double Terminator

The double terminator was made from BBa_B1006 and BBa_B1002, combined together.

First the two Biobricks were cut using the fast digest enzymes, at either Xba or Spe. They were then run on an agarose gel, cut out and extracted, using Zymoclean gel extraction. The 2006 was not cut succesfully with Spe, so was not extracted. The samples were then ligated, using fast ligation, such that 1002-1002 and 1002-1006 were hopefully produced. This was done by combining the 1002 cut with Spe with the 1002 cut with Xba and the 1006 cut with Xba. These were then run on an agarose gel and cut out, then frozen overnight.



25th July

Double Terminator

The DNA was extracted from lanes 3&4 of the gel and extracted using the Zyppy Gel Extraction kit. The extracted DNA was then PCRed using 34 cycles, and then 10μL was frozen at -20°C. 8μL of the PCR product was cut with both EcoR1 and Pst1, as was 5μL of the death plasmid, PSB4C5, using the fast digest protocol. The gene was then ligated into the plasmid backbone, using the fast ligation kit, from Finnzymes.

500μL of normal TOP10 cells were made competent, and then transformed with the 4μL of the new plasmid, and grown on chloramphenicol overnight. 1μL of Puc19 was used as a control.

K+ assay for E.coli

Solutions of potassium chlotide were made up from 0mM to 500mM. 100μL of cells, 100μL of 10x KCl solution and 800μL of SDW were mixed and the OD600 measured every 30 mins, after agitation to ensure homogenaity. After 4 hours 800μL of the cell solution were spun down and resuspended in 1mL SDW, lysed using the freeze-thaw method, and the K+ concentration measured using the Flame Photometer.



28th July

The flame photometer was also calibrated using μM concentrations of potassium.


The mutants were streaked out from the innoculation discs onto both kanamycin and non antibiotic plates for the resistant strains, and just onto the normal plates for non-resistant strains. They were then incubated overnight at 37°C.

Mutant Plates



29th July

  • Mutant E.coli strains had grown on plates.
  • Transferred mutants to liquid culture.
  • Primers arrived! Prepped as described in Protocols page
  • PCR started with OsmY (from Biobrick plasmids) and KDP (from E. Coli MG1655 Cell Culture)
  • E-Gel (SYBR) to confirm OsmY
  • E-Gel (EtBr) to confirm Kdp and OsmY
Gel showing KDP (2 thick bands on the left and OsmY (dimmer bands to the right)



30th July

Competence test

  • Transformed PUK plasmid and YFP plasmid into mutant E.coli strains.

osmY and Kdp

  • digested PCR products, and death gene vector with EcoR1 and Pst1
  • ligated new BioBricks into vector
  • Transformed into competent TOP10 cells
  • Plate out onto Chloramphenicol plates



31st July

Mutants

  • Mutant strains were grown in different potassium levels: 1mM, 50mM and 200mM.
  • Growth curves were plotted, using OD600 readings every 30 minutes for 3 hours.

Kdp

  • Ligated Kdp into death vector PSB4C5 again.
  • More PCR of gene from MG1655.

OsmY

  • TOP10 containing osmY-containing plasmid were grown in LB.



1st August

Mutants

  • The OD600 of the mutants grown in different K+ concentrations was taken again.


osmY

  • Plasmid mini prep was done.
  • Gel was run, showing clear band at around 450bp, indicating osmY with BioBrick primer prefix and suffix.
  • Glycerol stocks were made of the TOP10 cultures with the osmY-containing plasmid.
  • More LB was added to the TOP10 cultures and they were put in the incubator.

Plasmid

  • PSB4C5 was extracted from DB31, into 100μl SDW - final conc. 106.5ng/μl.



4th August

Biobricks

  • The liagtion reaction from last week was drop dialised and then 5μL used to transform highly competent TOP10, before plating on chloramphenicol plates.
  • The Biobrick combination of promoter-RBS were then cut with Pst1 and EcoR1 and ligated into pSB4C5 and then transformed into TOP10 and incubated overnight at room temperature in 600μL SOC.



5th August

Kdp?

  • There were transformants from yesterday's transformation
James celebrates apparent success
  • After Biobrick PCR the gel showed short fragments, suggesting self ligation of the vector.
Ellis realises the sad truth
  • Repeated digest and ligation protocol from the weekend, with EcoR1 and Pst1 instead of Xba1 and Spe.


Biobricks

  • Extracted two GFP-only sequences (J04630 and I714062) from the registry, for use as reporters for osmY.
  • PCR on these and the RBS B0030. Ran E-gel to check PCR.
  • Cut osmY plasmid with Spe, and RBS B0030 with Xba, and ligated the two.
  • Transformed cells with this construct. Then realised this was silly.



6th August

Kdp?

  • Transformants!
  • But... PCR showed that none contained the Kdp insert.
  • Gelled cut vector and extracted backbone band to use for ligation.
  • Ligated Kdp gene into backbone and transformed cells. Again.

Mutants

  • Grew up 5 mutants in LB, 1mM, 50mM and 200mM KCl.



7th August

Flame Photometry

  • Various concentrations of KCl were made up in LB to calibrate for LB instead of water.
  • Took OD600 readings of mutants grown in KCl concentrations in shaking incubator overnight
  • They were then spun down, resuspended in SDW and spun again to wash, then resuspended.
  • The resuspended cells were put through the flame photometer to discern internal cell K+ concentration.
  • The supernatant K+ concentration was also measured.

Kdp

  • Ran ligation mixtures on agarose gel and extracted 8kb (supercoiled plasmid) bands.
  • Transformed cells with cleaned up plasmid.

Mutants

8th August

Kdp?

  • Plates from yesterday showed no transformants. Others having difficulty with transformation too.
  • Made up new Ampicillin stock and got new SOC and CaCl2 to try control (PUC) transformation in TOP10 next week.

Mutants

  • Grew up 5 mutant strains in 5 different KCl concentrations in LB:
Strain and Mutation KCl conc (mM) OD Reading
BW25113 10
20
50
100
200
BW30166 10
20
50
100
200
JW0045 10
20
50
100
200
JW1242 10
20
50
100
200
JW3314 10
20
50
100
200



11th August

Kdp?

  • PCR colonies on plates - no insert seen.
  • Transform overweekend ligation.

OsmY and RBS

  • PCR B0030 and restrict 10μL with Xba.
  • Plasmid extract OsmY and restriction digest with Xba.
  • Ligate and transform cells with 5μL



12th August

Kdp

  • Again try ligation of Kdp and Vector backbone

OsmY

  • Again try ligation of OsmY and B0030 backbone
  • This time try using Xba for B0030 and ligate. Gel again and cut out linear fragment. Cut with Spe and gel - cut out circular fragment.

Make competent stocks

Chemically competent TOP10 cells were made by growing overnight in 200ml LB in a shaking incubater at 37°C. 200ml were spun down at 3800rpm for 8 mins, resuspended in 20ml CaCl2, spun down again and resuspended in 4ml CaCl2. Again they were spun down (6500 rpm for 5 mins)and resuspended in 4ml 60%glycerol, spun down and resuspended in 2ml 60%glycerol. Finally they were aliquoted (100μL) into stock tubes and flash frozen in liquid nitrogen.

Electroporation competent TOP10 and DH5α cells were made by growing overnight in 200ml LB in a shaking incubater at 37°C. 100ml were spun down at 3800rpm for 8 mins, resuspended in 25ml SDW, spun down again and resuspended in 2ml SDW. Again they were spun down (6500 rpm for 5 mins)and resuspended in 2ml 60%glycerol, spun down and resuspended in 2ml 60%glycerol. Finally they were aliquoted (100μL) into stock tubes and flash frozen in liquid nitrogen. However lost half of the DH5α when centrifuge tube broke.



13th August

Kdp

  • Same ole, same ole.

Recovering frozen cells

To recover frozen cells they were thawed on ice and spun down at6500rpm for 5mins. They were then resuspended in 100μL CaCl2. They were then transformed with 2μL pUC9 and grown on 100μg/mL Amp plates.



14th August

Kdp

  • Cut Kdp with EcoR1 and Pst1 and ran on gel.

OsmY and RBS

  • Cut with Spe and Xba respectively and ligated, using cooling ligation steps (42 - 35°C) and run on gel.



15th August

Kdp

  • Nothing worked. Again. Query gremlins? Or possible sabotage by people in 106.

MEGA Mutant Assay

  • THAT'S NUMBERWANG! (Actual Data)



16th August

Bank Holiday. Apparently no-one was quite that dedicated to come into work.



19th August

Ligation Diagnostic

  • Due to lack of kdp insert following scPCR of transformed colonies, the ligation procedure was tested, involving Kdp & Vector biobricks together and separately, dirty ligations, negative controls where buffer was added but no ligase etc.
  • Results of gel seemed inconclusive as hyperladder I ran very badly, but there seemed to be no DNA in the 'vector only lane' on both occasions.
  • Conclusion: investigate our supply of pSB4C5 vector.

Kdp

  • YPF biobrick plasmid used to provide vector backbone and a Kdp digest/ligation was attempted.



20th August

pSB4C5 & RBS

  • scPCR perfomed on 5 colonies of DB31 & TOP10 to determine whether they contain pSB4C5 and B0030 respectively.
  • Sucessful colonies grown up in LB, and pSB4C5 glycerol stocks were created.
  • Large quantities of pSB4C5 were also harvested.

Kdp

  • Electroporation of cells with the Kdp-YFP backbone.
  • This failed (Even control, Jim!)



21st August

OsmY RBS

  • B0030 harvested from LB stocks.
  • Cut OsmY with Spe1 & B0030 with Xba1
  • Attempted to ligate promoter and RBS sequences together again.



22nd August

Kdp & OsmY-RBS

  • Digestion/ligation & drop dialysis prior to transformation into TOP10.




26th August

=Kdp screening

  • Many transformant colonies were found on chloramphenicol plates.
  • Single colony PCR was perfomed over a selection of 44 colonies using forward and reverse biobrick primers in order to gauge the size of the vector insert by gel visualisation.
  • All screened colonies were negative for Kdp - concluded most likely to be blunt ended self ligation of pSB4C5 vector (without death gene).



27th August

OsmY RBS

  • Primers containing RBS for osmY Biobrick were received
  • PCR was performed from biobrick J45250
  • Ligated into dephosphorylated vector backbone
  • Colonies transformed

Restriction Digest & Ligation Test

  • Various combinations of restriction digests & T4 phage genome ligation test.
  • All results positive :-)



29th August

GluR0

  • We received our synthesised plasmid from DNA 2.0 today!
  • Transformed into TOP10.


File:Glur0.tif



2nd September

WE HAVE KDP!

  • It has successfully been ligated into the death plasmid, transformed into TOP10 and plasmid prepped.
  • The beautiful gel (note lanes 2-4 of right-hand gel, showing 7kb supercoiled plasmid):
Really Kdp.jpg



5th September

STOP

  • Transform B1002 and B1006 into TOP10



GluR0

  • Cut with E+P or E+S
  • Cut pSB4C5 with same
  • Dephosphorylate pSB4C5
  • Gel Extract, Ligate, Transform.



6th September

Ligations

  • KDP and OsmY into pSB4C5 using E+S or X+P respectively
  • Attempt to double stop with B1006 and B1002



9th September

Transformation

  • Ligations from previous day transformed into TOP10



10th September

Analysis

  • Analyse transformants

Ligation

  • Re-attempt KDP/OsmY ligation



11th September

Ligation

  • GluR0 + pSB4T5


12th September

Analysis

  • Analyse KDP, OsmY, Glur0 ligations



15th September

Plasmid Prep

  • KDP, OsmY and GluR0

Restriction Digest

  • Digested prepped plasmids and run on gel.



16th September

Ligations

  • GluR0 + pSB4T5 or pSB3T5
  • B1002 + B1006

Gel

  • B1002 + B1006 ligation product run with GluR0 unsupercoiled
    • GluR0 was lightly irradiated to induce sing strand breaks to allow it to de-supercoil and act as a 4kb template.



18th September

Applications

  • Designed standard infusion primers for biobrick assembly. Abandoned due to unfeasibly large scar sites between Biobricks, more effective to use custom designed primers for each reaction.



19th September

GluR0 Testing

  • Tested GluR0 expression cells with shiny/expensive/confusing/very, very, very old electrical equipment. Engineers left. Damn (and blast) them. The filthy varmints.
  • Initial results promising.


22nd September

PCR

  • Single colony PCR of GluR0, OsmY, KDP.
  • Results were ambiguous or negative.


23rd September

Plasmid Prep

  • Minipreps of some cells from the previous day

Gel

  • Plasmids from miniprep run on gel.
  • Results negative or ambiguous.


24th September

Restriction Digest

  • GluR0 plasmid cut (E or E+P) and run on gel.
  • Results negative

Plasmid Prep

  • KDP and some OsmY colonies. Run on gel. Best colony selected for continued work.


25th September

Plasmid Prep

  • Miniprep on best cells containing KDP, OsmY and GluR0.

Restriction Digest

  • Plasmids cut with various combinations of enzymes.
  • Run on gel, results ambiguous.


26th September

Sequencing

  • Samples PCRed and cleaned, prepared for sequencing.



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