Team:British Columbia/Notebook/Flavours
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Team Cinnamaldehyde & Vanillin
Research Designs and Methods
The goal for cloning is to place each gene in the cinnamaldehyde pathways under a constitutive pTET and arabinose promoter pBAD for future characterization of each part. Our final construct should consist of a single pSB1C3 plasmid with all the genes inserted along with its ribosomal binding site and terminator:
Primers for the PAL/TAL, Ligase, and reductase genes are designed to yield PCR products containing all biobrick cut sites in the correct order: Eco R1, Xba 1, Spe1, and PstI. These PCR products could then be digested for ligation into available plasmids containing promoters (with or without rbs) and terminators.
June 28th
Transformation of 4-coumarate-CoA Ligase (4CL) and caffeic acid-O-methyl transferase (COMT)
Experimenter: Joe
Aim: Transform biobricks 4CL ( 2013 Distribution Kit, Plate 2, Well 17P) and COMT (2013 Distribution Kit, Plate 5, Well 19D) for miniprep and later amplification through PCR
Results: Transformation done according transformation procedures. Competent cells were plated on LB+ Amp plates and grown overnight at 37C. Only 4-CL grew overnight. No colonies were observed for COMT. Inoculated a colony of 4CL for miniprep
Rhodobacter sphaeroides Inoculation
Experimenter: Joe
Aim: A colony of Rhodobacter sphaeroides was inoculated in 5mL LB culture for DNA extraction and grown at 30C
Results: Culture grew to high density after a couple days
June 30th
Miniprep 4CL
Experimenter: Joe
Aim: Miniprep 5mL innoculation of 4CL with Qiagen Miniprep Kit
July
July 4th
PCR of 4-CL
Experimenter: Joe
Aim: PCR to amplify 4-CL from biobrick with biobrick VF2 and VR primers to confirm the size of 4-CL
Results: PCR products were ran on a 0.8% agarose gel. Multiple bands were seen due to possible mispriming of VF2 and and VR.
Retransformation COMT
Experimenter: Joe
Aim: Retransformation of COMT from biobrick registry and plated on LB agar + Amp
Results: Only one colony found on plate. This could have been the competent cells not being very competent.
July 5th
Digestion of 4-CL
Experimenter: Joe
Aim: Digest 4-CL to see if 4-CL is present in the pSB1C3 plasmid with EcoRI and PstI
Results: pSB1C3 plasmid is about 2070bp while 4CL gene is about 1656 bp. Digest was successful. Two bands were observed: one at 2kb and one at 1.7kb
Re-run PCR of 4CL
Experimenter: Joe
Aim: Re-run PCR of 4CL with fresh PCR reagents
Results: PCR products were ran on 0.8% agarose gel. Mispriming seen but the brighter band is about 2kb, which is the size the PCR product of 4CL with the extensions from pSB1C3 (~1951bp)
July 6th
Genomic DNA extraction of R.sphaeroides grown on June 28th
Experimenter: Joe
Aim: Bacterial DNA extraction using QuickExtract Bacterial DNA Extraction Kit
Results: DNA extraction was done following the above kit and diluted in TE buffer
July 8th and 9th
Inoculation of COMT and miniprep
Experimenter: Joe
Aim: Inoculated one colony of COMT in 5mL LB + Amp and grew overnight for Miniprep.
Results: Miniprepped the 5mL innoculation of COMT with Qiagen Miniprep Kit and eluted with 30uL of dH2O
Received Phenylalanine ammonia lyase (PAL), 4-coumarate 3-hydroxylase (4-CMH) from iGEM HQ
Experimenter: Joe
Aim: Plated cells received form iGEM HQ. These include BBa_K801091 (Phenylalanine ammonia lyase; PAL) and BBa_K238007 (4-coumarate 3-hydroxylase; 4CM-H) which were plated on Chlor LB plates and Amp LB plates respectively.
Results: Cells grew on their respective plates and inoculated with 5mL of the LB on their respectively antibiotic. Miniprepped the 5mL inoculation of COMT with Qiagen Miniprep Kit and eluted with 30uL of dH2O
July 15th
PCR pTet (BBa_J23118) Constitutive promoter
Experimenter: Joe
Aim: PCR pTet constitutive promoter for ligation into the pSB1C3 with rbs
Results: PCR products were ran on 0.8% agarose gel. A band was seen at 1kb because RFP is attached the constitutive promoter
Transformation of Constitutive GFP
Experimenter: Joe
Aim: Transform with 2uL of Constitutive GFP (BBa_K608008, Plate 1 Well 5I and BBa_I13522, Plate 3 Well 5J) and plate on LB agar + Chlor
Results: GFP expressing colonies were observed on both plates and inoculated in 5mL LB+Chlor for an overnight culture. Overnight cultures were then miniprepped using the Qiaprep Spin miniprep kit.
Digestion of 4-CMH and PAL from pSB1C3
Experimenter: Joe
Aim: Digest 4-CMH and PAL biobrick with EcoRI and PstI to check for the correct band size
Results: Digested products were ran on a 0.8% agarose gel. Bands were seen at 1600bp for 4-CMH and 2100bp for PAL
Ligation of pTET constitutive promoter to pSB1C3 plasmid with rbs
Experimenter: Joe
Aim: Ligate pTET constitutive promoter to rbs in pSB1C3
Results: Transformation halted because the 1kb band seen was a constitutively expressed RFP. pTET constitutive promoter needs to be digested with SpeI and PstI and ligated with the insert (rbs)
July 16th
Extraction of PAL and COMT from Plasmid registry
Experimenter: Fisal
Aim: Frances and I used the PCR protocol to extract PAL and COMT form the PSB1C3 vector which was miniprepped by Joe. An annealing temperature of 60 degrees and an extension time of 45 seconds seemed appropriate. I was in the lab with Frances who has no wet Lab experience so this was also a teaching/learning opportunity.
Results: Nonspecific and weak bands were observed in a 1% agarose gel for the 4CMH and the COMT in accordance with our PCR protocol.
Extract TAL from Rhodobacter sphaeroides Using our PCR protocol
Experimenter: Fisal
Aim: PCR out the TAL gene, an annealing temperature of 67 degrees and an extension time of 2 min was chosen.
Results: PCR for TAL failed; The wrong annealing temperature was used.
July 17th
Digestion of pSB1C3 Constitutive GFP (5I)
Experimenter: Joe
Aim: Digest pSB1C3 GFP with EcoRI and SpeI, EcoRI and PstI, XbaI and SpeI, XbaI and PstI which will be the vector for future ligations into pSB1C3
Plating Streptococcus thermophilus
Experimenter: Anna
Aim: Dr. Smit's lab has a strain of Streptococcus thermophilus from his lab collectioin. The strain (strain type unknown) was plated onto YPG agar plate for colony selection. Colonies were grown at 30C for 2 days.
Result: Two morphological sets of colonies were observed on the plate. Under the microscope, one set of colonies were cocci-like and the other set of colonies were rod-shaped-like. This shows that the strain was contaminated. Only the cocci types were selected.
July 19th
PCR rbs(BBa_B0034; Plate 1 Well 2M)
Experimenter: Joe
Aim: PCR rbs (BBa_B0034) from biobrick with VF2 and VR primers
Results:PCR products were ran on a 0.8% agarose gel. A band at 300bp was observed, which included extensions of pSB1C3
PCR Streptomyces coliecolor Cinnamate: Coenzyme A Ligase (ScCCL)
Experimenter: Joe
Aim: PCR ScCCL gene from genomic DNA of Streptomyces coliecolor with ScCCL forward and reverse primers
Results:PCR failed. It is uncertain whether there is genomic DNA of Streptomyces coliecolorprovided by Dr. Thompson
PCR Rhodobacter sphaeroides Tyrosine Ammonia Lyase (TAL)
Experimenter: Joe
Aim: PCR TAL gene from genomic DNA of Rhodobacter sphaeroides with RsTAL forward and reverse primers
Results: PCR successful. PCR products were ran on 0.8% agarose gel. A band at between 1.65kb and 2.0kb was observed. RsTAL is about 1.7kb
Re-attempt the TAL PCR
Experimenter: Fisal
Aim: Change the annealing temperature to 60degrees, run several PCR reactions with varying levels of DMSO because secondary structure of genomic DNA suspected to cause problems. Different MgCl2 levels were used as well to optimize PCR.
Results: The PCR product with 6% DMSO and 0.75uL MgCl2 in a 50uL reaction had the best results.
Inoculation of Streptococcus thermophilus
Experimenter: Anna
Aim: Inoculation of a colony of Streptococcus thermophilus in 5mL YPG media and grow at 30C overnight
July 22nd
Purify and digest TAL PCR product
Experimenter: Fisal
Aim: Use the Quiagen PCR clean up kit to extract DNA., then cut TAL with EcoR1 and Pst 1. Cut the miniprepped PSB1C3 vector with EcoR1 and PST1, then and Ligate to PSB1C3 to the TAL digest after using a kit to clean up both digested products.
Results: TAL purification failed when confirmed with the nanodrop spectrophotometer. Discussion with other lab members led to the conclusion that the Quiagen kit we were using was old and the pH in the buffers was off.
July 23rd
Re-Attempt PCR COMT and PAL PCR
Experimenter: Fisal
Aim: Re-attempt COMT and PAL PCR because the tube from July 16th was lost.
Results: Successful PCR was confirmed though a 1% agarose gel and bands at 1.3kbp for COMT and 2.3 kbp
Re-attempt the TAL PCR
Experimenter: Fisal
Aim: Extract TAL from Rhodobacter sphaeroides using the same protocol that yielded success on July19th
Results: PCR was successful with expected bands at 1.5kbp
Digest TAL, COMT, and PAL PCR products
Experimenter: Fisal
Aim: Clean PCR products using the Quiagen PCR clean up kit and protocol. Cut clean DNA with PST1 and Xba1 then purify digests.
Results: Digests were run in accordance with our standard protocols, DNA was eluted in TE buffer from the Qiagen kit.
Digestion of the pTET Constitutive promoter from pSB1C3 and rbs from PCR
Experimenter: Joe
Aim: Digest pTET constitutive promoter (from pSB1C3) with XbaI and PstI and rbs (from PCR) with XbaI and PstI for ligation
Ligation of rbs (PCR insert) into pTET constitutive promoter (vector) & Ligation of constitutive promoter (PCR insert) into psB1C3 (vector)
Experimenter: Joe
Aim: Ligate pTET constitutive promoter and rbs. Ligate constitutive promoter into pSB1C3 to clone out of pSB1A3. Incubate at room temperature overnight.
Genomic DNA extraction of Streptococcus thermophilus
Experimenter: Joe
Aim: Bacterial DNA extraction using QuickExtract Bacterial DNA Extraction Kit
Results: DNA extraction was done following the above kit and diluted in TE buffer
July 24th
Transformation of Constitutive promoter and rbs ligation & Constitutive promoter into pSB1C3
Experimenter: Joe
Aim: Transform Constitutive promoter and rbs & Constitutive promoter into pSB1C3 ligations into competent cells and plate onto LB agar + Chlor
Results: Colonies were observed after 18 hours of growth at 37C.
PCR feruoyl-CoA synthetase (Fcs) gene from Pseudomonas putida genomic DNA
Experimenter: Joe
Aim: PCR Fcs gene from Pseudomonas putida
Results: PCR products were ran on 0.8% agarose gel. Multiple non-specific bands were observed.
PCR Cas9 gene from Streptococcus thermophilus genomic DNA
Experimenter: Joe
Aim: PCR Cas9 gene from Streptococcus thermophilus genomic DNA extracted
Results: PCR failed. PCR products were ran on a 0.8% agarose gel. No bands were observed except for primer dimers.
July 25th
Digestion of terminator
Experimenter: Joe
Aim: Digest terminator with EcoRI and PstI for ligation into pSB1C3 plasmid to clone out of the pSB1A3 plasmid.
DNA extraction from Danone plain yogurt for PCR
Experimenter: Joe
Aim: DNA extraction was performed using the QuickExtract Bacterial DNA Extraction kit straight from yogurt sampels which was pelleted by centrifuge following 18% sodium citrate and 1M NaOH.
Results: Extracted DNA was diluted in TE buffer.
July 26rd
PCR Cas9 gene from Streptococcus thermophilus genomic DNA extracted Danone yogurt
Experimenter: Joe
Aim: PCR Cas9 gene from Streptococcus thermophilus genomic DNA extracted from Danone yogurt
Results: PCR failed. PCR products were ran on a 0.8% agarose gel. No bands were observed except for primer dimers.
July 27th
Run PCR of TAL, COMT and PAL as a backup
Experimenter: Joe
Aim: Run TAL, COMT and PAL PCR reactions as described in entries dated july16th -22nd
Results: TAL PCR failed, the wrong primers were used. COMT and PAL succeeded with expected bands of 2.3 kbp and 1.3kbp for COMT
Colony PCR to confirm Constitutive promoter and rbs
Experimenter: Joe
Aim: Colony PCR to confirm Constitutive promoter and rbs construct in transformed cells
Results: PCR successful. PCR products were ran on 0.8% agarose gel. The correct size band was observed.
Redo PCR of fcs gene from Pseudomonas putidagenomic DNA
Experimenter: Joe
Aim: PCR fcs gene from Pseudomonas putidagenomic DNA using fcs forward and reverse primers
Results: PCR products were ran on 0.8% agarose gel. PCR failed and no products were observed on the gel.
July 28th
July 29th
Run PCR of TAL, COMT and PAL as a backup
Experimenter: Fisal
Aim: Run TAL, COMT and PAL PCR reactions as described in entries dated july16th -22nd
Results: TAL PCR failed, the wrong primers were used. COMT and PAL succeeded with expected bands of 2.3 kbp and 1.3kbp for COMT
Ligate the Digested TAL construct to PSB1C3from July 23rd, transform ligation into E.coli
Experimenter: Fisal
Aim: Using our standard Ligation protocol ligate the TAL digest into PSB1C3 which was cut by Joe with PST1 and XBa1; T4 ligase was used. Once the ligation is complete transform the product into E.coli chemically competent cells, plate, and grow overnight at 37 degrees.
Results: A 10uL ligation reaction was carried out and incubated at room temperature for 4 hours, the product was then transformed into chemically competent E.coli, plated on LB Chlor plates and incubated at 37 degrees overnight as per our transformation protocol
Digest PAL and COMT with Xba1 and Pst1
Experimenter: Fisal
Aim: Clean PAL and COMT PCR products using the Qiagen kit, then digest PAL and COMT with Xba1 and Pst1 at 37 degrees for 2 ours in accordance with our digestion/ligation protocol.
Results: Digestion was assumed to be successful, DNA eluted in TE buffer from the Qiagen kit.
Ligate PAL and COMT digested products with Arabinose inducible vectors
Experimenter: Fisal
Aim: Ligate the PAL and COMT products to the arab inducible PSB1C3 vector with T4 ligase at a 6:1 insert to vector ratio.
Results: The ligation reaction was run overnight.
July 30th
Transformation of PAL and COMT ligations
Experimenter: Fisal
Aim: Transform PAL+ arab inducible vector and COMT+arab inducible vector into Chemically competent E.coli as per our transformation protocol.
Results: Cell were transformed and plated on Chor LB plates and grown overnight at 37 degrees C.
Colony PCR of TAL ligation to PSB1C3
Experimenter: Fisal
Aim: determine if the TAL ligation worked by means of cPCR
Results: There were no colonies on the plate, a re-attempt of the TAL→ PSB1C3 ligation is planned for the 31st.
July 31st
Re-attempt Ligation of TAL and PSB1C3
Experimenter: Fisal
Aim: Repeat the experiment from July 29th in a 20uL volume using 16uL of insert and 1 uL of vector.
Results: Ligation was run over 4 hours at room temperature. Then cells were transformed as they were on July 29th.
Test cDNA from Douglas lab to determine quality
Experimenter: Fisal
Aim: Run 5 uL of ATCCR1 containing cDNA extracted from Arabidopsis thaliana by the Douglas lab on a 1% agarose gel to determine if the sample is degraded.
Results: Success, the DNA has not been significantly degraded and should be good to use.
August 2nd
Colony PCR of TAL+PSB1C3 plate
Experimenter: Fisal
Aim: Determine if the ligation of TAL to PSB1C3 was successful via Colony PCR.
Results: Since the empty PSB1C3 vector reports white when a gene has been inserted using one of the Ecor1/Xba1 cut sites and one of the Spe1 and Pst1 cutsites, a quick GFP screen demonstrated which colonies have the construct we are looking for. Five white, non-green, colonies were picked for a 50uL cPCR reaction. None of the colonies were white, thus the ligation failed.
Determine if the PAL and COMT ligation to arabinose inducible promoter PSB1C3 was successful via cPCR
Experimenter: Fisal
Aim: determine if the ligation of PAL/ COMT to Arabinose inducible PSB1C3 was successful via Colony PCR.
Results: A 50uL reaction was used and a small sample was taken from each colony per tube as per our cPCR protocol. One colony from each ligation yielded the expected bands.
August 5th
Innoculate cPCR from August 2nd
Experimenter: Fisal
Aim: Re-pick all the successful colonies from cPCR ran on August 2nd and grow cells in 5 ml of LB media containing Chlor overnight.
Results: All the culture tubes had an increased optical density the next day and the negative control showed no growth.
Re-attempt TAL transformation
Experimenter: Fisal
Aim: Re-attempt the Tal transformation from July 31st but plate a 250uL of cells rather than 150uL as there were few total colonies from the July 31st plate.
Results: Transformation carried out successfully and plate was grown overnight at 37 degrees.
August 6th
Extract DNA from E.coli growing overnight from August 5th
Experimenter: Fisal
Aim: Bacterial DNA extraction using QuickExtract Bacterial DNA Extraction Kit
Results: DNA extraction were done following the above kit and diluted in TE buffer
August 7th
Perform a DNA extraction of COMT and PAL from cell culture
Experimenter: Fisal
Aim: Using the Qiagen miniprep kit extract the COMT/PAL ligations to arabinose promoters.
Results: DNA extraction was successful and DNA was eluted in EB buffer
August 8th
Run cPCR on TAL+PSB1C3 from August 5th
Experimenter: Fisal
Aim: Confirm Ligation of TAL to PSB1C3 via GFP screen then via cPCR as described before.
Results: None of the white colonies yielded the expected bands from cPCR
Optimize TAL PCR
Experimenter: Fisal
Aim: Run several TAL PCR reactions to optimize yield, several different annealing temperatures were attempted to find the one that yields the fewest non-specfic bands the most desired product
Results: Gel electrophoresis the best annealing temperature was 58 degrees using the same master mix as outlined above.
August 9th
Colony PCR of COMT+Terminator and 4CMH+ Terminator
Experimenter: Fisal
Aim: Run a cPCR for two of jo’s constructs: COMT+Terminator and 4CMH+terminator. Conditions for the cPCR reaction were obtained from Jo.
Results: Colony PCR failed due to lack of template.
Digest PAL/COMT + Arabinose Promoter constructs
Experimenter: Fisal
Aim: Digest PAL/COMT + Arabinose Promoter constructs with Xba1 and Pst1 for 2 hours at 37 degrees. Cut the Vector containing the Terminator with Spe1 and Pst1 in parallel in the same conditions. Purify the cut constructs and ligate them together using T4.
Results: After Ligation was set up it was noticed that the wrong cut sites were used, the ligation would place the terminator before the promoter and gene of interest.
Extract ATCCR1 from Arabidopsis cDNA
Experimenter: Fisal
Aim: Extract ATCCR1 gene from Arabidopsis cDNA using custom primers, an annealing temperature of 60 degrees was chosen based on the thermodynamics of the custom primers. Three parallel PCR reactions were run at 60 degrees but with varying concentrations of DMSO and MgCl2 to optimize quality of bands as secondary structure was suspected to be a problem
Results: No bands were seen for two of the PCR reactions, a faint band was seen in the reaction containing 6% DMSO and 0.75 uL MgCl2 in a 50uL tube, the band was 1.2kbp as expected.
August 10th
Re-run Colony PCR of COMT+Terminator and 4CMH+ Terminator
Experimenter: Fisal
Aim: Run a cPCR for two of jo’s constructs: COMT+Terminator and 4CMH+terminator. Conditions for the cPCR reaction were obtained from Jo.
Results: Colony PCR failed, questions were raised about the integrity of the ligation, which will be re-attempted at a later date
Optomize ATCCR1 PCR
Experimenter: Fisal
Aim: Using the previously successful mastermix from August 9th PCR of ATCCR1 was reattempted with a higher annealing temperature (63degrees) to determine if more product could be made.
Results: PCR failed, temperature was probably too high. The next ATCCR1 PCR run will be done at a lower temperature.
Re-digest COMT/PAL and Arabinose promoter constructs
Experimenter: Fisal
Aim: Ligation of the COMT/PAL +Arab oromoter constructs to terminators failed because of incorrect placement of the COMT/PAL in the terminator plasmid; the genes were ligated in front of the terminator. The terminator will be cut wit EcoR1 and Xba1, and the PAL/COMT constructs will be cut with EcoR1 and Spe1.
Results: Digests ran for 2 hours at 37 degrees and were purified using a Qiagen PCR clean up kit, DNA was eluted in ddH20.
Digest TAL PCR product
Experimenter: Fisal
Aim: Digest TAL PCR product with Xba1 and Pst1 at 37 degrees for 2 hours in preparation for ligation into PSB1C3 plasmid.
Results: Digest was completed and cleaned according to protocol. Ligation will be done on the 12th of August.
August 12th
Run ATCCR1PCR for optimization
Experimenter: Fisal
Aim: Optimize PCR for ATTCR1 using an annealing temperature of 61 degrees and 6% DMSO as described earlier.
Results: The PCR was successful with one sting band at 1.2kbp as expected
Ligate PAL/COMT/ATCCR1 constructs to Terminator/PSB1C3
Experimenter: Fisal
Aim: Ligate the ATCCR1 construct to PSB1C3 vector; ligation should disrupt the GFP protein yielding white colonies. Digested and purified PSB1C3 was acquired from Joe. Both PAL and COMT had been demonstrated through Colony PCR to have been successfully ligated to arabinose Inducible promoters, thus ligation of these constructs to the terminator mentioned above should yield a construct that we can test expression with. A Final ligation of TAL into PSB1C3 would also be attempted.
Results: The Ligations were run at room temperature for 4 hours and were then transformed into Chemically competent cells in accordance with our transformation protocol. In addition to the ligations mentioned above ATCCR1 was also ligated into a PSB1C3 +arabinose promoter vector. As it turns out TAL has two illegal cutsites, pst1 and EcoR1, that was overlooked, some of the digests performed used EcoR1 and Pst1 thus explaining some of the difficulties encountered.
August 14th
Run Colony PCR for all ligations performed on August 12th
Experimenter: Fisal
Aim: Run colony PCR, averaging 5 -7 colonies per plate, for the following ligations: PAL-ARAB +Terminator in PSB1c3, COMT-ARAB+Terminator in PSB1C3, ATCCR1+PSB1C3, and ATCCR1+ARAB inPSB1C3.
Results: Positive results from all ligation products were observed, colonies were re picked and inoculated in 5ml LB culture
August 15th
Digest TAL PCR with Spe1 and Xba1
Experimenter: Fisal
Aim: Since Pst1 and EcoR1 are illegal cutsites within TAL we will use Spe1 and Xba1 for the cloning into the PSB1C3 vector before we remove the cut sited with SDM.
Results: Digest was successful and cleaned using the Qiagen PCR clean up kit.
Miniprep ligation products from the 14th of August
Experimenter: Fisal
Aim: Miniprep samples and prepare them for sequencing
Results: Samples were prepared and sent for sequencing.
August 19th
Experimenter: Anna Müller
Aim: Check if Fisal’s ligations were successful: TAL in PSBIC3 and TAL with arabinose promoter with colony PCR
Results: 2 colonies were picked for each. No bands were seen on the gel. Ligations were unsuccessful.
August 21st
Experimenter: Anna Müller
Aim: Ligate PAL and COMP to a constitutive promoter with RBS (.22A)
Results: After transforming, 2 colonies were picked and PCR’d (21st Aug. and 26th Aug.). The gel confirmed the presence
of both PAL (2100bp) and COMT (1001bp).
Experimenter:Anna Müller
Aim:PCR minipreped DNA to amplify the DNA for digestion.
Results:PCR product confirmed on a gel.
August 27th
Experimenter: Anna Müller
Aim: Digest PAL (cPCR product) with EcorI and Spe I so it can be ligated to the terminator.
Results: No bands were seen on the gel run. It was concluded to go back to the plate and inoculate from the colonies
that showed to contain PAL. The DNA then got cleaned up.
Experimenter: Anna Müller
Aim: Clean up COMT DNA to get it ready for the digest with Ecorl and Spe I
Results: Clean up successful.
Experrimenter: Anna Müller
Aim: PCR COMT from cleaned up DNA for digest
Results:Bands were seen on a gel.
Experimenter: Anna Müller
Aim: Digest COMT with EcorI and Spe I
Results: Digest was successful when run on the gel.
August 29th
Experimenter: Anna Müller
Aim: Prove the presence of AtCCRI in colonies plated by Fisal
Results: Two colonies were picked one of them showed to contain the wanted gene (1039bp)
Experimenter: Anna Müller
Aim: Clean up PAL DNA (with constitutive promoter)
Results: Clean up successful
Experimenter: Anna Müller
Aim: Extract PAL, 4-CMH and 4-CL gene from BioBrick plasmid
Results: For PAL (2430bp) and 4-CMH (1558bp) bands were seen on a gel. The 4-CL PCR reaction was unsuccessful.
30th August 2013
Experimenter: Anna Müller
Aim: Ligation of PAL and COMT (cut by X bal and Pst I ) to arabinose promoter
Results: will follow
Experimenter: Anna Müller
Aim: Digest of AtCCRI and 4-CMH with X bal and Pst I to then ligate to constitutive promoter and arabinose promoter
Results: will follow
Experimenter: Anna Müller
Aim: Digest PAL with EcorI and Spe I to ligate it to a terminator
Results:Successful
Experimenter:Anna Müller
Aim: Digest AtCCRI and 4-CMH with Xbal and PstI to ligate to promoter.
Results:Digest succesful
Experimenter: Anna Müller
Aim: Digest PAL with EcorI and SpeI
Results:Digest failed multiple bands when run on gel. Possible star activity of the restriction enzymes.
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Experimenter: Anna Müller
Aim: Ligation of PAL, COMT to arabinose promoter with rbs and AtCCRI, 4-CMH to arabinose and constitutive promoter.
Results:Ligations were successful -> proven on gel.
August 31st
Experimenter:Anna Mueller
Aim:Digest terminator with EcorI and Xbal, so it can be ligated to inserts cut with EcorI and SpeI.
Results:Didn't work, all attempts to ligate failed. Should gel extract nexts time.
September 1st
Experimenter:Anna Mueller
Aim: cPCR the transformed and plated ligations done on August 31st.
Results:PAL w/arab, 4-CMH w/arab, 4-CMH w/const, COMT w/arab and AtCCR1 w/arab worked out.
September 2nd
Experimenter:Anna Müller
Aim:cPCR run on a gel.
Results:Ladder was unclear gel was run again, the gel confirmed PAL w/arab, 4-CMH w/arab, 4-CMH w/const, COMT w/arab and AtCCR1 w/arab worked
Experimenter:Anna Müller
Aim:Additional cPCR of plates with PAL+ const.+term and COMT+const.+term.
Results:When run on a gel no bands were seen at the right bp lenght.
Experimenter:Anna Müller
Aim: Inoculate the colonies tat showed positive results for cPCR.
Results:Inoculated succesful.
September 3rd
Experimenter:Anna Müller
Aim:Miniprep the culture inoculated on September 2nd
Results:Miniprep succesful sufficent DNA
Experienter:Anna Müller
Aim:Digested with EcoRI and SpeI PAl w/arab, 4-CMH w/arab and 4-CMH w/const
Results:Digest didn't work properly, possibility of star activity.
Experimenter:Anna Müller
Aim:Colonies COMT w/arab, AttCRI w/arab were inoculated in LB containing cloramphenicol.
Results:Cultures grew up over night at 37°C.
September 4th
Experimenter:Anna Müller
Aim:Miniprep culture COMT w/arab, AttCRI w/arab.
Results:DNA present.
Experimenter:Anna Müller
Aim:PCR miniprep cleaned up COMT w/arab, AttCRI w/arab.
Results:PCR succesful.
Experimenter:Anna Müller
Aim:Ligation of COMT w/const, PAL w/arab and 4-CMH w/const.
Results:see September 5th.
Experimenter:Anna Müller
Aim:Transform ligation product COMT w/const, PAL w/arab and 4-CMH w/const and plate over night on chlor.
Results:Colonies grew over night.
September 5th
Aim:cPCR of colonies transformed on September 4th.
Results:When run on a gel no bands were seen at the right bp lenght-> go backt to ligation.
Experimenter:Anna Müller
Aim:Digest of PAL w/arab, COMT w/arab and AtCCRI w/arab with EcorI and SpeI in order to ligate to terminator.
Results:Digest was successful.
Experimenter:Anna Müller
Aim:Ligation of PAL w/arab, COMT w/arab and AtCCRI w/arab to terminator.
Results:Ligation was unsuccesful see September 6th.
September 6th
Experimenter:Anna Müller
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Experimenter:Anna Müller
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Experimenter:Anna Müller
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Experimenter:Anna Müller
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Experimenter:Anna Müller
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Experimenter:Anna Müller
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September 17th
Experimenter: Cam Strachan
Aim: Set up GCMS experiments (see protocol). Optimise with EncP with converts tyrosine to cinnamic acid. Supplemt phenylalanine.
Results: High background in LB
Incubation of clones in LB creates a tone of background. Going to try different extraction methods and minimal media.
September 18th
Experimenter: Cam Strachan
Aim: Optimize GCMS experiments (see protocol).
Results: Only small amounts of the monoaromatic compounds are getting out of the cell.
Read a paper that shorter incubations actually increases the yield for this class of compounds. Also, going to try some partial lysis as the background doesn’t seem to be much of a problem now.
September 19th
Experimenter: Cam Strachan
Aim: Optimize GCMS experiments (see protocol).
Results: Seeing a nice signal for cinnamic acid now. Modified protocol and started culture for all our available parts that result in benzoic acid derivative type compounds. I don’t think the CoA intermediates are flying on the GCMS. Also, going to set up internal controls for vanillin, cinnamic acid, caffeic acid, ferulic acid and p-coumaric acid.
September 23rd
Experimenter: Cam Strachan
Aim: Run GCMS experiments (see protocol).
Results: Ran about half or our contructs. Can see many of the products, going to set up the rest of our contructs in the same way and start pulling mass spectrums off the machine to match to libraries and confirm the products. Also re-running different controls such as terminator containing plasmids ect.
September 24th
Experimenter: Cam Strachan
Aim: Run GCMS experiments (see protocol).
Results: Ran the rest of the contructs. Looks like we have examples of biosynthesis for most of the intermediates in cinnamaldehyde and vanillin synthesis. Need to get my hands on an internal control for the caffeine pathway, although some of the compound calls looks promoising. Going to analyze all this data and get back to the CRISPR experiments.