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CAROL
Modeling Readings
- Focused on how part BBa_F2620 was characterized and wrote up simple protocols to test our circuit when the circuit is completed.
- Some of the characteristics include: gene stability, response time, dynamic response and specificity.
- Started reading up on Simbiology and what kind of functionality the platform provides.
- No experiments performed.
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CHINMOYEE
Descriptive Title of What You're Doing
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EMILY
Restriction Digest and PCR with gene-specific primers of LuxOD47E in the psB1AC3 vector
- Objective: to verify that the gene of interest LuxOD47E has been biobricked (contains the biobrick restriction sites).
Restriction Digest
- Protocol: Digest 10 μL LuxOD47E BBK (C1- [60.3 ng/μL] and C2- [92.9 ng/μL]) with 1μL Not1 restriction enzyme (Invitrogen, CA), 2 μL REact 3 Buffer and 7 μL ddH20. Left for two hours in 37ºC water bath. Then heat activated in a 65ºC water bath for 10 minutes.
PCR of LuxOD47E in psB1AC3 with gene-specific primers
- Objective: To verify the presence of LuxOD47E in the psB1AC3 vector. If our gene of interest is biobricked and in the psB1AC3 vector, than we can proceed with construction.
- Protocol: Made 9x mastermix with 45 μL 10x PCR Buffer, minus Mg2+, 9 μL 10 mM dNTPs, 13.5 μL 50 mM MgCl2, 1.8 μL p Taq DNA Polymerase, 9 μL LuxO-R primer, 9 μL LuxO-F primer and 344.7 μL ddH2O. Split Mastermix into the tubes, 49 μL in each. Put 1 μL BBK LuxOD47E C1 DNA template into 2 tubes, 1 μL BBK LuxOD47E C2 DNA template into two tubes, 1 μL LuxOD47E TOPO 2 tubes (positive contorol) and 1 μL ddH2O into two tubes for a negative control.
Ran PCR with the folowing cycling conditions: 94°C for 3 minutes, 36x (94°C for 30 s, 53°C for 45 s and 72°C for 90 s), 72°C for 10 minutes. Held at 4°C.
- Results: Ran both the restriction digest and the PCR product on a 1% agarose gel at 120 V with 2 μL Orange 10X dye. Ran the restriction digest with uncut plasmid as positive control.
Lane 1- BBK LuxOD47E C1 digested
Lane 2- C1 uncut
Lane 3- BBK LuxOD47E C2 digested
Lane 4- C2 uncut
Lane 5- LuxOD47E BBK- C1
Lane 6- LuxOD47E BBK- C2
Lane 7- LuxOD47E TOPO (Positive Control)
Lane 8- Negative Control
- Analysis: Looking at the PCR Products, it looks extremely likely that the gene of interest, LuxOD47E, is in the psB1ACM vector, as the bands in the two BBK lanes match up with the band in the TOPO positive control lane. We will proceed to DNA sequencing for a fnal verification. For the restriction digest, it does not look like the DNA was cut as the bands in the cut lanes are identical to the bands in the uncut lanes for all colonies. This may have been because the reaction was not run long enough, there was a problem with the enzymes or there is a problem with the restriction sites themselves.
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FAHD
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IMAN
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JAMIE
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JEREMY
Verifying the presence of luxO D47A in the psB1AC3 vector
The purpose of today’s experiments is to verify the presence of luxO D47A in the psB1AC3 vector. A restriction digest (RD) with NotI was set up for 2 hours at 37ºC, with two separate colonies of isolated luxOD47A in psB1AC3 (from May 26). A PCR using LuxO F/R primers (gene specific) was set up using platinum Taq Polymerase (Invitrogen, CA). according to the specifications of the manufacturer. Template from colonies 1 and 2 of luxOD47A in psB1AC3 were used. Conditions were as follows: 94ºC for 3 minutes; 36 X (94ºC for 30 seconds; 53ºC for 30 seconds; 72ºC for 2 minutes); 72ºC for 10 minutes; held at 4ºC. The products from the PCR and the RD were then run on a 1% agarose gel (see below).
For the RD, we should see two bands for the “cut”: a band at ~3kb for the psB1AC3 vector, and a band at ~1.4kb for luxO D47A. However, the “cut” lanes show that NotI was unable to cut out any insert, suggesting the absence of luxO D47A. However, if we look to the PCR for colony 1 and 2, we do see the expected band size of ~1.4kb for the luxO D47A gene. The band size lines up nicely with the positive control, Lux O D47A in TOPO T/A. However, the negative control lane shows contamination
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KATIE
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KEVIN
Verification of Pqrr4 for Reporter circuit
Restriction Digest
To verify the isolated Pqrr4, restriction digest was done with NotI (invitrogen, Lot 2803027) enzymes, React Buffer 3, and GeneRuler SM1333 ladder.
Polymerase Chain Reaction (PCR)
The Pqrr4 was then amplified using Polymerase Chain Reaction (PCR) from biobrick AC (pSB1AC3) using primers Pqrr4 F/R and platinum Thermus aquaticus (pTaq; invitrogen) according to the specifications of the manufacturer. The following cycling conditions were used:
94°C for 3 min; 36x (94°C for 30s; 53°C for 45s; 72°C for 1 min;) 72°C for 10 min; held at 4°C.
Figure 1. The Restriction digest and PCR of Pqrr4
Sequencing
Lastly, the Colony 1, being Pqrr4 BBK Green, was sent for sequencing with Pqrr4 F/R primers to the University of Calgary DNA Sequencing Facility (University Core DNA Services, Calgary, Alberta, Canada).
Legend:
Vector contamination
Biobrck restriction sites
Part of interest, in this case, Pqrr4
result
ATAGGCGTATCACGAGGCAGAATTTCAGATAAAAAAAATCCTTAGCTTTCGCTAAGGATGATTTCTG
GAATTCGCGGCCGCTTCTAGA
GTATCAGCAAAAACACTACGGTGGATAATCAGTAAAACCATGAAACTAGAGCCCCGCACACTTGCGGGGCTTTTTAATTTTGAAT
TTCTTTCTTATTAAAACGCCATTTTTCTGATAAATGTATTAGTAGCAATGCGCATGGTGGCATATTTGCATCATTTTGCATTTTG
CAAATGCGATTTGCAAAATGCGTGCTCAATAAAGCACCAATATGCATCAGGATCGAAGAAAAAAGGCGTTTTTAAAAGTTGGCAC
GCATCGTGCTTTATACAGATACTAGTAGCGGCCGCT
GCAG
TCCGGCAAAAAAGGGCAAGGTGTCACCACCCTGCCCTTTTTCTTTAAAACCGAAAAGATTACTTCGCGT
TATGCAGGCTTCCTCGCTCACTGACTCGCTGCGCTCGGTCGTTCGGCTGCGGCGAGCGGTATCAGCTCA
CTCAAAGGCGGTAATACGGTTATCCACAGAATCAGGGGATAACGCAGGAAAGAACATGTGAGCAAAAGG
CCAGCAAAAGGCCAGGAACCGTAAAAAGGCCGCGTTGCTGGCGTTTTTCCACAGGCTCCGCCCCCCTGA
CGAGCATCACAAAAATCGACGCTCAAGTCAGAGGTGGCGAAACCCGACAGGACTATAAAGATACCAGGC
GTTTCCCCCTGGAAGCTCCCTCGTGCGCTCTCCTGTTCCGACCCTGCCGCTTACCGGATACCTGTCCGC
CTTTCTCCCTTCGGGAAGCGTGGCGCTTTCTCATAGCTCACGCTGTAGGTATCTCAGTTCGGTGTAGGT
CGTTCGCTCCAAGCTGGGCTGTGTGCACGAACCCCCCGTTCAGCCCGACCGCTGCGCCTTATCCGGTAA
CTATCGTCTTGAGTCCAACCCGGTAAGACACGACTTATCGCCACTGGCAGCAGCCACTGGTAACAGGATTAGCAGA
The above Pqrr4 sequence matches 100% with the expected Pqrr4 sequence; thus I can continue.
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MANDY
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PATRICK
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PRIMA
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STEFAN
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VICKI
NotI restriction digest of LuxPQ BBk on psB1AC3
Purpose: To verify that a gene that is the same size as LuxPQ can be excised from the plasmids isolated in the miniprep on May 26 by using NotI restriction enzymes
Materials and methods:
Enough volume for around 1ug of DNA was taken from the samples measured in the previous step (4uL from each sample). 2 uL of REact buffer 3 (Invitrogen) and 1 uL of NotI enzyme (Invitrogen) were added. 13 uL of ddHOH was added to bring the total tube volume up to 20 uL. Tubes were incubated in the water bath for 2.5 hours and then left at room temperature for a few more hours before being placed in the freezer.
Results:
These are displayed and discussed on the gel that was run on May 28.
PCR amplification of LuxPQ BBk
Purpose: To verify that the LuxPQ BBk samples actually consist of LuxPQ BBk
Materials and methods:
The procedure is similar to that from May 20. Platinum Taq polymerase was used instead of Taq polymerase, as a higher degree of fidelity was desired in light of poor results last week (for other people). Platinum Taq has an antibody that prevents the polymerase from acting until the initiation temperature reaches 94 degrees C. This makes the system more stringent and prevents polymerase activity at lower temperatures, such as the 56 degree C environment that is critical for annealing.
TOPO clones of LuxPQ are used as a positive control. Since the gene of interest (LuxPQ) is purportedly present in these (according to sequencing results from last year), you would expect to see a band at 3855 bp. If the BBk bands are also this size, it encourages our presumption that they are indeed LuxPQ BBk and not some other gene that can’t be amplified by primers specific to LuxPQ. ddHOH is our negative control.
Note: the BBk and TOPO LuxPQ are very concentrated. More dilute samples of each were made (100 ng/uL) so that an appropriate volume with lower error could be pitetted into the PCR tubes.
49 uL of master mix was pipetted into each tube, followed by the BBk samples, the TOPO samples and the negative control, according to the following key:
- Tubes 1 and 2: LuxPQ c1 BBk
- Tubes 3 and 4: LuxPQ c2 BBk
- Tubes 5 and 6: Negative control (ddHOH)
- Tubes 7 and 8: Positive control (TOPO plasmid)
- Template: LuxPQ BBk
- Forward primer: LuxPQ BBk forward primer (Tm = 60 degrees C)
- Reverse primer: LuxPQ BBk reverse primer (Tm = 60 degrees C)
Master Mix contents (for 9 tubes)
- 10X PCR Buffer minus Mg 2+ (45 uL)
- 10mM dNTPs mixture (9 uL)
- 50mM MgCl2 (13.5 uL)
- Forward primer [10 uM] (9 uL)
- Reverse primer [10 uM] (9 uL)
- pTaq DNA polymerase [5 units/uL] (1.8 uL)
- Autoclaved distilled HOH (353.7 uL)
TOTAL: 441 uL of Master Mix, of which 49 uL were spread across 8 tubes
PCR steps:
- Denaturation: 94 degrees C, 3 minutes
- Amplification: 36 cycles of:
- Denaturation (94 degrees C, 30 seconds);
- Annealing (53 degrees C, 45 seconds);
- Extension (72 degrees C, 4 minutes)}
- Final extension: 72 degrees C, 10 minutes
- Hold temperature: 4 degrees C
Results:
Like the restriction digest, these will be visualised on a gel tomorrow.
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