Boston UniversityStatus
From 2007.igem.org
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A lawn of bacteria on each plate. No GFP fluorescence under UV illumination. | A lawn of bacteria on each plate. No GFP fluorescence under UV illumination. | ||
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Used E.coli sm10 cells, GFP plasmid pMS291 with lacZ promoter (stimulated by IPTG). Sample 1 contained 50 microliter sm10 + 1 microliter mPS291. Sample 2 contained 50 microliter sm10 + 1 microliter water. Sample 3 contained 50 microliter E.coli Dh5-alpha + 1 microliter water. Samples 2 and 3 served as negative controls (should show no colonies in the presence of kanamycin). 5 microliters of each of these samples were plated onto [LB]+[20microliters of 50X kanamycin]+[20microliters of 100micromolar IPTG]. 50 microliters of each of these samples was also plated onto [LB]+[20microliters of 50X kanamycin]+[20microliters of 100micromolar IPTG]. | Used E.coli sm10 cells, GFP plasmid pMS291 with lacZ promoter (stimulated by IPTG). Sample 1 contained 50 microliter sm10 + 1 microliter mPS291. Sample 2 contained 50 microliter sm10 + 1 microliter water. Sample 3 contained 50 microliter E.coli Dh5-alpha + 1 microliter water. Samples 2 and 3 served as negative controls (should show no colonies in the presence of kanamycin). 5 microliters of each of these samples were plated onto [LB]+[20microliters of 50X kanamycin]+[20microliters of 100micromolar IPTG]. 50 microliters of each of these samples was also plated onto [LB]+[20microliters of 50X kanamycin]+[20microliters of 100micromolar IPTG]. |
Revision as of 21:03, 3 June 2007
Contents |
What We've Accomplished
Primer Design
SO1415
Gene sequence: overhang of the actual gene
This sequence was found on http://www.ncbi.nlm.nih.gov/
Megablast was used to compare the designed primer against the s. oneidensis genome
The length, gc content, melt temp etc info was found on www.idtdna.com
The site used to find parameters of a well-designed primer: http://www.premierbiosoft.com/tech_notes/PCR_Primer_Design.html
SO_1415 gene sequence: 5’ GAATGAATAA ATGAAATGTCCTTCGGACTCCCTGTCCATTTTACGTTGTAATCAAATATTGGATGCGGCTGAAAAGCTCA TTGAGTCACAAGGTGTTGTATCTTTTAAGTTTTCTCAGCTTGCGCATGAGGTGGGATGCTCTACGGGTAC TTTATATAAATTTTTTGAACGTAAAGAAGATGTGTTGGTTTGTTTATTTTTAAGAAGCGCAACCTCAAAT CACTTACCGATATTTATCCATAAAAATCCAGAGTTAACTGCGCAAGAGAAGGTGCTGTTACCCATTTTAT TTACCTTTGAAACCATTAAGCGCAGTAGTAGCTTTTTTACGCTGCGTTCGGTGTCGGTCAATACCATGGT GTGGAAACTGGCCAGTGACGAAAAAGTGGAGCGGTTTAAAAAACGCATTAATGCTTTTTGGAGTTGGTTT ACAGACTCACTGCATTTAGCTGTTGAAAACGGCGAATTAGTGGCAACACCATTACAAATTAAAGAATTGG TCCAAGGGATAACGTTTTATTTAACAGGGTCTTTGACACAATTTGAAAGTCAATTGATTGCCCCAGAGTT TTTGTCTGATCGCCGTGAAACCTGTTATCGACATTTAGCAAACCTGATGGAGCGATACGAGTGGAAAAAG CCTTTAACTCTTGCGCTGTTTGATTCGTTAGAGGCGAGAACTATTAAGTTTTTTGACCAACATTATCGTG ACCATATGACCTGCGCGGCTTGTAGTGCGCTGTCAAATACCGACACTAAGACATCATCTCCCTGTACTCG TCAGTGTGGTTAG GGCGTCCTGC 3’
Primer 1:
TGA ATA AAT GAA ATG TCC TTC GGA CTC CCT G
LENGTH:31
GC CONTENT:41.9 %
MELT TEMP:59.9 ºC
MOLECULAR WEIGHT:9494.2 g/mole
EXTINCTION COEFFICIENT:298500 L/(mole·cm)
nmole/OD260:3.35
µg/OD260:31.81
Primer 2:
GAC GCC CTA ACC ACA CTG ACG
LENGTH:21
GC CONTENT:61.9 %
MELT TEMP:60.2 ºC
MOLECULAR WEIGHT:6345.2 g/mole
EXTINCTION COEFFICIENT:197000 L/(mole·cm)
nmole/OD260:5.08
µg/OD260:32.21
SO4157
5’ AAGGAAAACC ATGTCCACCATGCTGCCACTGTATTTAGTCGATGATGATGAAGCGATTCTCGACTCCTTAGGGTTTATGC TCAGGCAATTTGGTTACCAAGTACAAACCTTTAGCAGTGGACGGGATTTTTTAGCCCAATGTCCGTTAAC ACAGGCTGGCTGCGTGATTTTAGATAGCCGAATGCCGGAGATCACCGGCCAAGAAGTGCAGCAAAAACTA CTTGAAACCCAAAGCCCATTGGGAGTTATCTTTCTCACGGGGCACGGTGATTTGCCCATGGCATTAAGCG CCTTTCGTAAGGGTGCATGCGATTTTTTTCAAAAGCCGGTATCTGGCAAAGCCCTAGTACAAGCCATTAA AAAAGCGCATAAAGAAAGCCAAGCCAGCTTTGAGCAACAGAGTCTGCAGCATAAATTTGCCCAACTGACC GACCGTGAACAACAAGTGTTAGCCCATGTGGTTCAAGGTATGACCAACAAGCAGATCTCCGAGGCCATGT ATTTATCCTTAAGAACCATTGAAGTGCACCGCGCTAAGATCATGAAAAAGCTCGAAGTCAGTAATATGGC AGAATTAGTACAGCACTTAGCCCACCTAAATACACTCTTACCGGAGTAA TCCAATAAAC 3’
Primer 1:
AAA ACC ATG TCC ACC ATG CTG C
LENGTH:22
GC CONTENT:50.0 %
MELT TEMP:58.7 ºC
MOLECULAR WEIGHT:6648.4 g/mole
EXTINCTION COEFFICIENT:207700 L/(mole·cm)
nmole/OD260:4.81
µg/OD260:32.01
Primer 2: ATT GGA TTA CTC CGG TAA GAG TGT ATT TAG GT
LENGTH:32
GC CONTENT:37.5 %
MELT TEMP:58.6 ºC
MOLECULAR WEIGHT:9924.5 g/mole
EXTINCTION COEFFICIENT:320800 L/(mole·cm)
nmole/OD260:3.12
µg/OD260:30.94
hlyU
ATGAAAACCA TTAATGACAATAAATATTGTTCAATAAATGGATCATCTCACGTACCTCATCACTTTTCAGTGAGTAGAAT ACAGTTTGCGCTTCTTTGCGTGTGGTCACTAAATTATCTTTGCGCAACCAAGCAAGGTGTTGTGATAGTG CCGATTGACTTAAGCCTAATTTTTTATTCATTTCGCCAACGCACATTTCTCCTTCATTCAATAAATAACA AAGGATAAATAAACGGCGTTCGTTTGCGAGTGCCTTTAATAGCACCACGGCATGATCGGCTCGCTCCTGC ATCAATTCAATATTCAT TACGCACTTT
Primer 1: ATG AAA ACC ATT AAT GAC AAT AAA TAT TGT TCA ATA AAT GG
LENGTH:41
GC CONTENT:22.0 %
MELT TEMP:56.6 ºC
MOLECULAR WEIGHT:12655.3 g/mole
EXTINCTION COEFFICIENT:432600 L/(mole·cm)
nmole/OD260:2.31
µg/OD260:29.25
Primer 2: GTG CGT AAT GAA TAT TGA ATT GAT GCA GGA
LENGTH:30
GC CONTENT:36.7 %
MELT TEMP:57.8 ºC
MOLECULAR WEIGHT:9349.1 g/mole
EXTINCTION COEFFICIENT:309700 L/(mole·cm)
nmole/OD260:3.23
µg/OD260:30.19
Week's (Ambitious) Goals
Wednesday 5/30
- Get all protocols
- Identify materials/prepare order
- Design Primers
- Learn about budget/POs
Thursday 5/31
- Do primer order
- Start conjugation practice
- Confirm restriction enzymes, ligases
- Order confirmed/needed materials
- Team Revew Meeting
- Draft Thank-You Letters for our Sponsors
Friday 6/1
- Evaluate/continue conjugation, practice electroporation for E. coli
- Revise proposal to include possibility of screening with alginate beads and fluorocytometer
- Meeting with Tim: Budgets/protocols, Pfizer/fundraising, iGEM registration, beads
Materials We Need
Primers: Need to Buy
Error-Prone PCR: Need to Buy
Plasmids: Need to Buy?
Restriction Enzymes: Need to Buy?
Ligases: Need to Buy?
Short-Term To-Do List
Lab Orientation: COMPLETED!
Lab Safety Training: COMPLETED!
Design of Primers: COMPLETED!
Ordering of Primers: Not Completed
Gathering of Protocols: Not Completed (Chris, please send me the protocols when they are gathered)
Ordering of Error-Prone PCR Materials: Not completed
Thank-You Letters sent to Pfizer: Not Completed
Thank-You Letters sent to BU ppl: Not completed
Protocols
"Calcium Chloride/Heat Shock Plasmid Transformations
Reagents to be Supplied by the User
LB plates with appropriate antibiotic concentration (for pET -25b(+), amipicillin at 50-100 microgram/mL) SOC media
1) Prepare one LB-Amp plate for each transformation, plus one plate for a negative (no plasmid) control. After storage at 2-8 degrees C, equilibrate to room temperature.
2) Centrifuge the tubes containing plasmid DNA to collect contents at the bottom of the tube. Add 1 microliter DNA to a sterile 1.5 mL tube on ice. Have one tube on ice with no DNA.
3) Add 50 microliters of competent cells (either freshly prepared, or frozen and thawed on ice). Avoid excessive pipetting, as cells are very fragile.
4) Gently flick the tubes to mix, and place on ice for 20 minutes.
5) Heat shock the cells for 45 seconds to 2 minutes in a water bath at exactly 42 degrees C. Do not shake.
6) Immediately return the tubes to ice for 2-10 minutes.
7) Add 950 microliters of room temperature SOC media to the tubes.
8) Incubate 1-1.5 hours at 37 degrees C with shaking (~150 rpm).
9) Plate 100 microliters of each transformation culture onto antibiotic plates.
10) Incubate the plates overnight (16-24 hours) at 37 degrees C.
See Making Heat Shock Competent Cells for more information. "
Negative Control: No plasmid
Trial 1:
We followed this protocol from step 3 in order to practice our transformation and conjugation techniques. The competent cells given to us by Joshua were E.coli sm10; the GFP plasmids (pMS291/lacI) were supplied by Ilaria. But we performed the protocol with four samples of plasmid DNA+E.coli. Each sample contained 1 microliter of 63.5 ng/microliter GFP plasmid DNA; 50 microliters of the competent E.coli cells; and 950 microliters of SOC media. 100 microliters of each sample tube were plated onto one kanamycin plate and one blank (non-antibiotic), control plate.
Trial 1 results:
A lawn of bacteria on each plate. No GFP fluorescence under UV illumination.
Trial 2:
Used E.coli sm10 cells, GFP plasmid pMS291 with lacZ promoter (stimulated by IPTG). Sample 1 contained 50 microliter sm10 + 1 microliter mPS291. Sample 2 contained 50 microliter sm10 + 1 microliter water. Sample 3 contained 50 microliter E.coli Dh5-alpha + 1 microliter water. Samples 2 and 3 served as negative controls (should show no colonies in the presence of kanamycin). 5 microliters of each of these samples were plated onto [LB]+[20microliters of 50X kanamycin]+[20microliters of 100micromolar IPTG]. 50 microliters of each of these samples was also plated onto [LB]+[20microliters of 50X kanamycin]+[20microliters of 100micromolar IPTG].
Trial 2 results:
Colony growth on all plates. So the kanamycin is not killing any of the cells. Perhaps the kan plates were made incorrectly.
Trial 3:
Repeated Trial 2 but with double volume of kanamycin and double volume of IPTG (to ensure stimulation of lacZ promoter an thus GFP expression).
Trial 3 results:
5 microliters sm10 + water in IPTG and kan: lawn of colonies 50 microliters sm10 + water in IPTG and kan: less than 10 colonies 5 microliters sm10 + pMS291 in IPTG and kan: less than 10 colonies, fluorescent under UV illumination ! 50 microliters sm10 + pMS291 in IPTG and kan: less than 10 colonies, no fluorescence 5 microliters Dh5-alpha + water in IPTG and kan: more than 100 colonies 5 microliters sm10 + water in kan: lawn of colonies 5 microliters sm10 + pMS291 in kan: lawn of colonies 5 microliters Dh5-alpha + water in kan: more than 100 isolated colonies
E.coli successfully transformed with pMS291 (showed fluorescence). These colonies will be grown out in SOC media for further examination. But kan still seems to be innefective.
Trial 4:
Two stocks were made: one with 20 microliters E.coli Dh5-alpha + pMS291 (lacZ), and the second with 20 microliters E.coli Dh5-alpha + water. Each of these two stocks were plated onto 4 different plates. Plate 1 contained LB Plate 2 contained LB + kanamycin Plate 3 contained LB + kanamycin + IPTG Plate 4 contained LB + kanamycin which was dripped onto the LB
Question and Answer
Relevant Publications and Links
http://www.shewybase.bu.edu