Team:British Columbia/Notebook

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==June 8==  
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<map name="sponsormap">
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<area shape="rect" coords="10,5,220,70" href="https://2012.igem.org/Team:British_Columbia/LabNotebook" />
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<area shape="rect" coords="10,90,220,155" href="https://2012.igem.org/Team:British_Columbia/BiobrickConstruction" />
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<area shape="rect" coords="10,170,220,235" href="https://2012.igem.org/Team:British_Columbia/DSZNotebook" />
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<area shape="rect" coords="10,250,220,310" href="https://2012.igem.org/Team:British_Columbia/ConsortiaDynamics" />
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<area shape="rect" coords="10,330,220,390" href="https://2012.igem.org/Team:British_Columbia/ConsortiaTunability" />
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</map>
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Tried to make more EPI300 cells, though no obvious growth even after hours for the second time, and decided to leave it over night to see if there are any changes.
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<div id="sponsormap"><img align="left" src="https://static.igem.org/mediawiki/2012/a/a0/Ubcigemnotebookmenu.jpg" usemap="#sponsormap" alt="UBC iGEM 2012 notebook"> </div>
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Electrophoresed K12 with PIJ790 plasmid, and plated them on Chlor plates with control plates to examine the plates.
 
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- Ruichen
 
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Prepared a 96 well plate for co-culture experiments with the the following ratios:
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</div><div id=note><p align=center><font face=arial narrow size=5><b>Welcome to our Notebook!</b></font></p><font face=arial narrow>
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{| class="wikitable"
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Our Notebook is sorted by sub-project. Please use the menu to navigate through our Notebook entries and follow our progress over the year.</br> </br>  
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|+ Co-culture ratios
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<b>UBC iGEM Life</b> chronicles the conferences, socials and life outside-of-the-lab of our team.</br></br>
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|-
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<b>Biobrick Construction</b> describes how our team build our parts and improved existing parts from the Parts Registry.</br></br>  
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| GFP||RFP||YFP||0.5G/0.5R||O.67G/0.33R||0.33G/0.67R||0.5G/0.5Y||O.67G/0.33Y||0.33G/0.67Y||0.5R/0.5Y||O.67R/0.33Y||0.33R/0.67Y||
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<b>Bio-Desulfurization</b> recounts the steps our team took to distribute and assess the efficiency of the DSZ bio-desulfurization pathway in a microbial consortia.</br></br>
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|-
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<b>Consortia Dynamics</b> details our team's efforts in measuring population ratios within microbial consortia based on fluorescence readings.</br></br>
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| GFP||RFP||YFP||0.5G/0.5R||O.67G/0.33R||0.33G/0.67R||0.5G/0.5Y||O.67G/0.33Y||0.33G/0.67Y||0.5R/0.5Y||O.67R/0.33Y||0.33R/0.67Y||
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<b>Consortia Tunability</b> elucidates our team's progress in creating easily tunable microbial consortia based on interdependent auxotrophies.
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|-
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</div>
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| GFP||RFP||YFP||0.5G/0.5R||O.67G/0.33R||0.33G/0.67R||0.5G/0.5Y||O.67G/0.33Y||0.33G/0.67Y||0.5R/0.5Y||O.67R/0.33Y||0.33R/0.67Y||
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</html>
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| ||||||||||||||||||||||||||
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| 0.33G,R,Y||0.33G,R,Y|||0.33G,R,Y|||||||||||||||||||||
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| Media||Media||Media||||||||||||||||||||||
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|}
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All cells were derived from EPI300, and were grown in M9 media to allow for accurate OD measurements. a total of 10 uL culture in each case was added to 190 uL M9 media.
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However, the plate reader was later found to be broken. The plate was placed in the 4° cold room until such time that the experiment could be done.
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The wells were plated by GFP first, then RFP, the YFP. There was a slight accident that involved losing some of the YFP culture, but enough was recovered to fill the plates. It is likely that the GFP cultures spent over 30 minutes in the plate before the YFP was added, so some readings may not accurately reflect the ratios shown above. 
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-Jacob
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Miniprepped biobricks 12O, 5P, 17F, 13M, 14N, 14E using the QIAGEN Spin Miniprep Kit provided by the Hallam lab. We had planned to miniprep 7B also, but a slight accident caused there to be less than 1.5 mL in the microcentrifuge tube. It will be done sometime later, after regrowing a culture
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-grace
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==June 9==
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The EPI300 did grow! though over grew, and was discarded.
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- [[User:Ruichen|Ruichen]]
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Bought $1 of 91 octane (no ethanol) gas from the Shell on 10th. It's in a red jerrycan in the flammables cabinet near our bench.
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[[User:JohnHenry|JohnHenry]] 14:31, 9 June 2012 (CDT)
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Experiment plan for week of June 10-16th:
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'''1) Kill Switch Assay for Colicin E7, Colicin E2, BamH1, H<sub>2</sub>O<sub>2</sub>'''
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''Colicin E7:''
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There is currently a plate of K12 cells with protein immunity and Colicin E7. Lysis protein (cuts the immunity gene to allow for Colicin E7 production) will be transformed into K12 (Sat). Cultures will be set up for both the protein immunity+Colicin E7 and the Lysis (Sun). The two cultures will be mixed and grown up to correct OD then plated (Mon). Plates will be checked for growth (Tues).
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''Colicin E2, BamH1, H<sub>2</sub>O<sub>2</sub>:''
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There are currently plates of K12 cells with Colicin E2 and H<sub>2</sub>O<sub>2</sub>s. Colonies will be picked and cultures will be set up for each of these (Sat). The cultures will be grown to correct OD and induced then plated (Sun). Colicin E2 is induced low concentration of ampicillin, BamH1 is induced with arabinose, and H<sub>2</sub>O<sub>2</sub> is induced with 2nM of AHL. Plates will be checked for growth (Mon). BamH1 will be transformed into K12 cells and plated (Sat). Same steps will be taken as above and plates will be checked for growth (Tues).
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'''2) Solvent Tolerance Assay'''
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Cultures of K12 cells with 3I plasmid will be set up (9am on Sun) in gasoline and pentane. OD will be checked every hour for 12 hours or less until stable phase (Sun). Protocol is on the TU Delft 2010 page [https://2010.igem.org/Team:TU_Delft#page=Notebook/protocols&anchor=Protocol_for_growth_of_E.coli_K12_on_alkanes].
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'''3) PCR RFP, YFP, GFP on to pcc1 fosmid'''
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There will be a PCR tutorial on Thursday 6pm with the primers for putting the RFP, YFP, and GFP from the biobrick on to pcc1 fosmids.
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- Marianne
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Wanted to start the solvent tolerance assay today, but previous protocols required 12 hours and by the time we got the gasoline, it was already 12. We decided to wait a day. In the mean time, we started some cultures and plates for a few kill switches that could also be assayed. The cultures were of a H2O2 producing strain, and another strain that expressed the colicin E2 operon, which is inducible under low (10 uG/mL) concentrations of B-lactam antibiotics, such as ampicillin (http://www.sciencemag.org/content/305/5690/1629.full#F2). Despite documentation of plating of the BAMHI kil switch, the plates were unable to be found, so another transformation was done, along with a transformation for the lysis gene from the colicin E7 operon. The colicin E7 toxin and immunity protein have already been grown in cultures.
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The tentative plan is to see if the two cultures interact by the lysis gene cleaving the E7/immunity complex, causing cell death. There was no one who knew how to use the plate reader in the lab today, so the co-culture experiments were further put on hold. It should be noted that the kill switches, unless otherwise noted, have been transformed into K12 E. coli cells, which are RecA positive, allowing the SOS promoter to work.
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- Jacob
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==June 11==
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Autoclaved 4 500ml LB, bottle of 10% glycerol and 1 bottle of water.  
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-Ruichen
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Started kill switch assays on colicin E2 and BamHI. Colicin E2 is on the SOS promoter, which is best switched on by mitomycin. However, we currently do not have access to mitomycin or any of its closely related derivatives, so, judging by the previous;y mentioned paper, it might be able to be induced by b-lactam antibiotics in low concentrations.
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Procedure outline:
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Dilute 1:100 22A, 3C and wt strains in 25 mL LB. Measure OD every hour. At start of exponential phase, add arabinose to 0.01% or amp to 4 ug/mL to strain+control. Plate 25 uL 2 hours later, mid exponential phase. Details to follow.
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The plate reader is still broken, with no estimated repair date.
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-Jacob
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Transformed biobricks 7C, 22C, and 20K into K12, 8G into BL21 pIJ790, 7C into EPI300 pIJ790, and 14C into DH5α pIJ790 for miniprep.  After recovery, the cells were plated in the following manner: 22C and 20K on LB + Kan, 14C and 8G on LB + Amp, and 7C (both the K12 and EPI300 cells) on LB + Chlor.  Different cells were chosen to test out the newly made competent cells. Only the K12 cells have been verified.  7C was transformed into K12 after, in addition to EPI300 pIJ790, because the 7C biobrick has Chlor resistance, which mimics the marker on pIJ790.
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Quantified previously miniprepped biobricks using the nanodrop spectrophotometer.
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Tested the mini-prepped plasmid concentration (using water as water)
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3-13M: 43.1 ng/µl
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1-5P: 111.4ng/µl
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5-12O: 67.2ng/µl
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7B: 70.2ng/µl
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2-17F: 25.1ng/µl
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3-14E: 84.9 ng/µl  (260/280:1.82, 260/230:2.13)
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2-14N: 223.8ng/µl (260/280: 1.83, 260/230: 2.21)
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-Ruichen
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- [[User:Tingchiawong|Tingchiawong]]
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==June 12==
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Checked plates from Jacob's June 11 kill switch assay.  Every single plate (3C+, 3C-, 22A+, and 22A- in both 5 uL and 10 uL plating quantities) grew a lawn.  Only 3C+ and 3C- plates had a few distinguishable colonies.
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Checked plates of the cells transformed on June 11 by Ting-Chia and started 3 mL cultures for miniprepping.  Only the DH5α pIJ790 and EPI300 pIJ790 transformed with the 14C and 7C biobricks, respectively, did not seem show any growth upon the first check.  It was unclear as to whether there were actually any 7C (EPI300 pIJ790) colonies growing, so both plates were returned to the 37ºC room to incubate.  For the other plates that did show growth, single colonies were picked and inoculated in 3 mL starter cultures for miniprep.
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QIAprep Miniprep kit from Qiagen was used to miniprep 4-3I, 2-3C, and 3-22A.  The cells used were previously inoculated cultures that were stored at 4ºC.  DNA product was stored in sterile dH2O and frozen in the -20ºC freezer.
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We received plates of ''Rhodococcus'' sp. strain JVH1, ''Rhodococcus rhodochrous'' IGTS8 (ATCC 53968), and ''Baillus sphaericus'' IGTS9 (ATCC 53969).  Single colonies were picked and inoculated in 3 mL LB at 37ºC at first.  Plates were then parafilm-sealed and stored at 4ºC.
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After 20 hours at 37ºC, the plates with 14C and 7C (EPI300 pIJ790) had colonies.  14C only had one colony, while 7C had a couple of small colonies.  The origins of the colonies were uncertain, so the plates were discarded and the cells will be transformed in K12 the next day.  Also, 13M biobrick (RFP gene), which has been verified, will be transformed into EPI300 pIJ790 and DH5α IJ790 to check if the competent cells are working properly or if they are to blame for the failed 14C and 7C plates.
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Acquired trp, tyr, met, and arg for use in our co-culture experiments.
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- [[User:Tingchiawong|Tingchiawong]]
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==June 13==
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Removed 3 mL overnight cultures (20K, 7C, 8G, and 22C) from the 37ºC room and stored them at 4ºC until they are miniprepped.
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- [[User:Tingchiawong|Tingchiawong]]
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Discovered a thing Joe is too cool to do:
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Update the wiki.
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- [[User:JohnHenry|JohnHenry]]
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I approve the above message.
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-Jacob
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==June 14==
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Transformed the remaining interesting kill switches without promoters into K12.  Also transformed 17F into EPI300 pIJ790 and DH5α pIJ790 cells to determine if previously failed plates were due to ineffective competent cells.  All transformed cultures were then plated onto appropriate antibiotic plates (+Amp or +Kan), along with a control for each.  An extra control plate was spread onto a Chlor plate from a batch that previously produced unclear results.  The plates were placed at 37ºC at noon and left them to grow overnight.
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Made fresh batch of LB + Amp plates, which were used for half the Amp resistant samples from above.  Check control plate tomorrow for colonies to ensure plates work.
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Grew two 250 mL cultures of EPI300 to make into competent cells.  Iced them when OD<sub>600</sub> reached 0.34 and 0.30.  Finished glycerol stocks were stored in new freezer box "iGEM 2012 Comp Cells."
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- [[User:Tingchiawong|Tingchiawong]]
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Grace mini-prepped:
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*20K (in K12)
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*7C (in K12)
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*8G (in K12)
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*22C (in BL21 w/ plasmid pIJ790)
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Ting:More EPI300 competent cells made.  Need to verify competency tomorrow.
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- [[User:JohnHenry|JohnHenry]]
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PCR Party held in the evening to start PCR experiments. PCR programmed to run overnight at keep products chilled at 4ºC until tomorrow, when gels will be ran.
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- [[User:Tingchiawong|Tingchiawong]]
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Ruichen's Protocols learned for PCR:
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1. get PCR tubes
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2.get all reagents (except for pfu)
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3. make master mix, in centrifuge tube
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4. aliquot into PCR tubes (Master Mix)
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5. add into the remaining reagents, except the pfu (normally jus the enzyme, and when colony PCR, pick a colony in stead of adding DNA).
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6. keep sterile, pick colony (using tips, 10µl), add into tubes
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7. add pfu
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8. set up reaction conditions
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- [[User:Ruichen|Ruichen]]
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==June 15==
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A very busy day!
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1)Made 1 liter's worth of Kan plates, and about 3/4 liter's worth of chlor plates. We are now out of empty plates, and they have been placed on the list of things to buy. The Hallam lab is also out of empty plates. This is not good, for many of our knockouts are replaced by tetracycline resistance, and we have no tetracycline plates. We may have to scrounge up some from other labs. Noting that the kan plates that we used previously often grew colonies for negative controls, we increased the amount of kan stock we added from 1 mL to 1.5 mL. We have yet to test whether that is too great for the cells with the appropriate plasmid, but we have confirmed that it is lethal to normal cells by the fact that nothing grew on the negative test for the epi300 cells that Ting recently made.
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2)Tested epi300 cells by transforming with the rfp cassette for easy identification of whether or not the transformation was actually successful, or if other factors were in play regarding resistance. Negative controls were also employed for the newly made plates.
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*Update: many colonies on the rfp plate, but none on the negative controls. The transformation efficiency appears to be slightly lower than previous competent cells, but is still fairly high.
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3)Miniprepped the resistance cassette colonies. Previously, to do the PCR, we just picked a colony, but we thought that it would be beneficial to have a plasmid stock in case we needed to repeat the PCR.
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4)PCR with new (biobrick) primers was attempted. We received primers for the Dsz genes and also for the amino acid genes. We did not, however, receive the DszA forward primer, and decided to hold off on working with the Dsz genes until later. We performed a cPCR for all the genes we had, and ran the results on the gel.
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5) We attempted to do a solvent tolerance assay, but were thwarted. As it turns out, gasoline has some rather unpleasant volatile compounds that were interpreted by other members of the LSC as dangerous. Also, the cells that we wanted to grow showed no growth for the first 5 hours. Personally, I think that while it would be nice to have the relevant data, it seems that the hurdles to test to see if the addition of the prefoldin chaperone helps our cultures grow in organic solvents to remove the sulfur compounds are too great. We may revisit the project, but right now, it seems that we should put the idea behind us. As of 2:18, June 16th, nothing is growing in John's other experiment, which may or not be documented on the wiki.
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6)Ran the gel. Below are the results from yesterday's and today's PCR. Cameron made the gel and taped the edges of the gel box to prevent the gel from escaping. The gel itself was made to 1% agarose in 0.5% TBE, and run on a 50 well gel box. 3 uL of loading buffer were used for 8 uL (10 uL for yesterday's products) sample to increase contrast, and various ladders were tested. The negative control for today's PCR popped open during the reaction, and evaporated. Despite this, I feel fairly confident that the data is accurate.
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Running a gel
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# Broad Range Ladder
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# TrpA (biobricks)+DMSO
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# TrpA
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# TrpB +DMSO
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# TrpB
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# ArgC +DMSO
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# ArgC
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# ArgE +DMSO
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# ArgE
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# MetA +DMSO
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# MetA
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# TyrA +DMSO
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# TyrA
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# empty
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# 1kb ladder
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# Mehul's Stuff metA p1002 Kan
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# Mehul's Stuff metA p1002 Kan
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# Mehul's Stuff metA p1002 Kan
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# Mehul's Stuff metA p1002 Kan
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# empty
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# Ruichen's Stuff
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# Ruichen's Stuff
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# Ruichen's Stuff
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# Ruichen's Stuff
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# Ruichen's Stuff
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# empty
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# 1kb + Ladder
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# TrpA tet
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# TrpA tet +DMSO
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# TrpA tet +MgCl2
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# TrpA tet +DMSO+MgCl2
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# ArgE tet
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# ArgE tet +DMSO
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# ArgE tet +MgCl2
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# ArgE tet +DMSO+MgCl2
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# TyrA tet
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# TyrA tet +DMSO
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# TyrA tet +MgCl2
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# TyrA tet +DMSO+MgCl2
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[[File:June15igemmyriad.png |900x1000px]]
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* Figure 1. Myriad Gel
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As you can see, we have successful bands for tyrA (from genome, biobrick primers) with DMSO, MetA with kanamycin resistance (for knockouts), trpA with tetracycline resistance, ArgE with tetracycline resistance, and tyrA with tetracyline resistance. The 1 kb+ ladder appears the most useful in this experiment.
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- [[User:jacobtoth|Jacob Toth]]
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Jacob summarized well, and I am just going to add more info based on his summary.
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As for the perish dish, we used up all ours and also used the remaining a bag and half of Hallam Lab's. (which we need to reimburse back to them).
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I (Ruichen) added perish dish (10 bags) to the Hallam's Lab ordering list, using iGEM's name.
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As for the organic solvent tolerance assay, indeed there has been no growing sign in the transformed culture (with 3I plasmid) for the first few hours, and it was left in the 37 degree room over night.
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and for the controlled cultures, they were growing as expected when the organic solvents (Pentane and Octane) were not introduced, the experiment was continued (with the disruption of Jacob mentioned before). The organic solvent were added into controlled cultures at different concentrations (0%, 5%, 10%, and 15%), and their growth were monitored roughly each hour for the first few hours, and when the disruption occurred the cultures were taken out of the 37 degree room and stored in the 4 degree room at 5 p.m.
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I (Ruichen) returned to the Lab after dinner at 8:30 p.m., and each culture were examined for OD readings again, and the cultures with Pentane and Octane were incubated in the incubator with vacuums at 37 degree for 1 hour and 30 minutes respectively. Then the OD were read again at 9:30 p.m..
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'''The detailed OD reading data will be posted later with analyzed results. '''
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[[File:British_Columbia_Octane Tolerance_Control.png|900x1000px]]
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*Figure 2. Octane Tolerance Control Test
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[[File:British_Columbia_Pentane Tolerance_Control.png|900x1000px]]
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*Figure 3. Pentane Tolerance Control Test
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-  [[User:Ruichen|Ruichen]]
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The Amp plates made the day before worked.  However, the Kan plates (negative control, EPI300 pIJ790, and DH5a pIJ790) showed unexpected results.  The negative control, which only had untransformed K12 cells plated, had more colonies growing than those from the plates with resistance-transformed EPI300 pIJ790 and DH5a pIJ790.  Even then, there were only a few small colonies on the EPI300 pIJ790 plate and none at all on the DH5a pIJ790 plate. It looks like the Kan plates may not be working, and it is possible that the EPI300 and DH5a cells with the pIJ790 plasmid are not competent.
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- [[User:Tingchiawong|Tingchiawong]]
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==June 16==
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The time I came in Joe was making the PCR gel.
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The cultures with 3I plasmid that left for growth in the 37 degree room actually did turn a bit cloudy (6:00 p.m.).
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Their ODs were then measured with a blank LB for reference, and the detailed info will be updated.
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For the remaining cultures, 100µl of each culture was tested on Chlo plates with an control of K12 (20µl)  to see if they are actually the cell cultures that of our interest, and also testing the chlo plates that are newly made, and the remaining cultures were stored in the 4 degree room for potential future usage.
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The plates were left in the 37 degree room, and will be collected by Joe and stored in the 4 degree room.
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- [[User:Ruichen|Ruichen]]
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==June 17==
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+
-
As shown above in the gel image, there is still some PCR that needs to be done. Additionally, it appears that Joe's knockout PCR was not working either, so that PCR was to be repeated as well. It appears apparent that increased concentrations of DMSO and magnesium chloride help the reaction, so the appropriate amount of each was added to the mastermix. The reactions were as follows: TrpB with Kan cassette, TrpA, TrpB, ArgC, and MetA.
+
-
 
+
-
Since we were planning to put these into biobricks, it was imperative that we made sure that there were no restriction sites. To do this, we used the NCBI data for the gene sequence and ran it through Nebcutter, searching for all illegal sites. No illegal sites were found in TrpB, TyrA, TrpA, ArgC, or MetA. Lucky.
+
-
 
+
-
As shown above, a reaction for the tyrA gene worked. Using this PCR product and the rfp plasmid, we digested with EcoRI and PstI and ligated with T4 DNA ligase. The resultant product was used to transform Epi300 cells. Tomorrow, we will check for white colonies among the red ones, which would suggest that the ligation was successful. A colony PCR will be done to confirm.
+
-
 
+
-
-Jacob
+
-
 
+
-
 
+
-
Made more agar plates (Tet) (15 plates) (with an concentration of 1/1000 dilution rate) (and this has been proven to be too high of a concentration later).
+
-
 
+
-
-Ruichen
+
-
 
+
-
==June 18==
+
-
Yesterday's plates did not grow, but the experiment was repeated today.
+
-
 
+
-
1) Made tetracycline plates using LB agar and Hallam lab tetracycline, diluted 400 uL in 400 mL. Previous kan and amp plates were shown to not have LB in them, and were also discovered not to support growth. However, a working kan plate was gifted by Cameron and used for a knockout experiment.
+
-
 
+
-
2) A gel from yesterday's PCR was shown to have some products that worked, while others did not. The MetA, TrpA, TrpB, and ArgE biobrick PCR's worked fine, but the ArgE-Kan cassette and the ArgC biobrick PCRs did not, and were not repeated today. From personal correspondence with Joe, his PCR was not working either, despite trying different cycles and conditions. He suspects that there may be something wrong with the template, given the inconsistent performance of the Kan plates.
+
-
 
+
-
3) The biobrick PCRs that did work were digested with EcoRI and PstI, as was the psb1C3 linearized plasmid backbone.
+
-
it was unknown whether or not the plasmid had any methylation, so DpnI was used only in the PCR product digestion. The procedure will be uploaded to the wiki in the near future. A gel was made showing the ligation products.
+
-
 
+
-
4) The biobrick ligation products were used to transform K12 cells and were plated appropriately. The successful amino acid-antibiotic cassettes were also transformed into EPI300, DH5a, and BL21 cells with the appropriate recombineering plasmid, and plated. To date, all the tet resistance strains have been plated, as well as Mehul's Amp resistant strain. The kanamycin resistant strains remain recalcitrant, perhaps due to, again, the inconsistent performance of the kanamycin plates.
+
-
 
+
-
5) Joe, looking into rhodococcus growth, decided to make some TB.
+
-
 
+
-
It should be noted that several of the transformations sparked during the electroporation procedure. Some success has been reported with sparked cultures, so they were plated anyways.
+
-
 
+
-
As an update, here is a table showing what has been done so far.
+
-
 
+
-
{| class="wikitable"
+
-
|-
+
-
| Gene||Type||PCR||Ligation||Transformation
+
-
|-
+
-
|TrpA+Tet resistance||Recombineering||Successful||NA||?
+
-
|-
+
-
|TrpB+Kan resistance||Recombineering||Unsuccessful||NA||No
+
-
|-
+
-
|ArgE+Tet resistance||Recombineering||Successful||NA||?
+
-
|-
+
-
|ArgC+Kan resistance||Recombineering||Unsuccessful||NA||No
+
-
|-
+
-
|TyrA+Tet resistance||Recombineering||Successful||NA||?
+
-
|-
+
-
|MetA+Amp resistance||Recombineering||Successful||NA||?
+
-
|-
+
-
|MetA||Biobrick||Successful||Done||?
+
-
|-
+
-
|ArgE||Biobrick||Successful||Done||?
+
-
|-
+
-
|TrpA||Biobrick||Successful||Done||?
+
-
|-
+
-
|TrpB||Biobrick||Successful||Done||?
+
-
|-
+
-
|TyrA||Biobrick||Successful||Done||?
+
-
|-
+
-
|ArgC||Biobrick||Unsuccessful||No||No
+
-
|}
+
-
 
+
-
It should be noted that when a ligation has been done, it does not mean that it was successful. We will not know until we see growth on the plates and a cPCR of the colonies has been done. Even then, it would be useful to have it sequenced.
+
-
 
+
-
-Jacob
+
-
 
+
-
 
+
-
Worked with Jacob on steps 3 and 4 listed above. I made the gel, practised loading samples into wells (with Ruichen), and learned that the machine used to see the results is finnicky. Unfortunately, the 1 kb reference ladder did not work (unexpectedly and for unknown reasons).
+
-
 
+
-
(Step 3) Transformation and plating of the biobrick PCR products were the last things we did today. Of the 5, only TrpB sparked during electroporation. 1 uL of PCR product was used to transform cells.
+
-
 
+
-
(Step 4) Of the successful amino acid/antibiotic cassettes, Jacob and I transformed genes "4", "7", "12" (Tet resistant) and "M3" (Amp resistant)- names of the genes to follow - into EPI300, DH5a, and BL21 all with the recombineering plasmid pIJ790. The ones that sparked during electroporation are: 4 (EPI300), 4 (DH5a), 7 (BL21), and M3 (BL21). Quite a mix, but the addition of DMSO and MgCl<sub>2</sub> to boost PCR efficiency increased the salt concentration of the solution and may have caused sparking. Gene 4 had both compounds added and 7 had DMSO (unsure about M3 - that was Mehul). Only 1 uL of PCR product was used to transform cells to reduce chances of sparking, which may have helped.
+
-
 
+
-
- [[User:Grace.yi|Grace.yi]]
+
-
 
+
-
== June 19==
+
-
 
+
-
Designed primers with Jacob and Mehul
+
-
 
+
-
- [[User:Ruichen|Ruichen]]
+
-
 
+
-
Designed primers with Ruichen and Mehul.
+
-
 
+
-
More specifically, the primers were for constitutively expressed GFP, RFP, and YFP to be put in the PCC1FOS vector. An EcoRI site was added just before the start of the promoter, and a BamHI site was added to the 5' end of the reverse complement. The melting temperature was normalized to about 59°C, and the primers were checked for any secondary structure.
+
-
 
+
-
There were no colonies on the plates transformed with any putative biobricks, so the procedure was attempted again.
+
-
 
+
-
-Jacob
+
-
 
+
-
== June 20==
+
-
 
+
-
Plated the cultures with 3I plasmid on Kan for control and Chlor for testing purpose.
+
-
 
+
-
- [[User:Ruichen|Ruichen]]
+
-
 
+
-
Still no biobrick colonies. Tried again with an altered ligation protocol. Also ordered a variety of kill switches from the registry, along with Joe's Panamanian Pseudomonas Rhamnosyltransferase. Repeated PCR on things that had previously failed, and got the final amino acid biobrick and Ruichen's knockout resistance construct. Joe's knockout resistance cassette remains recalcitrant. It should be noted that I ran reactions with either PFU or phusion, and only the phusion worked. This may have been because of the low volume (0.5 uL) used.
+
-
 
+
-
At the meeting, the gasoline debacle was discussed, as was the general progress of the project, and potential fixes for some of the problems that we have been having.
+
-
 
+
-
I suggested to Joe that he use the 2-17F biobrick for his forward kanamycin resistance cassette, and other ideas were thrown around as well.
+
-
 
+
-
-Jacob
+
-
 
+
-
After consultation, we moved the IGTS8, IGTS9, and Rhodococcus JHV1 strains that were growing on terrific broth and also ones growing on LB from the 37C shaker to one at 30C.
+
-
 
+
-
- [[User:Tingchiawong|Tingchiawong]]
+
-
 
+
-
==June 21==
+
-
 
+
-
The culture has been proven to be transformed successfully with the 3I plasmid! They grew colonies on the Chlor plate and not the Kan plate.
+
-
 
+
-
Learned how to miniprep
+
-
 
+
-
Checked out some cool posters for the microbiology Conference, and found that there is a assay of interest. The assay (2,6 DCPIP) helps organisms to grow on a diesel contaminated soil.
+
-
 
+
-
- [[User:Ruichen|Ruichen]]
+
-
 
+
-
Today was relatively fruitful. All amino acids have been PCR'd out of the genome, all the resistance cassettes are ready for the knockouts, and several colonies appeared on the ArgE plate. One colony was selected and grown in culture. The rest of the biobrick ligations were redone and allowed to ligate overnight.
+
-
 
+
-
The digests of the products were done with EcoRI and PstI in buffer 3, as opposed to the EcoRI-HF and PstI in buffer 2 we did previously. This was done because PstI has 100% activity in buffer 3, as opposed to 75% activity in buffer 2. Also, we learned that EcoRI-HF has 0% activity in buffer 3.
+
-
 
+
-
-Jacob
+
-
 
+
-
==June 22==
+
-
 
+
-
Transformed with the overnight (Room temperature) ligation, using 1 uL ligation mix and 1800V. Joe then plated the cells after recovery.
+
-
 
+
-
Cameron reported knockouts!
+
-
 
+
-
Found a MetA biobrick colony on the appropriate plate from 2 days ago. Decided to grow it up in culture and run a PCR to confirm that it was successful.
+
-
 
+
-
Had previously grown up 10 mL of each fluorescent strain (GFP, RFP, YFP), but the plate reader became unavailable.
+
-
 
+
-
Wanted to design mutagenesis primers, but couldn't remember what software to use. For future reference:
+
-
 
+
-
NCBI for FASTA
+
-
 
+
-
Nebcutter to find sites
+
-
 
+
-
Virtual Ribosome for associated peptide
+
-
 
+
-
Wikipedia for codon table
+
-
 
+
-
PrimerX for basic design.
+
-
 
+
-
To whom it may concern, I think doing 4 sequential site directed mutagenesis reactions on dszA is going to take far more time and nearly as much money as simply synthesizing it.
+
-
 
+
-
Joe appears to be successfully growing IGTS8 (Rhodococcus) and IGTS9 (Bacillus) in TB at 30°C, and Pseudomonas putida at 37°. He also reports being unsuccessful in doing a cPCR for the dszD gene.
+
-
 
+
-
-Jacob
+
-
 
+
-
The IGTS8 and IGTS9 cell cultures in both terrific broth and LB grew dense and cloudy at 30C.  Glycerol stocks will be made out of these.
+
-
 
+
-
We have been having issues with having no colonies grow on plates with cells transformed with PCR products ligated into vectors.  One possible cause is the transformation itself.  All of Joe's transformation resulted in a spark.  He had added 5 uL ligated to competent cells.  The high salt concentration may have heavily influenced the sparking.  So, I redid some of the transformations in a smaller volume of ligate.  I transformed Joe's ligated 3:3 dszB, 3:3 dszC, and 3:1 dszB plasmids into EPI300 cells.  Added 0.5 uL ligate to 40 uL competent cells and electroporated them.  The 3:1 dszB cells sparked during electroporation.  The cells were left to recover undisturbed at 37C for an hour before plating 50 uL transformants onto Chlor plates.
+
-
 
+
-
- [[User:Tingchiawong|Tingchiawong]]
+
-
 
+
-
==June 23==
+
-
 
+
-
Made competent ''Pseudomonas putida'' cells using the [[Competent Cell Production]] protocol.
+
-
 
+
-
We had trouble getting the cells transformed with the ligated amino acid pathway genes to grow when plated.  We're unsure if the problem lies in the digest, the ligation, or the transformation.  Thus, we decided to redo all these steps.
+
-
 
+
-
Re-digested the "M," "TA," "TB," "TyrA," and "ArgC" PCR products provided by Jacob.  Made a master mix of 5 uL NEB buffer 2, 0.5 uL BSA, 0.5 uL EcoRI HF, 0.5 uL PstI, and 18.5 uL dH2O.  Incubated each of the mixtures of 4 uL master mix plus 4 uL PCR product in a Thermocycler for ____.
+
-
 
+
-
Re-ligated digest of "M," "TA," "TB," "TyrA," and "ArgC."  We suspect that it may be the ligase we used that was at fault for the undesired results seen in previous experiments.  So, we decided to add in more ligase and add in ligase from 2 different sources/tubes.  We added 1 uL pSBIC3 EP, 4.0 uL dH2O, 1 uL T4 ligase buffer, and 0.5 uL from each tube of T4 ligase were added to 3 uL of the respective digest products.  A control was also set up so that there was only plasmid DNA added.  The ligate mixtures were placed in the Thermocycler to incubate at 16C for 30 minutes and inactive at 65C for 20 minutes.
+
-
 
+
-
John miniprepped MetA and ArgE, which are being prepared as potential biobricks.
+
-
 
+
-
A new set of PCR reactions was set up for MetA (miniprepped potential biobrick), TyrA (colony PCR), ArgE (miniprepped potential biobrick), and yddG (colony PCR). Made a ligation master mix by combining 60 uL Phusion 5X buffer, 147 uL dH2O, 15 uL DMSO, 12 uL MgCl2, and 18 uL 10 mM dNTP.
+
-
 
+
-
- [[User:Tingchiawong|Tingchiawong]]
+
-
 
+
-
==June 25==
+
-
 
+
-
Designed primers for SDM of dszB gene
+
-
 
+
-
PCRed yddG and Try A with Marianne
+
-
 
+
-
Had a Skype meeting with Calgary iGEM team (details can be found in '''Team Collaboration''' section
+
-
 
+
-
-[[User:Ruichen|Ruichen]]
+
-
 
+
-
==June 26==
+
-
 
+
-
Designed primers for SDM of dszC gene
+
-
 
+
-
Joined Jacob and Joe for transformation of Heat(chemical) competent cells:
+
-
 
+
-
{| class="wikitable"
+
-
|-
+
-
| Plasmid transformed||Volume of Ligation Mixture used (µL)
+
-
|-
+
-
|dszB, dszC (3 to 3 ratio, Old and New)||3
+
-
|-
+
-
|MetA, TrpA, TrpB, TryA, ArgC, positive and negative control||7
+
-
|}
+
-
 
+
-
-[[User:Ruichen|Ruichen]]
+
-
 
+
-
 
+
-
==June 27==
+
-
 
+
-
Run the gel of Try A and yddg genes at 95 Volts for 1 hr and 30 min, with 1Kb ladder.
+
-
 
+
-
-[[User:Ruichen|Ruichen]]
+
-
 
+
-
==June 30==
+
-
In the last few days, we have confirmed that our restriction enzymes work, that our electroshock cuvettes do not due to corrosion from bleach, and still have had no confirmed biobricks. We picked another candidate colony from the ArgE plate because the PCR of the plasmid between VF2 and VR (standard biobrick sequencing primers) was only about 200 bp, while we were expecting about 1.2 kb. We got the same result from our potential MetA colony. We received new ligase, and if that doesn't work, we are going to try the gibson assembly method. Using a previous restriction digest, we attempted another ligation of our new potential biobricks.
+
-
 
+
-
The first set of chemically competent cells did not grow anything. The procedure was repeated and completed today. The cells were transformed with a known plasmid and appropriately plated.
+
-
 
+
-
Rafael gave us 4 new electroshock cuvettes to temporarily replace the ones that we had destroyed. Joe used 3 of them to test his knockout, and as of today, there is one candidate colony growing on a 1/4 antibiotic concentration plate. A battery of tests have yet to be run to confirm that it is a knockout.
+
-
 
+
-
Yesterday, we went to Dr. Ramey, who had taught students who made a successful knockout using the lambda red system. They used a different recombineering plasmid than we did, and we received this plasmid. It was, however, growing in a strain that we were unfamiliar with, and we decided to isolate the plasmid and transform our Epi300 cells with it.
+
-
It is currently growing in a culture at 30°.
+
-
 
+
-
We received only the TrpB gene from the registry, and successfully grew it on a plate. We are now growing a culture to isolate the plasmid and if Joe's knockout is indeed a knockout, we can characterize the existing biobrick part by complementation.
+
-
 
+
-
We ordered the Gibson assembly kit, and it ran upwards of 700 dollars for 50 reactions.
+
-
 
+
-
Joe successfully PCR'd out the DszD gene from Rhodococcus genomic DNA that he isolated.
+
-
 
+
-
We made Tet, Kan, and Amp plates with 1/2 and 1/4 antibiotic concentration to try growing our knockouts. There was no growth from a resistance-less K12 cell on any of the plates tested.
+
-
 
+
-
Our PCR for the yddg and tyrA genes was unsuccessful.
+
-
 
+
-
-Jacob
+
-
 
+
-
==July 1==
+
-
There are many (hundreds) of colonies on Joe's recombineering plates, and the concentration of colonies goes up as the concentration of antibiotic goes down. It appears that the addition of arabinose to the culture did nothing to increase recombineering efficiency. There are several large, well defined colonies on the full antibiotic plate. It appears that 2 days are required for sufficient growth at 30°.
+
-
 
+
-
With this success in mind, I PCR purified a couple of other knockouts (ArgE Tet and TrpB Kan) and transformed them, reusing the electroshock cuvettes we borrowed from Rafael. A pack of 50 was ordered so we could do more than 4 transformations per day. They are currently growing in the 30°C room on the second floor.
+
-
 
+
-
We only had one chlor plate left, and 4 potential biobricks which were to be put on the chloramphenicol resistant pSB1C3 plasmid. Since there was only one plate (and one electroshock cuvette), only the MetA biobrick ligation product was transformed.
+
-
 
+
-
The pKD46 recombineering vector that we received from Dr. Ramey grew well overnight at 30°C, and was miniprepped, and then transformed into the Epi300 strain. The recovery period was done at 30°C as well. If the transformation is successful, Ting will make electrocompetent cells out of the Epi300+pKD46.
+
-
 
+
-
-Jacob
+
-
 
+
-
==July 7==
+
-
 
+
-
In the past couple of days, we have found candidate knockouts for all relevant genes but trpA, and attempted to confirm that they were all actual knockouts by PCR. Unfortunately, none of the PCR's worked. We suspect that it was because of a bad enzyme, so some of the reactions were repeated. Currently, the results are inconclusive as to whether or not the knockouts are actually knockouts. We also ordered the relevant knockouts from the Keio collection.
+
-
 
+
-
Colonies with potential biobricks of trpA, tyrA, argE, metA, and dszD were successfully grown. This time, chemically competent cells were used, and they were plated on 1/2 concentration chlor plates. We also transformed and grew out the previously characterized minC biobrick.
+
-
 
+
-
To physiologically characterize the knockouts, we made M9 plates, and plan to set up an amino acid gradient. Sadly, we ran out of M9 salts before we could make tet plates, so some knockouts can't be tested in this manner yet. We also made spec plates to grow some things from the registry, but a lawn grew on the negative control. Looking into the literature, it looks like the concentrated antibiotic we were using was not the correct strength.
+
-
 
+
-
PCR of the yddg gene failed yet again. It is possible that the primers are not correct.
+
-
 
+
-
-Jacob
+
-
 
+
-
 
+
-
==July 9==
+
-
 
+
-
Does anybody else update the wiki these days?
+
-
 
+
-
We have been in contact with Calgary regarding kill switches. More details to follow later.
+
-
 
+
-
One of our potential knockouts and a positive control were grown on the M9 plates. There was growth on both plates, although the growth on the positive control was much faster and greater than the potential knockout. Since the potential knockout was able to grow on the amino acid-less M9 media, it appears to be not auxotrophic. Characterization with PCR continues to be difficult, and it was suggested that we simply sequence the strains.
+
-
 
+
-
The plates with the potential knockouts were placed in the 37° incubator overnight to cure the plasmid.
+
-
 
+
-
The potential biobricks were successfully miniprepped, and a PCR was performed to isolate what was actually between the VF2 and the VR primers in the plasmid. The product will then be run on a gel, and if it appears the correct length, will be sent for sequencing.
+
-
 
+
-
Our Pseudomonas competent cells appear to work (conferring antibiotic resistance), but they are not expressing rfp.
+
-
 
+
-
We made spec plates, but a lawn grew with our transformed cells. Interestingly, on top of this lawn grew several well defined colonies. We attempted to grow these colonies (and the proper negative controls) in varying amounts of spectinomycin. It is possible the plates had insufficient spec, or that the strain we are working with is naturally resistant (there was a lawn, but no large colonies, on the negative control).
+
-
 
+
-
Several more biobricks from the registry were transformed.
+
-
 
+
-
Joe made M9 plates with an amino acid, to further test his knockout.
+
-
 
+
-
-Jacob
+
-
 
+
-
==July 10==
+
-
 
+
-
The PCR to isolate and amplify the insert from the potential biobrick showed many bands, characteristic of non-specific primer binding. As another test to see if the insert was correct, we cut with EcoRI and PstI to look for the appropriate insert size, and indeed found that there was an insert at about the right size. With this in mind, simply sequencing from the plasmid is the next step. However, our sequencing company only accepts orders until 1:30 PM, and it was 4:30 before everything that needed to be done was done.
+
-
 
+
-
The transformations from yesterday's transformations appeared to work. Also, interestingly, the colony from on top of the spec plate lawn, but not the spec plate lawn itself, was able to grow in 40 and 80 ug/mL spec.
+
-
 
+
-
Cameron reports knockouts from Yale.
+
-
 
+
-
-Jacob
+
-
 
+
-
==July 15==
+
-
 
+
-
Sent the potential biobricks for sequencing last Friday, ordered primers for mutagenesis on DszC, ordered primers for attachment of fluorescent genes to amino acid genes, received all but yddg knockouts from Yale, found that the Arg knockouts work as described. Several other primers were also ordered, but I am not privy to their nature.
+
-
 
+
-
An attempt at doing an experiment to calibrate the fluorescent proteins for the plate reader (looking for quenching, linear relationship between OD and fluorescence, etc) was done on Sunday, but as it turns out, we had the wrong promoter for a fluorescent protein, and the wrong antibiotic resistance for one of the other proteins. Given this, we gave up, and decided to do it later with the proper strains.
+
-
 
+
-
Recently, there was a meeting with the kill switch team from Calgary. They suggested doing more sequencing, and that is indeed a good idea if we want to pursue this project. I think that the intein primers were ordered, but again, I am not privy to exactly what was ordered.
+
-
 
+
-
Competent cells were made from each of the knockouts, and they worked well. The yddg strain was ordered through collaboration with Calgary as well as the keio collection proper in Japan.
+
-
 
+
-
Today, I watched two pairs of eyes. One was black, and the other grey. And while the owners thereof, for the space of five seconds, walked past each other, the grey shot at the black, and the black fiddled the grey. Bonus points for identifying the poem without using a search engine.
+
-
 
+
-
Our Gibson assembly kit came! Doing the math, it turns out that it is about 30 times more expensive than gold, so we will use it wisely. Personally, I would have liked to just order the enzymes and buffer reagents, but c'est la vie. Our biobrick assembly kit also came, but that is rather less exciting.
+
-
 
+
-
The sequencing results from our amino acid biobricks came back, and it looks like only MetA was successful. It should be noted that the melting temperatures of the Vf2 and the VR primers are 60°, for cPCR validation of biobricks.
+
-
 
+
-
Several new combinations of fluorescent genes, antibiotic resistances, and Keio strains were made. We used the wrong ones last weekend, but now, we are going to test TyrA- +GFP, TrpA- +RFP, MetA- +YFP, and also wildtype with the fluorescent genes. Recently, we switched backbones for the 13M RFP to Psb1C3, for we do not know the provenance of our current psb1C3 with rfp (we suspect it might be on the lac operon, as per the registry guidelines), and we also put the GFP on the psb1C3 instead of a kanamycin resistant plasmid, because we were transforming into kanamycin resistant auxotrophs.
+
-
 
+
-
Just for qualitative fun, we are trying to grow the ArgC- and the ArgE- together in M9 to see if anything results, with negative controls for both. We also tried growing a wildtype with a TrpB auxotroph with rfp to look for qualitative red fluorescence. The fluorescence calibration experiment must be done before we can do these sorts of things quantitatively.
+
-
 
+
-
We miniprepped 4/6 of the biobricks that we ordered from the registry. We intend on sequencing them in the near future. We, lacking LB amp plates at the time, plated one on an M9 plate, but we now think that the strain the registry sent us is auxotrophic for something. We replated on LB amp after making new plates. The last one that we ordered did not arrive.
+
-
 
+
-
Joe made M9 plates with and without 1 mM arginine, and it was found that the two arginine auxotrophs grew as expected.
+
-
 
+
-
We bought a fridge for our new office, but have yet to fill it. If anyone with extra snacks reads this and wants to help, our fridge is currently underfilled.
+
-
 
+
-
Overnight cultures have been set up to make competent cells out of DH5a, K12, and IGTS8.
+
-
 
+
-
Some new polymerase system has found its way into our freezer, and nobody seems to know its provenance. Since we do not share the freezer, we assume some kindly benefactor gifted it to us.
+
-
 
+
-
-Jacob
+
-
 
+
-
==July 17==
+
-
 
+
-
Today, we made dh5a and k12 competent cells. We also ran a cPCR on our biobrick colonies that turned out to not be biobricks.
+
-
 
+
-
As said yesterday, we grew the two arg auxotrophs together, and they grew substantially more (~0.15 OD600) than the negative control. The wt grew to an OD of about 1. We are growing them for another night to see if the OD of the mix increases at all.
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Since sequencing confirmed a MetA biobrick, we transformed K12 cells with the remaining stock of our plasmid, so we could amplify it.
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All relevant transformed strains from yesterday grew well on the plates. We are now ready to properly do the fluorescence calibration experiment, but due to time constraints, we are going to do it on Thursday.
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-Jacob
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[[File:Pseudomonas Crystals.jpg|900x1000px]]
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==July 19==
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We tested the growth rate of our 3 main auxotrophs in various (log scale from 100 pM to 10 mM) concentrations of the amino acids to do monod kinetics. We also miniprepped our metA biobrick (so we have enough to send to the registry and use for experiments), new potential candidates for other biobricks (tyrA and ArgC), our construct which is identical to 13M on plate 3, except on a different plasmid, and a biobrick that we received from the registry. Sequencing to follow.
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Joe has, to the best of my knowledge, identified potential biobrick colonies for the DszB,C, and D. Again, sequencing to follow.
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We have, in the past few days, designed a plasmid that will aid in the testing of biobricks. The primers are to be designed and ordered today, if all goes according to plan. The primers that we tried to order through the lab a while ago spent some time in bureaucratic limbo, but I think they have been ordered now. Again, no one appears completely sure of what has been ordered, and one of our chief contacts on the subject has apparently gone on vacation.
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It appears that Joe and Grace were attempting the fluorescence calibration experiment, but things apparently were going wrong, and we have not yet analyzed the data completely.
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Concerning the kill switch plasmid parts, we want to take the psb1C3 plasmid, add a constitutively expressed LacI gene, and a lac promoter and rbs immediately before the cut sites. This way, a toxic protein can be well controlled. In fact, while we are designing this for toxic proteins, it could have uses in general protein production. Previous attempts for using the lac promoter on a high copy plasmid have failed leaky expression) due to the lack of the LacI protein produced in the genome. This new plasmid design remedies this, and will be accomplished by Gibson assembly.
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-Jacob
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==July 20==
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Obtained the data from the 3 main auxotrophs growth rate dependences of amino acid concentration.
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Obtained the reading of fluorescence-population correlation plate.
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-Ruichen
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==July 22==
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Joe did 5 more fluorescence-population correlation plate, though found out that the yfp is not expressing correctly.
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-Ruichen
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== July 23==
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Analyzed the data, and found out that the growth rate and the amino acid (Tyr) concentration has a correlation as follows:
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[[File:growth-rate at different try concentration_british_columbia_2012.png|900x1000px]]
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*Figure 4. cell growth-rate at different Tyr concentrations
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[[File:growth-rate at different tyr concentration log scale_british_columbia_2012.png|900x1000px]]
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*Figure 5. Log scale of cell growth-rate at different Tyr concentrations
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It was found that the cells depleted the nutrient quickly at low Tyr concentration, and for future experiments it is suggested to use lower initial cell concentrations to extend the time of its exponential growth phase. Also, the wild type has almost the exact growth rate as the autotroph when the the Try concentration is exceptionally high (0.01 M).
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-Ruichen
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==July 26==
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The growth rate and the amino acids (Met and Trp) concentration has a correlation as follows:
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[[File:growth-rate at different met concentration_british_columbia_2012.png|900x1000px]]
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*Figure 6. cell growth-rate at different Met concentrations
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[[File:growth-rate at different Met concentration log scale_british_columbia_2012.png|900x1000px]]
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*Figure 7. Log scale of cell growth-rate at different Met concentrations
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[[File:growth-rate at different trp concentration_british_columbia_2012.png|900x1000px]]
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*Figure 8. cell growth-rate at different Trp concentrations
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[[File:growth-rate at different trp concentration log scale_british_columbia_2012.png|900x1000px]]
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*Figure 9. Log scale of cell growth-rate at different Trp concentrations
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-Ruichen
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==August 2==
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*Field trip to Chevron Burnaby site!
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[[file: refinery visit UBC 2012 1. png]]
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==August 9==
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Having trouble uploading the refinery trip pictures because the files exceed the 2MB limit! Any tips on shrinking file sizes would be much appreciated!
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- [[User:Grace.yi|grace.yi]]
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Latest revision as of 01:42, 4 October 2012

British Columbia - 2012.igem.org
UBC iGEM 2012 notebook

Welcome to our Notebook!

Our Notebook is sorted by sub-project. Please use the menu to navigate through our Notebook entries and follow our progress over the year.

UBC iGEM Life chronicles the conferences, socials and life outside-of-the-lab of our team.

Biobrick Construction describes how our team build our parts and improved existing parts from the Parts Registry.

Bio-Desulfurization recounts the steps our team took to distribute and assess the efficiency of the DSZ bio-desulfurization pathway in a microbial consortia.

Consortia Dynamics details our team's efforts in measuring population ratios within microbial consortia based on fluorescence readings.

Consortia Tunability elucidates our team's progress in creating easily tunable microbial consortia based on interdependent auxotrophies.