Team:Johns Hopkins/Notebook

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Contents

Groups

iGEM Groups 1.0
iGEM Groups 2.01
iGEM Groups 2.02

Important reminders and notes

 [Make general comments here, so they don't get lost in peoples e-mail boxes]
 
 July 11: Primers for group 1 were delivered yesterday.
 July 11: Lab meeting at 7:30PM in the lab to go over miniprep protocol.
 July 15: Lab meeting at 6:30PM with Jessica. Have status reports ready. 
          Bring labtop if you can.
 July 17: Restriction Digest/Sequencing Preparation (with James) 6:00PM.
 July 21: 6:00PM or 6:30PM Lab meeting with Jessica. Have status reports ready.
 July 29: 7:00PM Lab Meeting. Meet in Conference Room across from lab. Have Status Reports ready
 Aug. 05: 7:00PM Lab Meeting. Meet in Conference Room across from lab. Have Status Reports ready.
 Aug. 12: 7:00PM Lab Meeting. Have Status Reports Ready. 
               Journal Club Topic: Fluorescent Proteins; James and Ingrid.
 Aug. 19: 7:00PM Lab Meeting. Have Status Reports Ready. 
               Journal Club Topic: Yeast Mating Pathway/MAP Kinase Pathway ; Jasper and Tejas
 Aug. 26: 7:00PM Lab Meeting. Have Status Reports Ready!
               Journal Club Topic: S. cerevisiae Promoters; Allison and Nate
 
 EVERY TUESDAY 7 PM LAB MEETING! Mudd 120
 
 September: Do well in classes. Do what you can for the team when you can.
 
 October: Do well on midterms. Good Luck!!
 
 Oct. 28, 2008: 7:00 PM Lab Meeting,
               REALLY IMPORTANT LAB MEETING. SHOW UP. BRING SUMMARIES.
               BE PREPARAED FOR A LONG NIGHT OF PREPARATION.

Journal Club

8/12/08:Fluorescent Proteins- Ingrid and James
Fluorescent Protein Powerpoint , Paper: Green Fluorescent Protein as a Marker for Gene Expression

8/19/08: Yeast Mating Pathway/MAP Kinase Pathway- Jasper and Tejas
MAP Kinase Powerpoint , Paper: Map Kinase Scaffold

8/26/08: Yeast Promoters- Allison and Nate
Gene structure powerpoint
Paper:
Genomic Footprinting of the Promoter Regions of STE2 and STE3 genes in the Yeast Saccharomyces cerevisiae
Additional Reading:
Interspecies variation reveals a conserved repressor of alpha-specific genes in Saccharomyces yeast
A genomic code for nucleosome positioning

09/09/08: Yeast as a model organism- Ambhi and Raghav
Yeast as a model organism (Ppt presentation)
Papers:
Functional characterization of the S. cerevisiae genome by gene deletion and parallel analysis
The original Yeast two hybrid paper

Data

To upload data, go [http://www.jhu.edu/iGEM/X_files/Read2.html here], click on [http://www.jhu.edu/iGEM/X_files/Read2.html upload data], and provide the necessary information and results.

How to submit data:

1. log-in as you once had to from the www.jhu.edu/iGEM website "login"

  • User: ****** etc...
  • Pass: ***** etc...

2. click on UPLOAD DATA from the 'x-files page'
3. add data etc.... and click submit: This generates a webpage and the URL to it is linked in the page you are directed to after you press submit. Copy that URL and past it into the wiki or into the web-browser url box to see what it looks like.
\* If you find that the picture you are uploading is not showing up e-mail Tejas.

Alternatively, you can also just upload files directly to the iGEM wiki. Either way is fine.

Status Reports

The status reports of each group below will continuously be updated as we work on the biobricks. The following PDFs contain progressive versions of our status reports as we continue through the sex detector project; they are added weekly. To learn more about each biobrick, please refer to the Biobrick page.

Status Report 2.1 - 07/12/08
Status Report 2.2 - 07/17/08
Status Report 2.3 - 08/07/08

Please BOLD the most recent step that you have completed. Do this by placing the tag < b > in front of and </ b > at the end of what you would like to be placed in bold (with no space between letter and carrot symbol (<,>). Click on your group name for the detailed changes occurring to each biobrick.

GROUP 1: Fluorescent Proteins

Summary for Fluorescent Proteins Group

 Date: Oct 19, 2008
 Status report by: Tejas
 Part no.: BBa_K110017 -> BBa_K110023
 Part Description: yESapphire , mCherry, venusYFP, and Citrine 
Work on YFP has progressed, though the biobrick system is giving diffiulty in obtaining a useful construct. Moreover, the YFP sequence may not fully match the expected sequence. However, fluoroescent proteins (yeast optimized) sent us as STABS from MIT are showing promise, and may be ready for some use by the Jamboree date if all goes well. Work will continue on venusYFP and mCherry (though mCherry unfortunately contains a restriction site). Sapphire must be started over sue to technical difficulties getting a clone.

GROUP 2: MATa Specific-promoters

Summary for MATa Specific Promoters Group

 Date: August 19, 2008
 Status report by: Allison and Nate
 Part no.: BBa_K110008 -> BBa_K110016
 Part Description: A promoters: MFA1 (L+R) and Ste2 (R+L), respectively. 
 Sequences were analyzed. BBa_K110016 had a perfect clone. Since there is not much miniprep left,
 a transformation was done to generate more clones with the correct sequence. BBa_K110008 had one
 mutation. Another transformation into a Kan BioBrick vector was attempted but was unsuccessful.
 September 2: Transformation into a Cam BioBrick was completed, and the restriction digestion of
 the Biobricks from the pGEM vector were checked, comparing the inserts intended to be ligated to
 the Kan Biobrick vector and the inserts intended to be ligated to the Cam Biobrick vector;
 notice that the old inserts are either too faint to see or are not there:
 lanes2thru5OldDigest0816NewDigest0816
 Lanes: 1 (2-log ladder), 2 BBa_K110008 old, 3 BBa_K110016 old, 4 BBa_K110008 new, 5 BBa_K110016
 new, 6 (2-log ladder)
 A restriction digestion with EcoRI and PstI was done to check for the insert after ligated and
 transformed with the Cam Biobrick vector: 090308digest08_16_cam
 Lanes: 1 (old aliquot of 2-log ladder), 2 (new aliquot of 2-log ladder), 3 skip, 4 BBa_K110008,
 5 skip, 6 BBa_K110016
 September 7: Since the restriction digestions have been unclear as to whether or not the ligation
 of MFA1 and STE2 into the Cam BioBrick vector was successful, another transformation was done
 into the Cam Biobrick vector, restriction digestions on the previous mini prep from the 1st
 transformation and 2nd transformation completed, as well as PCR on the mini preps using the
 corresponding primers for BBa_K11008 and BBa_K110016. In the gel: after the 2 log ladder, the
 next for lanes have the restriction digestion products (approx 500 ng of plasmid each) and the
 second four lanes are pcr products in the following order: 08 (1st cam transformation) 16 (1st
 cam transformation) 08 (2nd transformation) 16 (2nd transformation) for both the restriction
 digestion and the pcr. The final lane was a control used in the pcr, unrelated to the project.
 090708digestpcr0816
 The restriction digestion did not show the insert, while pcr showed a band of the expected size
 in two of the four samples.

GROUP 3: Short Two-Way Stops

Summary for Short Two-Way Stops Group

 Date:October 7,2008
 Status report by: James
 Part no.:BBa_K110012;11;10;13;17
 Direct transformation into Biobrick vectors has shown interesting results via analysis with PCR
 and cutting with Nsp1. The data is somewhat hard to decipher, but I am working on it...
 Media:10-4-08 digest of 10;11;13.jpg
 Media:10-04-08 PCR verification.jpg

GROUP 4: Long Two-Way Stops & MAT(alpha) Specific Promotors

Summary for Long Two-Way Stops & MAT(alpha) Specific Promoters Group

 Date: July 29, 2008
 Status report by: Jaime
 Part no.: BBa_K110001, BBa_K110003, BBa_K110005, BBa_K110006
 Part Description: Long Two-way Stops & Mat(alpha) specific promotors
 [http://www.jhu.edu/iGEM/Group4:LongTwo-wayStopsANDMATalphaSpecificPromoters/2008-7-25.Restriction%20Enzyme%20Digest%20of%20Mini-Preps.Jaime.html Restriction Enzyme Digest of Mini-Preps]
 
 Summary here:
 Need to be sequenced.

GROUP 5: MATa Specific Promoters II

Summary for MATa Specific Promoters II Group

 Date: August 12, 2008
 Status report by: Richard Group
 Part no.: BBa_K110009
 Part Description: Ste2
 Summary here: We hit a dead end when we ran out of the miniprep DNA. We are going to have to start
 again from scratch        I suppose.
 Part no.: BBa_K110015
 Part Description: Mfa1
 Summary here: Same place as on Ste2.

GROUP 6: Vectors

Summary for Vectors Group

 Date: July 31, 2008
 Status report by: Tejas
 Part no.: BBa_K1100XX -> BBa_K1100YY
 Part Description: Vectors for concatenating and executing BioBricks
 
 The vectors to be used were delivered to us in STABS from MIT. They are pSB4A5 (amp), pSB4C5
 (cam), pSB3K5 (kan), and pSB4K5 (kan). The vectors come pre-inserted with the ccdB gene,
 preventing growth in all E. coli strains except DB3.1. Total amount of DNA extracted from mini
 -prep is estimated between 5 to 20 ug per vector. Restriction digests confirmed the extracted
 DNA was vectors.([http://www.jhu.edu/iGEM/Group6:Vectors/2008-7-24.Vectors%20(CAM,AMP,KAN3,KAN4)%20after%20Digest.Tejas.html Digestion of all four vectors]).
 Vectors were transformed into JM109, BB#2198 (DB3.1), and BB#5777 (DB3.1). All gave expected
 results. 1 ug of each vector was digested for future use. Gel of digestion shows DNA is correct.
 ([http://www.jhu.edu/iGEM/Group6:Vectors/2008-8-12.Digest%20of%20vectors,%20ready%20for%20distribution.Tejas.html Vectors ready for insertions])

GROUP 7: Microscopy/Yeast

Summary for Microscopy/Yeast Group

 Date: Oct 27, 2008
 Status report by: Tejas
 Part no.: no Biobrick part
 Part Description: Yeast vector pRS414 to be temporarily used.
 
 The yeast vector pRS414 will be temporarily used until it can be adjusted to meet registry standards. pRS414 contains one EcoRI
 site and one PstI site, both directly adjacent to each other. This may make digest a little less efficient. Procedure involves first
 digesting with Pst1 for one hour, then digesting with EcoRI overnight (sequentially, not simultaneously), as EcoRI can tolerate low
 overhangs better than PstI, according to the NEB catalog. The following is a gel run on an E/P simultaneous digest of pRS414.
 Lane one is log 2 ladder. Lane 2 is uncut pRS414 (supercoiled so runs fater). Lane 3 is cut vector. It may have only one cut, with
 half at EcoRI and half at PstI, depending on efficiency of the second cut occuring after the first.
pRS414 digest

GROUP 8: Assembly Progress

Summary of Biobrick Assemblies:

 Date: