Team:BYU Provo/Notebook/CRISPR/febapr

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BYU 2014 Notebook

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3/17/2014 Michael Linzey
Exclusion genes
- Defective prophage is the often the exclusion gene
- E14 containts the lit gene, lit protein interacts with the major head protein of T4 casing translation inhibition
- Lit and gol interact causing the cleavage of the translation elongation factor, this kills the phage and the bacteria
- Rex gene from the lambda phage
- Also the pif gene on the F plasmid inhibits T7 and other related phages
- Lit inhibits most even T phages
- In unstructured environment the abortive system is not very effective, however in a structured environment the abortive system is helpful.

3/19/2014 Michael Linzey
- Instructed by Dr. Grose to focus on crispr system
Research on CRSPRS
- 3 types of CRSPR systems
- http://www.genome-engineering.org/crispr/
- http://crispr.u-psud.fr/cgi-bin/crispr/SpecieProperties.cgi?Taxon_id=323848
- There are for sure no crisprs in this genome
- http://crispr.u-psud.fr/crispr/CRISPRProperties.php?RefSeq=NC_008344&Taxon=335283
- Nitrosomonas eutropha gives the location of 3 crisprs
- Crisprs are subject to horizontal gene transfer
Found a paper that included the crispr coordinates for a bunch of different bacteria

3/21/14 Michael Linzey
Continued research on crisprs
- A complex of Cas proteins 5, 6, and 7 is required for the biogenesis and stability of crRNAs in Haloferax volcanii
- One of the most important genes/proteins is cas6. Cas 6 produces the crRNA’s, which directs the invader - degrading Cas protein complex to the invader
- Cas5, cas6, and cas 7 in a 1.7,1,8.5 relationship
Which genes are essential for crispr
- Cas 5, Cas 6, and Cas 7(see above)
- Cas 9 endonuclease, cuts up viral DNA
- Cas 4: grabs the invading DNA and incorporates it into the host genome
Structural basis for CRISPR RNA-guided DNA recognition by Cascade
- Cascade is a 405-kDa complex comprising five functionally essential CRISPR-associated (Cas) proteins (CasA1B2C6D1E1) and a 61-nucleotide CRISPR RNA (crRNA) with 5′-hydroxyl and 2′,3′-cyclic phosphate termini.
- This website gives hyperlinks to all of the proteins in the cascade complex, it links to the ncbi

4/07/2014 - Garrett Jensen.
- This week we worked Monday on our circuit design paper. The assignment is saved on my computer in the igem folder.

4/09/2014 - Garrett Jensen.
- today we worked on the circuit assignment more. We did not make primers for inserting our own spacers because dr grose told us not to just yet.
- Started doing plasmid preps of the promoters in the igem registry. We removed some of the primers from the igem plates and transformed them into E. coli. After this we plated them on lb/amp and incubated overnight. Friday we will harvest our plasmids from these cells in preparation for moving them into n multiformis.

4/11/2014 - Garrett Jensen
-today we are harvesting the plasmids from E. coli usig the plasmid DNA purification kit. We are following the instructions desi gives us to the letter!

4/27/14 - Garrett Jensen. Today we worked on amplifying our plasmid from the igem registry so that we have it ready to use when we get our crispr ready to move into e coli.
- Using E coli DH5α we added in 1 µL of igem plasmid, incubated on ice for 2 min
- Heat shock at 42C for 60 sec.
- Recovered on Ice for 5 minutes
- Incubated for 30 minutes at 37C
- Plated 100 µL on a plate with chloramphenicol. 400 µL on another plate with chloramphenicol. The plasmid is very concentrated, so transformation is usually very efficient. Plating all 500 µL of our bacteria would give us a whole lawn of bacteria, so we only will plate 100 so we can get individual colonies. We will need to pick a colony and start an overnight from that to do plasmid preps from next class

4/28/14- Garrett Jensen.
-I went in today to start our overnight, but no bacteria grew. Desi said we might be able to plate our cells after 30 minutes incubation but she always does 90. 30 must not have worked because none of our cells grew, but Jordan's did and he incubated his for longer.