Team:BYU Provo/Notebook/SmallPhage/Winterexp/Period1/Dailylog

From 2013.igem.org

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<font size="4"> '''3/15/13''' </font>
<font size="4"> '''3/15/13''' </font>
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- TODAY MARKS THE START OF OUR SMALL PHAGE TEAM!
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- TODAY MARKS THE START OF THE PHAGE PURIFICATION TEAM!
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- Went over iGem parts database, PCR database.
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- Today we began researching for a procedure to begin purifying phage. We have found that T7 can self assemble with scaffolding proteins without forming procapsids, and that T4 has only been know to form procapsids. We may not have to worry about T4 if the other group isn't using it.
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- Shared results from individual background research.
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- Important findings
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: Our small phage group will focus on T7 and Q beta
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:Phage have been purified before
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:: T7 – very well studied, research done on its use for drug delivery
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:Phage capsids can self assemble
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:: Q beta – relatively well characterized, much smaller than T7 28nm vs 60nm
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:Phage (amber strain) can have their genes knocked out to make a hollow phage
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- Did more background research and brainstormed ideas for a plan of attack
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: Decided to focus on T7 first, since it’s easily acquired and more info is available
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Revision as of 20:31, 31 May 2013


Small Phage March - April Notebook: March 15 - March 31 Daily Log



Overview
March-April
May-June
July-August
September-October

3/15/13

- TODAY MARKS THE START OF THE PHAGE PURIFICATION TEAM!

- Today we began researching for a procedure to begin purifying phage. We have found that T7 can self assemble with scaffolding proteins without forming procapsids, and that T4 has only been know to form procapsids. We may not have to worry about T4 if the other group isn't using it.

- Important findings

Phage have been purified before
Phage capsids can self assemble
Phage (amber strain) can have their genes knocked out to make a hollow phage


3/16/13

- Did more background reading for T7; literature search for possible plan of attack

3.16 Plan of Attack


3/18/13

- Presented current understanding and plans for the future

Decided on a two-focus attack
Evolution – selecting naturally occurring smaller phages
Site directed mutagenesis – using genome info and comparative studies to identify sites to target

- More background research

Possible ways of making phage smaller


3/20/13

- Background research on phiX174: the only phage we have in stock

- Performed 3.20 Phage Viability Test


3/21/13

- Checked up on results for 3.20 Phage Viability Test


3/22/13

- Discussed results from tittering experiment (preliminary experiment 1)

Contamination mostly likely resulted from the step involving suspending phage in LB – obvious contamination in the LB bottle
One of the stock phage solution had contamination as well

- Discussed step of attack with Dr. Grose

Decided to go with T7, if necessary Qbeta
Need to learn to make top agar at various concentrations
Need to do more background research and decide whether to assemble phage capsid in vitro (plasmid + E coli) or do direct mutagenesis of phage genome
Need to correspond with the isolation team

- Sequencing will be for individual genes to cut down cost

Need to design primers and get to know the genome of the phage

- Learnt about Mega5 to compare genome and protein sequence


3/25/13

- Reported on past week and plans for this week

From last week: titering experiment
This week
Learn to make top agar at various concentrations
Background research to determine in vitro assembly vs altering genome – look into specific techniques
Comparing genome of phage and decide on possible site-directed mutagenesis options

- Start working on designing our site directed mutagenesis

Qbeta vs MS2
Look for places where sequences are significantly different
Might be worthwhile to look at capsid structure to identify the regions where interactions between subunits take place
Qbeta vs T7 major
No real consensus – more worthwhile to compare capsid protein sequence of T7 with those that have similar size to it
T7 major vs minor
Minor is longer, but not necessary – the tail overhang is due to ribosome moving two codons downstream instead of three
Suggest we can direct mutation to the poly-U site and prevent ribosome slippage
Qbeta major vs minor
Just continue transcribing after it reaches the stop codon. What does the stop codon code for?

- Research into in-vitro assembly vs direct mutation of phage genome

It seems that we’ll need to clone the genome of the phage into a plasmid and let it assemble in an E coli
Using chemicals we can induce random mutations in phage – might be worthwhile if selection in agar is not working as well.


3/27/13

- More research on genome of enterobacteria phage

Generation of the major and minor capsid in Q beta
Capsid protein information research
Capsid protein sequence comparison

- Outlined protocol for producing stock top agar

4.3 Top Agar Stock Preparation


3/29/13

- Worked on our first team presentation.


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