IGEM:Harvard/2006/Cyanobacteria/Literature

Cyanobacteria background and practicality

 * 1) Genetic noise in the cyanobacterial oscillator
 * 2) *Very good PhD thesis by Jeffrey Chabot which has general cyanobacteria information and culturing information. Also deals with using a GFP reporter. From the vanO lab.
 * 3) Molecular biology of circadian rhythms / edited by Amita Sehgal
 * 4) * Peng's taking a look at it now; in Biolabs
 * 5) Cyanosite
 * 6) * Lots of information on cyanobacteria culture mediums and good links to other resources.

Western Blotting Protocols
Links and descriptions taken from Protocol-Online

Preparation of protein from human cells Preparation of Bacterially Expressed Proteins SDS-PAGE Separating Gels (Hoeffer baby gels) Electrophoretic Transfer for Dry Blots Electrophoretic Transfer For Wet Blots Detection of Antigen on Membranes Photograph the membranes Recipes ''
 * 1) Western Blotting- A Beginner's Guide
 * 2) *In this 9-page protocol, you can find everything you need to know about Western blotting including lysate preparation, denaturation and reduction of protein, electrophoresis (tips on positive controls, MW markers, loading controls), tips on transferring, blocking and incubation.
 * 3) Western Blotting Protocol (Lab of Dr. Mark Barton Frank, Oklahoma Medical Research Foundation)
 * 4) *''The most complete Western protocol including:
 * 1) Howell Lab
 * 2) *Procedures for preparation of cell lysate, gel, electrophoresis, transfer, antibody detection and stripping membranes.
 * 3) Corbett Lab
 * 4) EnCor Biotechnology
 * 5) *Well written Western protocol in plain English
 * 6) *The accompanying SDS-PAGE gel electrophoresis protocol.

Papers on latest findings

 * 1) 1 pmid=15831759
 * 2) 2 pmid=10649285
 * 3) 3 pmid=16729054
 * 4) 4 pmid=12727878
 * 5) 5 pmid=16882723
 * 6) 6 pmid=16707582
 * 7) 7 pmid=12429697
 * 8) 8 pmid=15731760
 * 9) 9 pmid=6091052
 * 10) 10 pmid=16236728
 * 1) Implementing KaiABC in-vitro and demonstrating circadian oscillation
 * 2) * Hetmann's review here
 * 3) Good review paper on cyanobacteria oscillator, featuring clearly what is unknown
 * 4) * Peng's review here
 * 5) General review paper of current cyanobacteria knowledge recommended by Dave
 * 6) Information on measuring Phosphorylated KaiC
 * 7) * See here for review from paper + image
 * 8) More on measuring phosphorylated KaiC (SDS-PAGE)
 * 9) *Cited in the Nakajima paper
 * 10) Circadian rhythms in rapidly dividing cyanobacteria, Kondo et al., 1997
 * 11) Independence of Circadian Timing from Cell Division in Cyanobacteria, Mori and Johnson, 2000
 * 12) Ratio of KaiABC in vivo

Possible Molecular Mechanisms
After a review of the literature, one will find that not much is known about the molecular mechanism behind the cyanobacteria oscillator; we only have theories of what could be true. Below are some of them, evidence that supports it, and evidence to the contrary.

Activator/Repressor

 * Barkai and Leibler 2000
 * Modeled after Eukarayotic systems
 * Probably not true
 * KaiABC vary as activator/repressor
 * Transcription/translation not essential (invitro experiment)

KaiC phosphorylation model

 * Xu et al 2003
 * Previous research showed
 * Cells without KaiA had all unphosphorylated KaiC
 * Cells without KaiB has all phosphorylated KaiC
 * KaiA protein constant
 * Iwasaki et al. 2002
 * Note: If this model holds true than our experiment in E. coli should show some silencing of genes downstream of KaiBC? We could test it by putting a reporter right downstream of KaiBC easily... very interesting.
 * Note: This would be a good question to ask someone: if we put a reporter right downstream of KaiBC what should happen to that reporter.

KaiB spaitotemporal localization model

 * Kitayama et al 2003
 * Idea that KaiB rotates location from the membrane to cytosol
 * Doesn't the in-vitro experiment disprove this?

Transcriptional/Translational independent model

 * Tomita, Nakajima et al 2005
 * Minimal oscillator and an extended timing system
 * Best oscillation system currently developed

KaiC helicase model

 * Proposed by C Johnson (unpub.)
 * Looked at the 2 endogenous plasmids in cyanobacteria and found that they varied supercoiling state
 * Hypothesis is that KaiC acts as a helicase which controls transcription access over genes

Primer Design
IGEM:Harvard/2006/Cyanobacteria/PrimerDesign


 * According to BLAST, KaiC (519aa) is only 81% identical between PCC7942 and 6803.
 * These papers might have our promoter sequences:
 * 1) 1 pmid=9727980
 * 2) 2 pmid=16102014
 * 3) 3 pmid=10564489
 * Especially paper #3, which states that there are 4 known sigma factors.
 * Paper #2 says that -55 to 14 was experimentally determined to be the promoter/operon area for kaiBC (not kaiA :; -35 and -10 have homology to sigma 70 in E. coli

Kai Gene sizes

 * KaiA size: 855bp
 * 903bp with BioBrick ends
 * KaiB: 309bp
 * 357bp with BioBrick ends
 * KaiC: 1560bp