IGEM:Harvard/2006/Cyanobacteria
From OpenWetWare
"Required Reading"
Cyanobacteria background and practicality
- Genetic noise in the cyanobacterial oscillator
- 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.
- Molecular biology of circadian rhythms / edited by Amita Sehgal
- Peng's taking a look at it now; in Biolabs
- Cyanosite
- Lots of information on cyanobacteria culture mediums and good links to other resources.
Papers on latest findings
- Nakajima M, Imai K, Ito H, Nishiwaki T, Murayama Y, Iwasaki H, Oyama T, and Kondo T. Reconstitution of circadian oscillation of cyanobacterial KaiC phosphorylation in vitro. Science. 2005 Apr 15;308(5720):414-5. DOI:10.1126/science.1108451 |
- Kondo T and Ishiura M. The circadian clock of cyanobacteria. Bioessays. 2000 Jan;22(1):10-5. DOI:10.1002/(SICI)1521-1878(200001)22:1<10::AID-BIES4>3.0.CO;2-A |
- Naef F. Circadian clocks go in vitro: purely post-translational oscillators in cyanobacteria. Mol Syst Biol. 2005;1:2005.0019. DOI:10.1038/msb4100027 |
- Xu Y, Mori T, and Johnson CH. Cyanobacterial circadian clockwork: roles of KaiA, KaiB and the kaiBC promoter in regulating KaiC. EMBO J. 2003 May 1;22(9):2117-26. DOI:10.1093/emboj/cdg168 |
- Implementing KaiABC in-vitro and demonstrating circadian oscillation
- Hetmann's review here
- Good review paper on cyanobacteria oscillator, featuring clearly what is unknown
- Peng's review here
- General review paper of current cyanobacteria knowledge recommended by Dave
- Information on measuring Phosphorylated KaiC
Incubator
We grow our cyanobacteria in a modified incubator with a timer-controlled flourescent light. The incubator has a shaking floor.
- Interior dimensions: 50 cm x 50 cm x 60 cm tall
- Lighting: 32 watt plus 22 watt flourescent circular lightbulbs. Measured light intensity on the floor varies from 2200-6000 lux.
Cyanobacteria care
- Optimum conditions for growth of cyanobacteria on solid media
- Contains comparisons of many different media for several strains, including PCC7942 and PCC6803.
- Working with algae
- General information on growing cyanobacteria
- Light conversion guide
- Conversion information of units supplied by Peter Weigele.
Marine (WH8102)
Freshwater (PCC7942 and PCC6803)
See protocols.
Protocols
Main article: IGEM:Harvard/2006/Protocols/Cyanobacteria
Possible Molecular Mechanisms
After a review of literature, one will find that not much is known about the molecular mechanism; 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
Possible Project Ideas
Important people to contact (/stalk)
- Prof. Alexander van Oudenaarden MIT
- Emailed, we can meet up with him when he gets back from Woods Hole first week of July
- May have many of the genes we want already on plasmids
- Jeffrey Chabot
- Post Doc who wrote the PhD thesis on cyanobacteria
- Probably knows a lot of information but I can't find his contact
- Prof. Susan Golden Texas A&M
- Is working on pretty much the same stuff we are looking at
- Peter Weigele MIT
- Post Doc who works with cyanobacteria
- Have emailed corresondance (see Peng); can get PCC7942 strains
- Prof. Andrew Knoll Harvard OEB
- Worked with evolutionary cyanobacteria
- Called; gave references to other experts around the area
- Prof. Stjepko Golubic BU
- Prof. Knoll said he knew a lot about cyanobacteria
- Prof. Colleen Cavanaugh Harvard OEB
Questions that we need to ask
- If we put a reporter downstream of kaiBC what happens to it
- What happens when we put a plasmid in cyanobacteria? Does it replicate?
- There are endogenous plasmids (2)
- PCC7942 has homologous recombination
- But we don't know if a plasmid will be maintained
- Do we know what the sigma factor is in Kondo et al
- Possible ways for reporting if oscillation works
- Any other mechanisms?
- How bad is the codon bias problem / would we need to actually mutate parts of the genome to move to E. coli?
- Is there any feasible reporter we can have in E. coli?
- How to grow WH8102?
- Difference in circadian clock b/t PCC7942 and PCC6903?
- Growth conditions in liquid: use thiiosulfate? Hours light/dark? General streaking?
- Ask Susan about the plasmids pAM1579 and pAM1303.