Melbourne/Blue Photosensor
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The two component system involves: ComP, a two-component sensor histidine kinase and ComA, a two-component response regulator. Phosphorylated comA will upregulate transcription at the psfA/srfA promoter [[Melbourne/Lab_BL_Notebook/PsrfA_sequence|psfA/srfA]], as part of the AND gate. | The two component system involves: ComP, a two-component sensor histidine kinase and ComA, a two-component response regulator. Phosphorylated comA will upregulate transcription at the psfA/srfA promoter [[Melbourne/Lab_BL_Notebook/PsrfA_sequence|psfA/srfA]], as part of the AND gate. | ||
- | [[Image:Melbourne SrII-HtrII.JPG|200px|SrII-HtrII]] + [[Image:Melbourne ComP.JPG|200px|ComP]] | + | '''In summary''': |
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+ | [[Image:Melbourne SrII-HtrII.JPG|200px|SrII-HtrII]] + [[Image:Melbourne ComP.JPG|200px|ComP]] >>>>>> [[Image:Melbourne HtrII-ComPchimera.jpg|200px|HtrII-ComP fusion]] | ||
====[[Melbourne/Blue Photosensor Background|Blue Photosensor Background]]==== | ====[[Melbourne/Blue Photosensor Background|Blue Photosensor Background]]==== |
Latest revision as of 13:44, 26 October 2007
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As part of the overall system design, a blue light sensitive pathway is required in addition to the red light sensitive pathway. Described below is the blue photosensor. This involves the design of a chimeric trans-membrane protein. A blue light sensitive (~500nm) integral photo receptor SopII that dimerizes with a histidine kinase; HtrII (As described in 2001 paper).
The kinase domain of HtrII will be replaced with the kinase domain of ComP. ComP forms part of a two-component system from Bacillus subtilis - and this will not affect any endogenous networks in e.coli. The two component system involves: ComP, a two-component sensor histidine kinase and ComA, a two-component response regulator. Phosphorylated comA will upregulate transcription at the psfA/srfA promoter psfA/srfA, as part of the AND gate.
In summary:
Contents |
Blue Photosensor Background
Method
Possible extensions:
- Determination of optimal wavelength:
- use of different substrates (different retinals)
- Separate variants all submitted as BioBricks.
- Submitted synthesized ComP and ComA as BioBricks
- Model the pathway to determine rate-limiting step
References
This part is based on “Photostimulation of a Sensory Rhodopsin II/HtrII/Tsr Fusion Chimera Activates CheA-Autophosphorylation and CheY-Phosphotransfer in Vitro” by Vishwa D. Trivedi and John L. Spudich, Biochemistry 2003, 42, 13887-13892. Acording to this article the peak sensitivity is to 500+/-5nm, and results in a 3 fold activation of the Tsr (wild type). CheA,W,Y connected system.
It is proposed to replace Tsr fusion with homolgouse ComP. SRII-HtrII fusion to which ComP is fused ComA when phosphorylated by ComP is an activator for PsfA promoter sequence from Dr Alan Grossman (M.I.T.) Based on
- SRII-HtrII-Tsr fusion from Prof J.L. Spudich (university of Texas)melb:spudich N sequence
- BBa_J51000 (ComP) kinase
- BBa_J51001 (ComA) activator
PARTS:
- SrfA promoter
- ComA protein generator
- SRII-ComP photosensor
- Any phyco construction genes?
SRII is from Natronomonas pharaonis.
Tsr fusion was made by Jung et al J Bacteriol 183 6365-6371 (2001) they propose a mechanism.