Team:Tokyo-NoKoGen/light
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+ | <a href="#future work"><li><strong>future work</strong></li></a> | ||
+ | <a href="#scaffold"><li><strong>RNA Scaffold</strong></li></a> | ||
+ | <li><strong></strong></li> | ||
+ | <li><strong></strong></li> | ||
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Introduction<BR> | Introduction<BR> | ||
Right sensor<BR> | Right sensor<BR> | ||
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[4] Xue-Nong Zhang et al. (1999) The specificity of interaction of archaeal transducers with their cognate sensory rhodopsins is determined by their transmembrane helices, Proc. Natl. Acad. Sci. USA <BR> | [4] Xue-Nong Zhang et al. (1999) The specificity of interaction of archaeal transducers with their cognate sensory rhodopsins is determined by their transmembrane helices, Proc. Natl. Acad. Sci. USA <BR> | ||
[5] Wouter D. Hoff et al. (1997) Molecular mechanism of photosignaling by archaeal sensory rhodopsin, Anmu. Rev. Biophys. Biomol. Struct.<BR> | [5] Wouter D. Hoff et al. (1997) Molecular mechanism of photosignaling by archaeal sensory rhodopsin, Anmu. Rev. Biophys. Biomol. Struct.<BR> | ||
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Revision as of 11:37, 27 September 2013
Introduction
Right sensor
1. YF1/ FixJ
YF1/ FixJ system is blue light (480 nm) sensing system. YF1 is a fusion protein, heme-binding PAS sensor domain of FixL from Bradyrhizobium japonicum(FixL) and the LOV blue light sensor domain of Bacillus subtilis YtvA(YtvA). The Histidine kinase YF1 employs a light-oxygen-voltage, blue light photosensor domain. FixJ is YF1’s cognate response regulator. In the absence of blue light, YF1 phosphorylates FixJ, and phosphorylated FixJ drives robust gene expression from the FixK2 promoter(Ref. 1,2,3).
2. Rhodopsin
Halophilic archaea, such as Halobacterium salinarum and Natronobacterium pharaonis (N. pharaonis) show phototaxis by responding to changes in light color and intensity using receptors called sensory rhodopsin I and II (SRI and SRII). The SR proteins are seven-transmembrane retinylidene photoreceptors, which transmits blue light signal (λmax 487 nm) to their corresponding transducers HtrI and HtrII respectively. signals to Htr proteins via helix-helix interaction. Htr protein consists of two transmembrane helices and a cytoplasmic methyl-accepting and His-Kinase domain, and belongs to histidine kinase / phosphoreregulator two-component system for regulating cells’ flagellar motors for phototaxis (Ref. 4,5).
Objective
Reguration of taRNA expression by light sensor protein
Method
-Design
We construct HHRs containing RBS is downstream of the Pconst promoter (low), and taRNA which binds HHR and inactivates HHR’s self-cleaving activity is on downstream of PompC or Pfixk2 promoter. Under dark condition, taRNA is expressed and inactivates HHR’s self-cleaving activity. On the other hand, under blue light condition, taRNA isn’t expressed and HHR self-cleaves. Becouse of HHR self-cleaving, GFP’s RBS is exposed and GFP is expressed.
-Parts construction
1. YF1/ FixJ
2. Rhodopsin
1.) BioBrick part BBa_K769003 (Tokyo-NoKoGen2012) which consists of a chimeric sensory rhodopsin and its cognate transducer from N. pharaonis and the histidine kinase domain of EnvZ from E. coli, that is fused with HHR connecting with GFP (BBa_K1053004(Tokyo-NoKoGen2013)) or HHR* connecting with GFP (BBa_K1053005(Tokyo-NoKoGen2013)) by using Overlap PCR.
2.) The PCR products were gel purified and digested with EcoRⅠ and PstⅠ. The digested products were ligated into pSB1A3 vector. 3.) Constructed plasmids were transformed into E.coli DH5α.
-Evaluation
YF1/ FixJ
1.) Construct made in –Parts construction- was used to transform into E.coli DH5α.
2.) The transformants were pre-cultured in 3 mL LB medium overnight at 37 degrees celsius, under dark condition.
3.) 450 μL of pre-cultures were inoculated into 3 mL LB medium inside and incubated either under dark or blue light conditions. OD595 and GFP fluorescence intensity were measured at certain time.(Fig. 1)
Result
Future Work
We want to synchronize oscillation cycle with Twinkle.coli by light sensor protein.
Reference
[1] J. Mol. Biol.(2009) 385, 1433-1444
[2] J. Mol. Biol. (2012) 416, 534-542
[3] Bacteriology (1998) 180, 5251-5255
[4] Xue-Nong Zhang et al. (1999) The specificity of interaction of archaeal transducers with their cognate sensory rhodopsins is determined by their transmembrane helices, Proc. Natl. Acad. Sci. USA
[5] Wouter D. Hoff et al. (1997) Molecular mechanism of photosignaling by archaeal sensory rhodopsin, Anmu. Rev. Biophys. Biomol. Struct.
Right sensor
1. YF1/ FixJ
YF1/ FixJ system is blue light (480 nm) sensing system. YF1 is a fusion protein, heme-binding PAS sensor domain of FixL from Bradyrhizobium japonicum(FixL) and the LOV blue light sensor domain of Bacillus subtilis YtvA(YtvA). The Histidine kinase YF1 employs a light-oxygen-voltage, blue light photosensor domain. FixJ is YF1’s cognate response regulator. In the absence of blue light, YF1 phosphorylates FixJ, and phosphorylated FixJ drives robust gene expression from the FixK2 promoter(Ref. 1,2,3).
2. Rhodopsin
Halophilic archaea, such as Halobacterium salinarum and Natronobacterium pharaonis (N. pharaonis) show phototaxis by responding to changes in light color and intensity using receptors called sensory rhodopsin I and II (SRI and SRII). The SR proteins are seven-transmembrane retinylidene photoreceptors, which transmits blue light signal (λmax 487 nm) to their corresponding transducers HtrI and HtrII respectively. signals to Htr proteins via helix-helix interaction. Htr protein consists of two transmembrane helices and a cytoplasmic methyl-accepting and His-Kinase domain, and belongs to histidine kinase / phosphoreregulator two-component system for regulating cells’ flagellar motors for phototaxis (Ref. 4,5).
Objective
Reguration of taRNA expression by light sensor protein
Method
-Design
We construct HHRs containing RBS is downstream of the Pconst promoter (low), and taRNA which binds HHR and inactivates HHR’s self-cleaving activity is on downstream of PompC or Pfixk2 promoter. Under dark condition, taRNA is expressed and inactivates HHR’s self-cleaving activity. On the other hand, under blue light condition, taRNA isn’t expressed and HHR self-cleaves. Becouse of HHR self-cleaving, GFP’s RBS is exposed and GFP is expressed.
-Parts construction
1. YF1/ FixJ
2. Rhodopsin
1.) BioBrick part BBa_K769003 (Tokyo-NoKoGen2012) which consists of a chimeric sensory rhodopsin and its cognate transducer from N. pharaonis and the histidine kinase domain of EnvZ from E. coli, that is fused with HHR connecting with GFP (BBa_K1053004(Tokyo-NoKoGen2013)) or HHR* connecting with GFP (BBa_K1053005(Tokyo-NoKoGen2013)) by using Overlap PCR.
2.) The PCR products were gel purified and digested with EcoRⅠ and PstⅠ. The digested products were ligated into pSB1A3 vector. 3.) Constructed plasmids were transformed into E.coli DH5α.
-Evaluation
YF1/ FixJ
1.) Construct made in –Parts construction- was used to transform into E.coli DH5α.
2.) The transformants were pre-cultured in 3 mL LB medium overnight at 37 degrees celsius, under dark condition.
3.) 450 μL of pre-cultures were inoculated into 3 mL LB medium inside and incubated either under dark or blue light conditions. OD595 and GFP fluorescence intensity were measured at certain time.(Fig. 1)
Result
Future Work
We want to synchronize oscillation cycle with Twinkle.coli by light sensor protein.
Reference
[1] J. Mol. Biol.(2009) 385, 1433-1444
[2] J. Mol. Biol. (2012) 416, 534-542
[3] Bacteriology (1998) 180, 5251-5255
[4] Xue-Nong Zhang et al. (1999) The specificity of interaction of archaeal transducers with their cognate sensory rhodopsins is determined by their transmembrane helices, Proc. Natl. Acad. Sci. USA
[5] Wouter D. Hoff et al. (1997) Molecular mechanism of photosignaling by archaeal sensory rhodopsin, Anmu. Rev. Biophys. Biomol. Struct.