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Latest revision as of 11:37, 19 October 2016

Parts
Overview

    This Part Collection consists of parts from three different systems: oscillation system, light-dependent control system and logical gate system. Parts numbered from K1886000 to K1886002 belong to the oscillation system, in which two quorum sensing auto inducers, AHL and DPD reach their peak value alternately. Parts numbered from K1886003 to K1886006 and K1886017 belong to light-dependent control system, which can output either green or red florescent protein in response to different inputs (green or red light). Parts numbered from K1886010 to K1886013 belong to AND gate system. It can realize the coupling of the output of the two systems mentioned above. The combination of AHL/DPD and green/red light results the production of green/red florescent protein. There is other AND gate circuits that use IPTG/ARA and red/green light as input, in order to test the coupling of light-dependent control system and the AND gate. The range of part number is from K1886000 to K1886017.

Parts for Oscillation

Part Number Part Type Short Description Long Description
BBa_K1886000 Device pluxR->luxS luxS is controlled by pluxR promoter. luxS is a kind of DPD synthetase, which could produce DPD (4,5-dihydroxy 2,3-pentanedione) under the cooperation of Pfs enzyme. DPD exists widely in Gram-negative bacteria and Gram-positive bacteria as the signaling factor for quorum sensing, in order to complete the information transfer process within different kinds of bacteria.
BBa_K1886001 Device AHL single-cycled oscillation pluxL-luxR-pluxR-luxI(LAA tag)-pluxL-luxR-pluxR-aiiA(LAA tag) This circuit is composed of the constitutive promoter -- broken Ptet and membrane protein cph8. Under dark conditions, protein cph8 could transfer its phosphoryl group to intracellular protein ompR (ompR is native protein carried by E.coli), and this process could be inhibited by 650-nm light.
BBa_K1886002 Device AHL,DPD double-cycled oscillation pluxL-luxR-pluxR-luxI(LAA tag)-pluxL-luxR-pluxR-aiiA(LAA tag)-luxpR-luxS Two molecules of luxR binds with AHL (catalyzed by luxI), and this compound will promote the activity of pluxR. pluxR controls the expression of gene aiiA , encoding the enzyme which degrades AHLs. And all of these form an AHL single-cycled oscillation.


Parts for Light Control

Part Number Part Type Short Description Long Description
BBa_K1886003 Device PcpcG2-sfGFP-ccaR This circuit is composed of the inducible promoter cpcG2 and reporter gene and intracellular protein gene ccaR. ccaR could activate the cpcG2 promoter after being phosphorylated. cpcG2 could be activated by the phosphorylated ccaR protein, and induce the expression of reporter gene sfGFP.
BBa_K1886004 Coding ccaS This circuit is composed of the constitutive promoter and photosensitive protein gene ccaS . ccaS protein is membrane protein. After being activated by 520-nm light, it could transfer its phosphoryl group to the intracellular protein ccaR,and this process could be inhibited by 650-nm light.
BBa_K1886005 Device Constitutive promoter-ho1-pcyA This circuit is composed of the constitutive promoter, ho1 chromoprotein and pcya chormoprotein. They facilitate Membrane protein ccaS and cph8 to be activated by light of certain wavelength.
BBa_K1886006 Device broken Ptet-cph8 This circuit is composed of the constitutive promoter -- broken Ptet and membrane protein cph8. Under dark conditions, protein cph8 could transfer its phosphoryl group to intracellular protein ompR (ompR is native protein carried by E.coli), and this process could be inhibited by 650-nm light.
Parts for AND Logic Gate

Part Number Part Type Short Description Long Description
BBa_K1886007 Device AND GATE-input This is the input part of AND GATE. After being induced by IPTG, plac promoter activates the expression of T7 RNA polymerase which contains two amber mutations (T7 ptag) . After being induced by L-arabinose, pBAD promoter activates the expression of a special tRNA (supD), which is used to identify amber mutation. In the wild-type E.coli, amber mutation will inhibit the translation of T7 RNA polymerase. Therefore, only when the two inputs exist together, T7 RNA polymerase can be expressed, and then T7 promoter can be activated to express the downstream gene.
BBa_K1886008 Device AND GATE-output-1 This is a report system to test the AND GATE made up of SupD tRNA coding gene and T7 polymerase with two amber mutations. T7 promoter is a very specific promoter which is transcribed only by specific T7 RNA polymerase. Following the PT7 promoter is the reporter gene GFP, Only when the two inputs are given, the GFP gene can be expressed.
BBa_K1886009 Device AND GATE-output-2 This is a report system to test the AND GATE made up of SupD tRNA coding gene and T7 polymerase with two amber mutations. T7 promoter is a very specific promoter which is transcribed only by specific T7 RNA polymerase. Following the PT7 promoter is the reporter gene RFP, Only when the two inputs are given, the RFP gene can be expressed.
BBa_K1886010 Device AND GATE-input(AHL+green light) The circuit to receive input signals is composed of AND GATE, quorum sensing promoter and light-controlled promoter. After being induced by AHL, pLuxR promoter activates the expression of T7 RNA polymerase (T7 ptag) which contains two amber mutations. After being induced by green light, PcpcG2 promoter activates the expression of a special tRNA (supD), which is used to identify amber mutation. In the wild-type E.coli, amber mutation will inhibit the translation of T7 RNA polymerase. Therefore, when AHL and green light exist together, T7 RNA polymerase will be expressed, and then T7 promoter will be activated to express the downstream gene.
BBa_K1886011 Device AND GATE-input(AHL+red light) The circuit to receive input signals is composed of AND GATE, quorum sensing promoter and light-controlled promoter. After being induced by AHL, pLuxR promoter activates the expression of T7 RNA polymerase (T7 ptag) which contains two amber mutations. The expression of a special tRNA (supD), which is used to identify amber mutation, is activated by Pλ promoter without the restraint of CL protein. In the wild-type E.coli, amber mutation will inhibit the translation of T7 RNA polymerase, and red light could inhibit the produce of CL protein(for more information, see the part"PompC-NOT Gate"). Therefore, when AHL and red light exist together, T7 RNA polymerase will be expressed, and then T7 promoter will be activated to express the downstream gene.
BBa_K1886012 Device AND GATE-input(DPD+green light) The circuit to receive input signals is composed of AND GATE, quorum sensing promoter and light-controlled promoter. After being induced by DPD, plsrA promoter activates the expression of T7 RNA polymerase which contains two amber mutations (T7ptag) . After being induced by green light, PcpcG2 promoter activates the expression of a special tRNA (supD), which is used to identify amber mutation. In the wild-type E.coli, amber mutation will inhibit the translation of T7 RNA polymerase. Therefore, when DPD and green light exist together, T7 RNA polymerase will be expressed, and then T7 promoter will be activated to express the downstream gene.
BBa_K1886013 Device AND GATE-input(DPD+ red light) The circuit to receive input signals is composed of AND GATE, quorum sensing promoter and light-controlled promoter. After being induced by DPD, plsrA promoter activates the expression of T7 RNA polymerase which contains two amber mutations(T7ptag) . The expression of a special tRNA (supD), which is used to identify amber mutation, is activated by Pλ promoter without the restraint of CL protein. In the wild-type E.coli, amber mutation will inhibit the translation of T7 RNA polymerase, and red light could inhibit the produce of CL protein(for more information, see the part"PompC-NOT Gate"). Therefore, when DPD and green light exist together, T7 RNA polymerase will be expressed, and then T7 promoter will be activated to express the downstream gene.
BBa_K1886014 Device AND GATE-input(red light+IPTG) The circuit to receive input signals is composed of AND GATE, plac promoter and light-controlled promoter. After being induced by IPTG, plac promoter activates the expression of T7 RNA polymerase (T7 ptag) which contains two amber mutations. The expression of a special tRNA (supD), which is used to identify amber mutation, is activated by Pλ promoter without the restraint of CL protein. In the wild-type E.coli, amber mutation will inhibit the translation of T7 RNA polymerase, and red light could inhibit the produce of CL protein(for more information, see the part"PompC-NOT Gate"). Therefore, when IPTG and red light exist together, T7 RNA polymerase will be expressed, and then T7 promoter will be activated to express the downstream gene.
BBa_K1886015 Device AND GATE-input(green light+IPTG) The circuit to receive input signals is composed of AND GATE, plac promoter and light-controlled promoter. After being induced by IPTG, plac promoter activates the expression of T7 RNA polymerase (T7 ptag) which contains two amber mutations. After being induced by green light, PcpcG2 promoter activates the expression of a special tRNA (supD), which is used to identify amber mutation. In the wild-type E.coli, amber mutation will inhibit the translation of T7 RNA polymerase. Therefore, when IPTG and green light exist together, T7 RNA polymerase will be expressed, and then T7 promoter will be activated to express the downstream gene.
BBa_K1886016 Device AND GATE-input(IPTG+ara) This is the input part of AND GATE. After being induced by L-arabinose, pbad promoter activates the expression of T7 RNA polymerase which contains two amber mutations (T7 ptag) . After being induced by IPTG, plac promoter activates the expression of a special tRNA (supD), which is used to identify amber mutation. In the wild-type E.coli, amber mutation will inhibit the translation of T7 RNA polymerase. Therefore, only when the two inputs exist together, T7 RNA polymerase can be expressed, and then T7 promoter can be activated to express the downstream gene.
Contact Us
Room 413,Biology lab center, Zijingang Campus
Zhejiang University, YuHangTang Road NO.866
Hangzhou, China
iGEM ZJU-China 2016 Team
igem_zjuchina_2016@outlook.com