Team:XJTU-CHINA/Parts

Parts

Basic & Composite Parts

Part NameBasic/CompositeNumberDescription
(4S)-limonene synthaseBasicBBa_K3052001Convert GPP to limonene
(S)-linalool synthase: LGFBasicBBa_K3052002Convert GPP to linalool (alternatives 1)
(S)-linalool synthase: RXYBasicBBa_K3052003Convert GPP to linalool (alternatives 2)
(S)-linalool synthase: DHJBasicBBa_K3052004Convert GPP to linalool (alternatives 3)
Precursor CircuitBasicBBa_K3052010a series of enzymes used for producing GPP
Ptrc+limonene synthase+bacterial terminatorBasicBBa_K3052012Production circuit for validation of limonene synthase
Ptrc+linalool synthase(LGF)+bacterial terminatorBasicBBa_K3052013Production circuit for validation of linalool synthase (LGF)
Ptrc+linalool synthase(RXY)+bacterial terminatorBasicBBa_K3052014Production circuit for validation of linalool synthase (RXY)
Ptrc+linalool synthase(DHJ)+bacterial terminatorBasicBBa_K3052015Production circuit for validation of linalool synthase (DHJ)
light controlling circuit - LGFCompositeBBa_K3052021Red light control system enabling selective production of limonene and linalool
light controlling circuit - RXYCompositeBBa_K3052022Red light control system enabling selective production of limonene and linalool
light controlling circuit - DHJCompositeBBa_K3052023Red light control system enabling selective production of limonene and linalool
Light-fluoresce circuit (GFP&RFP)CompositeBBa_K3052030Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of sfGFP and mRFP
Light-fluoresce circuit (GFP)- LGFCompositeBBa_K3052031Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of sfGFP
Light-fluoresce circuit (GFP)- RXYCompositeBBa_K3052032Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of sfGFP
Light-fluoresce circuit (GFP)- DHJCompositeBBa_K3052033Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of sfGFP
Light-fluoresce circuit (RFP) - CSCompositeBBa_K3052034Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of mRFP
sfGFPBasicBBa_K3052041Superfolder green fluorescent protein
mRFPBasicBBa_K3052042m1 red fluorescent protein
Cph8-pompC-sfGFPCompositeBBa_K3052054This part is the composite product of Golden Gate Assembly of our light-controlling circuit.
Cph8-pompC-LSCompositeBBa_K3052055This part is the composite product of Golden Gate Assembly of our light-controlling circuit.
CI+Pλ+mRFP+ho1-pcyACompositeBBa_K3052056This part is the composite product of Golden Gate Assembly of our light-controlling circuit.
CI+Pλ+LGF+ho1-pcyACompositeBBa_K3052057This part is the composite product of Golden Gate Assembly of our light-controlling circuit.
CI+Pλ+RXY+ho1-pcyACompositeBBa_K3052058This part is the composite product of Golden Gate Assembly of our light-controlling circuit.
CI+Pλ+DHJ+ho1-pcyACompositeBBa_K3052059This part is the composite product of Golden Gate Assembly of our light-controlling circuit.

Part Collection

Overview

A light control system forms a twp-phases switch can be used to control the production of limonene and linalool by only changing physical conditions. The central part of this light control system is a photosensitive protein --Cph8. When the environment is dark, this protein will be normally activated and binds with OmpR, the formed complex can activate the expression of the downstream genes, produces CS and a thermosensitive inhibitor CI that can block the expression of gene regulated by pλ, which is LS here. CI responses to changes in temperature, specifically it will be deactivated when temperature rises to 42 degrees, thereby LS expresses again. With the presence of red light, Cph8 will be deactivated and expression of CS and CI will terminate.

Generally, the red light in our device will be shut down at night, which means linalool will be synthesized for a nice sleep while limonene will start to be produced with red light in the morning to remove sleepy mind.

Furthermore, we have constructed several light-fluorescent circuits wherein the CS and LS are substituted by superfolder GFP and m1RFP respectively. The peak value and of the two phases and responding time of the switch can be calculated by measuring the fluoresce intensity. In order not to cause the interference between GFP and RFP, they are also placed on two different circuits.

Part NameBasic/CompositeNumberDescription
light controlling circuit - LGFCompositeBBa_K3052021 Red light control system enabling selective production of limonene and linalool
light controlling circuit - RXYCompositeBBa_K3052022 Red light control system enabling selective production of limonene and linalool
light controlling circuit - DHJCompositeBBa_K3052023 Red light control system enabling selective production of limonene and linalool
Light-fluoresce circuit (GFP&RFP)CompositeBBa_K3052030Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of sfGFP and mRFP
Light-fluoresce circuit (GFP)- LGFCompositeBBa_K3052031Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of sfGFP
Light-fluoresce circuit (GFP)- RXYCompositeBBa_K3052032Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of sfGFP
Light-fluoresce circuit (GFP)- DHJCompositeBBa_K3052033Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of sfGFP
Light-fluoresce circuit (RFP) - CSCompositeBBa_K3052034Light-fluorescent circuit for validation of light-controlling circuit by measuring the intensity of mRFP

Part Table

Please include a table of all the parts your team has made during your project on this page. Remember part characterization and measurement data must go on your team part pages on the Registry.

     <groupparts>iGEM19 XJTU-CHINA</groupparts>