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	=Usage and Biology=		=Usage and Biology=
		+	Due to the small amount of benzo (a) pyrene in kitchen waste oil, due to its strong carcinogenic ability, it has adverse effects on the environment and human health. Therefore, we designed a related circuit to degrade benzo (a) pyrene. At the same time, in order to achieve controllability of degradation, we designed a red light switch to control the expression of degradation enzymes [1,2,6,7]. The gene circuit is shown below:
		+	<html>
		+	<figure>
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		+	<img src="https://static.igem.wiki/teams/4711/wiki/design/d15.webp"width="100%" style="float:center">
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		+	<figcaption>
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		+	<p style="font-size:1rem">
		+	Fig 1 Benzo[a]pyrene degradation pathway
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		+	</figcaption>
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		+	</figure>
		+	</html>
		+	Among them, phyA is a functional phytochrome receptor composed of an apolipoprotein and a phytochrome mobile protein (chromophore). Since chromophore cannot be synthesized in yeast, a similar compound, phycocyanobilin (PCB), purified from cyanobacteria, was added to the medium. PCB is readily taken up by yeast cells and is bound by the phytochrome apoprotein to form phytochrome photoreceptors.
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		+	Under red light (λmax = 660 nm) or far-red light (λmax = 730 nm), PhyA reversibly changes its conformation to be able to bind to FHY1, which binds PhyA to BD (DNA binding domain) and PHY1 to AD (transcription activation domain) via linker. The principle of yeast double hybrid [12-13] was used to realize the expression of the target gene under the induction of red light.
		+	<html>
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		+	<figure>
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		+	<img src="https://static.igem.wiki/teams/4711/wiki/design/d16.webp"width="100%" style="float:center">
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		+	<img src="https://static.igem.wiki/teams/4711/wiki/design/d17.webp"width="100%" style="float:center">
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		+	<figcaption>
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		+	<p style="font-size:1rem">
		+	Fig 2  Red light system schematic
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		+
		+	</figcaption>
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		+	</figure>
		+	</html>
	===Source===		===Source===

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Revision as of 11:51, 10 October 2023

Gal4(AD)+linker+Fhy1

Usage and Biology

Due to the small amount of benzo (a) pyrene in kitchen waste oil, due to its strong carcinogenic ability, it has adverse effects on the environment and human health. Therefore, we designed a related circuit to degrade benzo (a) pyrene. At the same time, in order to achieve controllability of degradation, we designed a red light switch to control the expression of degradation enzymes [1,2,6,7]. The gene circuit is shown below:

Among them, phyA is a functional phytochrome receptor composed of an apolipoprotein and a phytochrome mobile protein (chromophore). Since chromophore cannot be synthesized in yeast, a similar compound, phycocyanobilin (PCB), purified from cyanobacteria, was added to the medium. PCB is readily taken up by yeast cells and is bound by the phytochrome apoprotein to form phytochrome photoreceptors.

Under red light (λmax = 660 nm) or far-red light (λmax = 730 nm), PhyA reversibly changes its conformation to be able to bind to FHY1, which binds PhyA to BD (DNA binding domain) and PHY1 to AD (transcription activation domain) via linker. The principle of yeast double hybrid [12-13] was used to realize the expression of the target gene under the induction of red light.

Source

Potential applications

References

Sequence and Features