Difference between revisions of "Part:BBa K3885211"

Revision as of 03:59, 20 October 2021 (view source) Snow9 (Talk | contribs) (→‎Characterization) ← Older edit		Latest revision as of 14:17, 21 October 2021 (view source) Snow9 (Talk | contribs)
(15 intermediate revisions by the same user not shown)
Line 2:		Line 2:
	__NOTOC__		__NOTOC__
	<partinfo>BBa_K3885211 short</partinfo>		<partinfo>BBa_K3885211 short</partinfo>
−		+	<html>
		+	<style>
		+	.flex{
		+	display: flex;
		+	align-items: center;
		+	justify-content: space-evenly;
		+	}
		+	</style>
		+	<div class="flex" style="margin: 0 auto; width: 100%;">
		+	<div style="border: 0px solid #000;width: 35%;">
		+	<img src="https://static.igem.org/mediawiki/parts/e/e6/1-b-112.png" width=90% height=70% style="display: block;margin: 10px auto;"/>
		+	<p style="text-align: center:">
		+	</p>
		+	</div>
		+	</div>
		+	</html>
	Under the influence of the P28 promoter, the repressor tetR is produced and binding to tetO sites represses downstream gene expression.		Under the influence of the P28 promoter, the repressor tetR is produced and binding to tetO sites represses downstream gene expression.
Line 19:		Line 34:
	</style>		</style>
	<div class="flex" style="margin: 0 auto; width: 100%;">		<div class="flex" style="margin: 0 auto; width: 100%;">
−	<div style="border: 1px solid #000;width: 60%; background-color: #f9f9f9;">	+	<div style="border: 1px solid #000;width: 80%; background-color: #f9f9f9;">
−	<img src="https://static.igem.org/mediawiki/parts/2/20/211.png" width=95% height=70% style="display: block;margin: 10px auto;"/>	+	<img src="https://static.igem.org/mediawiki/parts/0/0e/1-a-113.png" width=95% height=70% style="display: block;margin: 10px auto;"/>
−	<p style="text-align: center:">	+
−	Figure 1. Green fluorescence of the experimental group and the control group.	+
−	</p>	+
−	<img src="https://static.igem.org/mediawiki/parts/e/e3/212-1.png" width=95% height=70% style="display: block;margin: 10px auto;"/>	+
	<p style="text-align: center:">		<p style="text-align: center:">
−	Figure 2. Fluorescent protein expression intensity after the gene circuit is combined with the CRISPR system.	+	Figure 1. Schematic of gene circuits and kinetics of the repressor tetR.
−	</p>	+	</p>
	</div>		</div>
	</div>		</div>
−	The repressor protein produced by tetR can inhibit the expression of fluorescent protein, which is an important part of the gene circuit for signal conversion. First, we verified this part. The fluorescence results were obviously different from those of the control group, which proves that the element can play an ideal role. (Fig.1.a)<br>	+	The repressor protein produced by tetR gene can inhibit the expression of fluorescent protein, which is an important part of the gene circuit for signal conversion. We verified this part, and the fluorescence intensity results of the test group ( (+) P28a-tetR) were obviously lower than those of the control group ( (-) P28a-tetR), which proves that the part can play an ideal role (Figure.1).  Therefore, this part can well repressed the expression of deGFP and successfully characterized.
−	We then combined the gene circuit with the CRISPR system to verify the cleavage activity of Cas9 protein.	+
	</html>		</html>

---

Latest revision as of 14:17, 21 October 2021

P28-tetR

Under the influence of the P28 promoter, the repressor tetR is produced and binding to tetO sites represses downstream gene expression.

Usage and Biology

The P28-tetR is mainly used to express the gene tetR and thus produce the repressor protein，where P28 is regulated by the σ28 factor to initiate expression. Our gene circuit belongs to the transducer part of the project, where we need to convert molecular signals to fluorescent signals. And the gene tetR produces a repressor protein that can inhibit the expression of fluorescent proteins.

Characterization

The repressor protein produced by tetR gene can inhibit the expression of fluorescent protein, which is an important part of the gene circuit for signal conversion. We verified this part, and the fluorescence intensity results of the test group ( (+) P28a-tetR) were obviously lower than those of the control group ( (-) P28a-tetR), which proves that the part can play an ideal role (Figure.1). Therefore, this part can well repressed the expression of deGFP and successfully characterized.

Design Page

The tetR gene can express repressor protein[1], which inhibits the expression of fluorescent proteins. Therefore, we use Cas9 targeted cleavage of tetR to generate a fluorescent signal by eliminating the inhibitory effect and achieve signal conversion. When binding to the P28 promoter, tetR can achieve a better expression effect, so we construct part P28-tetR.

References

Lutz, R., and Bujard, H. (1997) Independent and Tight Regulation of Transcriptional Units in Escherichia coli via the LacR/O, the TetR/O and AraC/I-1-I-2 Regulatory Elements. Nucleic Acids Res.25 (6), 1203−1210.

Sequence and Features