Difference between revisions of "Part:BBa K3431022"

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	<partinfo>BBa_K3431022 short</partinfo>		<partinfo>BBa_K3431022 short</partinfo>
−	===Description===	+	===Introduction===
−	Toehold Switch with Invertase as Expression Protein (oz21_A) is an RNA-based device that is to apply as a biosensor for miRNA. This biosensor is designed to detect and reflect the amount of miRNA-21 through the expression of Beta-Fructosidase (Thermotoga Maritima MSB8) (BBa_K3431000), which can convert sucrose into glucose in a time-saving process and its result can be easily represented in the readout of glucose meter. The mechanism for detection relied on the following part - Toehold Switch for miRNA-21 (oz21_A) (BBa_K3431006) - whose restriction on the expression of invertase can be liberated upon binding with miRNA-21. Furthermore, we include T7 promoter (BBa_I719005) and terminator (BBa_K731721) to ensure that our device can transcribe and translate in the environment of PURExpress in vitro protein synthesis kit.	+	oz21_A_ToeholdSwitch-Regulated Invertase is a genetic device that can be
		+	applied as a biosensor for miRNA. It is designed to detect and measure the
		+	amount of miR-21 by the expression of Thermotoga maritima Invertase
		+	(BBa_K3431000). The invertase can convert sucrose to glucose, which can
		+	be easily measured by a personal glucose meter (PGM).
−	===Experiment result===	+	===Components===
		+	oz21_A_ToeholdSwitch-Regulated Invertase consists of 4 basic parts: T7 promoter (BBa_I719005), oz21_A toehold switch (BBa_K3431006), invertase
		+	(BBa_K3431000), and T7 terminator (BBa_K731721). The mechanism of the detection is mainly based on the regulatory part, oz21_A Toehold Switch for miR-21 Detection (BBa_K3431006). Upon binding with miR-21, its hairpin structure can be opened up and the ribosomes can bind with its RBS (ribosome binding site), triggering the translation process of the downstream reporter, invertase (BBa_K3431000). As for the T7 promoter (BBa_I719005) and T7 terminator (BBa_K731721), they are the essential genetic elements for the PURExpress protein synthesis kit.
		+
		+	===Construction===
		+	The construction process of the composite part is shown below.
		+	<html>
		+	<div style="width=100%; display:flex; align-items: center; justify-content: center">
		+	<img src="https://static.igem.org/mediawiki/parts/3/37/T--CSMU_Taiwan--Fig._6_%28In_fusion_cloning%29.png" style="width:50%">
		+	</div>
		+	Figure. 1. Gene cloning of the toehold switch regulated invertase. (A) Using PCR to produce the target insert, which includes invertase and T7 terminator sequences. The forward primer contained XbaI and overlapped with the 5’ end of the invertase; while the reverse primer contained PstI and was complementary to the 3’ end of the T7 terminator. (B) Lane 1 to 8 are the toehold switch vectors digested with XbaI and PstI, whose length is about 2000 bp. Lane 9 is the Insert containing invertase and T7 terminator, whose length is 1358 bp. (C) Ligate the invertase sequence with the toehold switches we designed.
		+	<br>
		+	</html>
		+
		+	===Response in different miRNA===
		+	To further understand its functionality, 2020 iGEM CSMU-Taiwan conducted a series of tests. The plasmid would be transcribed and translated with the protein synthesis kit at 37℃ for 2 hours. We would then add 5μl of 0.5M sucrose and measured the glucose concentration with Rightest TM GS550 glucose meter after 30 minutes. In our experiments, the ON state refers to the conditions with miRNA triggers; while the OFF state means that there was no miRNA in the environment. We calculated the ON/OFF ratio of the toehold
		+	switch, which is defined as “the glucose concentration of the ON state/ the glucose concentration of the OFF state”.
	<html>		<html>
	<div style="width=100%; display:flex; align-items: center; justify-content: center">		<div style="width=100%; display:flex; align-items: center; justify-content: center">
	<img src="https://static.igem.org/mediawiki/parts/c/c6/T--CSMU_Taiwan--oz21_A_%28BBa_K3431022%29.png" style="width:50%">		<img src="https://static.igem.org/mediawiki/parts/c/c6/T--CSMU_Taiwan--oz21_A_%28BBa_K3431022%29.png" style="width:50%">
	</div>		</div>
		+	Figure 2. The glucose productions of the oz21_A_ToeholdSwitch-Regulated Invertase in different states. The blue bar refers to the OFF state (not added with miRNA). The green bar refers to the ON state (added with miR-21 trigger). The yellow bar refers to the state with non-related RNAs (added with miR-191). The pink bar refers to the state with non-related RNAs (added with miR-223).
	<br>		<br>
	</html>		</html>
		+	<br>
		+	<b>Results</b>  The ON/OFF ratio with miR-21 is 12.3, which suggested the regulatory function of the toehold switch. Thus, oz21_A toehold switch-regulated invertase can be controlled by the miR-21.
	===Reference===		===Reference===

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Latest revision as of 15:39, 26 October 2020

oz21_A_ToeholdSwitch-Regulated Invertase

Introduction

oz21_A_ToeholdSwitch-Regulated Invertase is a genetic device that can be applied as a biosensor for miRNA. It is designed to detect and measure the amount of miR-21 by the expression of Thermotoga maritima Invertase (BBa_K3431000). The invertase can convert sucrose to glucose, which can be easily measured by a personal glucose meter (PGM).

Components

oz21_A_ToeholdSwitch-Regulated Invertase consists of 4 basic parts: T7 promoter (BBa_I719005), oz21_A toehold switch (BBa_K3431006), invertase (BBa_K3431000), and T7 terminator (BBa_K731721). The mechanism of the detection is mainly based on the regulatory part, oz21_A Toehold Switch for miR-21 Detection (BBa_K3431006). Upon binding with miR-21, its hairpin structure can be opened up and the ribosomes can bind with its RBS (ribosome binding site), triggering the translation process of the downstream reporter, invertase (BBa_K3431000). As for the T7 promoter (BBa_I719005) and T7 terminator (BBa_K731721), they are the essential genetic elements for the PURExpress protein synthesis kit.

Construction

The construction process of the composite part is shown below.

Figure. 1. Gene cloning of the toehold switch regulated invertase. (A) Using PCR to produce the target insert, which includes invertase and T7 terminator sequences. The forward primer contained XbaI and overlapped with the 5’ end of the invertase; while the reverse primer contained PstI and was complementary to the 3’ end of the T7 terminator. (B) Lane 1 to 8 are the toehold switch vectors digested with XbaI and PstI, whose length is about 2000 bp. Lane 9 is the Insert containing invertase and T7 terminator, whose length is 1358 bp. (C) Ligate the invertase sequence with the toehold switches we designed.

Response in different miRNA

To further understand its functionality, 2020 iGEM CSMU-Taiwan conducted a series of tests. The plasmid would be transcribed and translated with the protein synthesis kit at 37℃ for 2 hours. We would then add 5μl of 0.5M sucrose and measured the glucose concentration with Rightest TM GS550 glucose meter after 30 minutes. In our experiments, the ON state refers to the conditions with miRNA triggers; while the OFF state means that there was no miRNA in the environment. We calculated the ON/OFF ratio of the toehold switch, which is defined as “the glucose concentration of the ON state/ the glucose concentration of the OFF state”.

Figure 2. The glucose productions of the oz21_A_ToeholdSwitch-Regulated Invertase in different states. The blue bar refers to the OFF state (not added with miRNA). The green bar refers to the ON state (added with miR-21 trigger). The yellow bar refers to the state with non-related RNAs (added with miR-191). The pink bar refers to the state with non-related RNAs (added with miR-223).

Results The ON/OFF ratio with miR-21 is 12.3, which suggested the regulatory function of the toehold switch. Thus, oz21_A toehold switch-regulated invertase can be controlled by the miR-21.

Reference

Green, A. A., Silver, P. A., Collins, J. J., & Yin, P. (2014). Toehold switches: de-novo-designed regulators of gene expression. Cell, 159(4), 925-939. Pardee, K., Green, A. A., Takahashi, M. K., Braff, D., Lambert, G., Lee, J. W., ... & Daringer, N. M. (2016). Rapid, low-cost detection of Zika virus using programmable biomolecular components. Cell, 165(5), 1255-1266. Wang, S., Emery, N. J., & Liu, A. P. (2019). A novel synthetic toehold switch for microRNA detection in mammalian cells. ACS synthetic biology, 8(5), 1079-1088.

Sequence and Features