Difference between revisions of "Part:BBa K2862014"

Revision as of 06:22, 17 October 2018

SoxR from E. coli (new)

SoxR is a redox-sensitive transcription factor providing transcriptional activation or repression downstream of the pSoxS promoter when oxidised, either directly by redox-cycling drugs or by oxidative stress. It is therefore inducible by various redox-cycling drugs, toxins, antibiotics, heavy metals, hydrogen peroxide and nitric oxide: providing various applications in the development of environmental and therapeutic devices. By coupling oxidation of redox-cycling species to an electrode, the 2018 Imperial College London iGEM team (PixCell) used SoxR to build electrogenetic devices where electrical inputs modulated gene expression.

This SoxR CDS was taken from X, and is codon optimised for E. coli. It forms part of the PixCell library of electrogenetic and redox-sensing parts.

This part has been designed to be fully modular, being compatible for BioBrick, BASIC and Golden Gate assembly.

Biology

SoxR is a homodimeric transcription factor conserved amongst various species of both gram-positive and gram-negative bacteria. The protein is constitutively expressed from the pSoxR portion of the pSoxR/pSoxS bidirectional promoter, with a steady state concentration of about 75 SoxR proteins per cell in E. coli under normal conditions. Each monomer of the protein contains a single 2Fe-2S cluster. Direct interactions with redox-cycling drugs or oxidative stress caused by superoxide ions (either produced directly or via other chemical species) cause oxidation of these clusters. The resulting structural change allows SoxR to bind and provide transcriptional activation downstream of the pSoxS portion of the bidirectional promoter. This allows for activation of the soxRS regulon which in turns provides adaptation to conditions of oxidative stress.

Usage

SoxR combined with pSoxS acts as functional sensor of redox-cycling drugs and oxidative stress, making it a useful part for the creation of biosensors or devices activated by redox-cycling drugs, toxins, antibiotics, certain organic molecules, heavy metals, nitric oxide and hydrogen peroxide: all of which can exert oxidative stress on cells.

The 2018 Imperial College London iGEM project (PixCell) utilised SoxR in electrogenetic devices capable of activating gene expression in response to an electrical stimulus. This was achieved via oxidation and reduction of redox-mediators at an electrode. These systems provide programmable spatiotemporal control of gene expression with an inexpensive experimental set up.

The induction of this system by redox-cycling drugs makes it a particularly cheap system to use for chemical induction of gene expression, with the molecule PMS (phenazine methosulfate) being cheaper per reaction than several other common chemical inducers.

As part of the PixCell library, SoxR can be coupled with various different parts to tune the dose response of the system to suit the device being constructed. This library includes a mutant promoter where SoxR acts as a transcriptional repressor.

Sequence and Features