Team:Bielefeld-Germany/Project/Theory

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Contents

Introduction

Our iGEM project is to create an E. coli cell which is capable to sense Capsaicin in a complex sample and report the concentration with a luciferase light signal. The native receptor senses Acetosyringone. We used directed evolution to modify the binding region of the native receptor to generate a new capsaicin receptor. We established a screening system based on antibiotic concentration gradients to screen the newly generated receptors. In our E. coli Acetosyringone sensing system several parts driving from different organisms were assemlbed. The native receptor was subcloned from Agrobacterium tumefaciens to create a read out system with firefly luciferase.

Agrobacterium tumefaciens

The model organism Agrobacterium tumefaciens is a soil bacterium and can be found at nearly every point of the world Agrobacterium became known as a phyto-pathogen leading to the crown gall disease in dicotyledonous species [1]. The infection is actually caused by a gene transfer system located on an extrachromosomal element, the Ti plasmid. The infection can be divided into several steps. Predominantely A. tumefaciens senses phenolic compunds from hurted plants, but also aldose monosaccharides, low pH and low phosphate [2],[3]. When A. tumefaciens recognizes phenols with the virA receptor, a signal transduction cascade is initiated leadig to the expression of virulence genes. The next step is a physical interaction with the host plant. A type three secretion system is responsible for the DNA transfer of the Ti-plasmid from the bacterium into the host. The DNA is translocated to the nucleus, leading to the gene expression and the production of opin. A. tumefaciens uses the reprogrammed plant cells for metabolite production and therefore as a nutrient supplier.

For biotechnology purpose the Ti-Plasmid was disharmed. Instead the native transfer region (T-region) and a gene of interest could be easily introduced into the Ti plasmid. Agrobacterium-mediated DNA transfer is one of the most commonly used techniques of plant transformation [6].

Native receptor

To gain an evolutionary advance, A. tumefaciens needs a precise recognition system for potential hosts. The native sensing system is a two-component phospho-relay system in which VirA is an transmembrane-bound sensor while VirG is the intracellular response regulator [4]. The two genes for the sensing system are virA and virG [5]which are constitutively expressed at a basal level. VirA is a hitstidine kinase and after sensing the phenol 3,5-Dimethoxyacetophenone, Acetosyringone an autophosphorylation occurs at the His-474 residue [9],[10]. Later in the signal transduction cascade, the phosphorylated VirA leads to the transfer of the phosphate to Asp-52 residue of VirG [11],[12],[13]. VirG is the response regulator of the two-component system[3]. VirG acts as a transcription factor and binds to virulence box (vir Box) containing promotors, for example virB [7], [8]


VirA receptor structure

Read out system

Receptor modifiction strategy

Screening system

Modeling

Weblinks