Heidi Hu/Sandbox 1

From Proteopedia

Revision as of 03:51, 17 December 2011

/>One of the CBI Molecules being studied in the University of Massachusetts Amherst Chemistry-Biology Interface Program at UMass Amherst and on display at the Molecular Playground.

Introduction

Heavy metals such as iron, nickel, copper, and zinc are important cofactors for the functions of many different metalloenzymes. High levels of these heavy metals can also cause damage cellular components, therefore intracellular levels of metals are tightly regulated within the cell. One of the ways that bacteria can regulate intracellular metal levels is by increasing the amount of metal efflux proteins. CsoR and RcnR are members of a large family of metal-responsive DNA-binding proteins, both of which regulate the transcription of metal-specific efflux proteins. CsoR is only responsive to the binding of Cu(I); whereas RcnR is only responsive to the binding of Ni(II) or Co(II).

RcnR and CsoR

In Escherichia coli apo-RcnR blocks the transcription of nickel and cobalt efflux protein RcnA by binding to its promoter region. Although no crystal structures of RcnR is available on the PDB, the Cu(I)-bound CsoR crystal structure from Mycobacterium tuberculosis is available and RcnR is predicted to share a similar fold to CsoR. Upon Ni(II) or Co(II)-binding, RcnR is released from the DNA allowing the transcription of RcnA facilitating the efflux of Ni(II) and Co(II). CsoR has been characterized in Bacillus subtilis and M. tuberculosis to release from the promoter regions of copper-efflux operons upon binding of Cu(I). The analogous functions of CsoR and RcnR in addition to local sequence similarity (25% identical, 56% similar) suggests a conserved mode of function in this family of metal-responsive DNA-binding proteins.