Part:BBa_K1420001

merA, mercuric reductase from Serratia marcescens

Overview

Mercury resistance gene merA (1.6Kb) encodes MerA, a mercuric ion reductase (cytosolic, flavin disulfide oxidoreductase, ~120kDa), that is essential to bacterial mercury resistance. The lower part of the Figure 1 shows the arrangement of mer genes in the operon, and merA is located downstream of mer genes that encodes mercury transport proteins. The nature evolves different mercury detoxification mechanism, here MerA and MerB confer mercury resistance by reducing thiol-avid organic mercury species to relatively inert, uncharged, monoatonic mercury. While MerA and MerB are the key mercury detoxification enzymes, they orchestrate with mercury transport proteins, MerT and MerP, to confer bacterial mercury resistance.

Figure 1 shows the interactions of MerA, mercury compounds, and other gene products of mer operon. MerA and gene merA are highlighted in orange. The essential mechanism of mercury resistance is carried out by MerB and MerA. MerB transforms methylmercury to less toxic, non-biomagnified ionic mercury Hg(II), and MerA reduces Hg(II) to the least toxic metallic mercury, Hg(0). Since organic mercuric species have high affinity to tiol groups and commomly form strong but reversible bonds, mercury detoxification is facilitated by cytosolic thiol redox buffers and cysteine residues of mercury binding proteins.

Figure 1. Model of mercury resistance operon. The symbol • indicates a cysteine residue. RSH indicates cytosolic thiol redox buffers such as glutathione. (This figure is adapted from "Bacterial mercury resistance from atoms to ecosystems". Reference: T. Barkay et al. FEMS Microbiology Reviews 27 (2003) 355-384.)

Molecular Function

MerA catalyzes the reduction of mercuric ion to the relative inert, volatile monoatomic mercury in a NADPH dependent reaction.

Scheme 1. MerA Catalyzed Reaction

Structure and Mechanism

Characterization of merA

To test the effect of MerA to the level of mercury resistance, we generated a merA deletion mutant and characterized it by zone of inhibition test.

Zone of Inhibition Results

Figure 2. Zones of Inhibition Test For Mercury Resistance Activity. Three different plasmids were expressed in Escherichia coli strain K12 to compare level of mercury resistance. (A)Plates of ZOI test. Left, K12 conntaining pBBRBB::mer; center,K12 containing pBBRBB::gfp; right, K12 strain containing pBBRBB::merΔmerA, or the merA deletion mutant. (b) Graphical representation of the size of zones of inhibition diameter. The diameter of the Zone of Inhibition was measured in triplicate. Green corresponds to pBBRBB::gfp, blue to pBBRBB::mer, and red to pBBRBB::merΔmerA.

Sequence and Features