Expression and Purification of Transmembrane Protein MerE from Mercury Resistant Bacillus cereus.

Mercury resistant (Hg(R)) bacteria were isolated from heavy metal polluted wastewater and soil collected near to tanneries of district Kasur, Pakistan. Bacterial isolates AZ-1, AZ-2 and AZ-3 showed resistance up to 40 μg/mL against mercuric chloride (HgCl2). 16S rDNA ribotyping and phylogenetic analysis were performed for the characterization of selected isolates as Bacillus sp. AZ-1 (KT270477), Bacillus cereus AZ-2 (KT270478) and Bacillus cereus AZ-3 (KT270479). Phylogenetic relationship on the basis of merA nucleotide sequence confirmed 51-100% homology with the corresponding region of the merA gene of already reported mercury resistant Gram positive bacteria. The merE gene involved in the transportation of elemental mercury (Hg(0)) via cell membrane was first time cloned into pHLV vector and transformed in overexpressed C43(DE3) E.coli cells. The recombinant plasmid (pHLMerE) was expressed and the native MerE protein was obtained after thrombin cleavage by size exclusion chromatography (SEC). The purification of fusion/recombinant and native protein MerE by Ni-NTA column, dialysis and fast protein liquid chromatography (FPLC/SEC) involved unfolding/refolding techniques. A small scale reservoir of wastewater containing 150 μg/mL of HgCl2 was designed to check the detoxification ability of selected strains. It resulted 83% detoxification of mercury by B. cereus AZ-2 and B. cereus AZ-3, and 76% detoxification by Bacillus sp. AZ-1 respectively (p<0.05).