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Stoichiometry of mercury-thiol complexes on bacterial cell envelopes

Author(s): Mishra, Bhoopesh; Shoenfelt, Elizabeth; Yu, Qiang; Yee, Nathan; Fein, Jeremy B; et al

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Abstract: We have examined the speciation of Hg(II) complexed with intact cell suspensions (1013 cells L− 1) of Bacillus subtilis, a common gram-positive soil bacterium, Shewanella oneidensis MR-1, a facultative gram-negative aquatic organism, and Geobacter sulfurreducens, a gram-negative anaerobic bacterium capable of Hg-methylation at Hg(II) loadings spanning four orders of magnitude (120 nM to 350 μM) at pH 5.5 (± 0.2). The coordination environments of Hg on bacterial cells were analyzed using synchrotron based X-ray Absorption Near Edge Structure (XANES) and Extended X-ray Absorption Fine Structure (EXAFS) spectroscopy at the Hg LIII edge. The abundance of thiols on intact cells was determined by a fluorescence-spectroscopy based method using a soluble bromobimane, monobromo(trimethylammonio)bimane (qBBr) to block thiol sites, and potentiometric titrations of biomass with and without qBBr treatment. The chemical forms of S on intact bacterial cells were determined using S k-edge XANES spectroscopy. Hg(II) was found to complex entirely with cell bound thiols at low Hg:biomass ratios. For Bacillus subtilis and Shewanella oneidensis MR-1 cells, the HgS stoichiometry changed from HgS3 to HgS2 and HgS (where ‘S’ represents a thiol site such as is present on cysteine) progressively as the Hg(II) loading increased on the cells. However, Geobacter sulfurreducens did not form HgS3 complexes. Because the abundance of thiol was highest for Geobacter sulfurreducens (75 μM/g wet weight) followed by Shewanella oneidensis MR-1 (50 μM/g wet weight) and Bacillus subtilis (25 μM/g wet weight), the inability of Hg(II) to form HgS3 complexes on Geobacter sulfurreducens suggests that the density and reactivity of S-amino acid containing cell membrane proteins on Geobacter sulfurreducens are different from those of Bacillus subtilis and Shewanella oneidensis MR-1. Upon saturation of the high affinity thiol sites at higher Hg:biomass ratios, Hg(II) was found to form a chelate with α-hydroxy carboxylate anion. The stoichiometry of cell envelope bound Hg-thiol complexes and the associated abundance of thiols on the cell envelopes provide important insights for understanding the differences in the rate and extent of uptake and redox transformations of Hg in the environment.
Publication Date: 5-Aug-2017
Citation: Mishra, Bhoopesh, Elizabeth Shoenfelt, Qiang Yu, Nathan Yee, Jeremy B. Fein, and Satish CB Myneni. "Stoichiometry of mercury-thiol complexes on bacterial cell envelopes." Chemical Geology 464 (2017): 137-146. doi:10.1016/j.chemgeo.2017.02.015.
DOI: doi:10.1016/j.chemgeo.2017.02.015
ISSN: 0009-2541
Pages: 137 - 146
Type of Material: Journal Article
Journal/Proceeding Title: Chemical Geology
Version: Author's manuscript



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