Warelow, Thomas P.
Osborne, Thomas H.
Lehr, Corinne R.
McDermott, Timothy R.
Santini, Joanne M.
AffiliationHuazhong Agricultural University
University College London
Montana State University
California Polytechnic State University
MetadataShow full item record
AbstractArsenic and antimony are toxic metalloids and are considered priority environmental pollutants by the U.S. Environmental Protection Agency. Significant advances have been made in understanding microbe-arsenic interactions and how they influence arsenic redox speciation in the environment. However, even the most basic features of how and why a microorganism detects and reacts to antimony remain poorly understood. Previous work with Agrobacterium tumefaciens strain 5A concluded that oxidation of antimonite [Sb(III)] and arsenite [As(III)] required different biochemical pathways. Here, we show with in vivo experiments that a mutation in aioA [encoding the large subunit of As(III) oxidase] reduces the ability to oxidize Sb(III) by approximately one-third relative to the ability of the wild type. Further, in vitro studies with the purified As(III) oxidase from Rhizobium sp. strain NT-26 (AioA shares 94% amino acid sequence identity with AioA of A. tumefaciens) provide direct evidence of Sb(III) oxidation but also show a significantly decreased Vmax compared to that of As(III) oxidation. The aioBA genes encoding As(III) oxidase are induced by As(III) but not by Sb(III), whereas arsR gene expression is induced by both As(III) and Sb(III), suggesting that detection and transcriptional responses for As(III) and Sb(III) differ. While Sb(III) and As(III) are similar with respect to cellular extrusion (ArsB or Acr3) and interaction with ArsR, they differ in the regulatory mechanisms that control the expression of genes encoding the different Ars or Aio activities. In summary, this study documents an enzymatic basis for microbial Sb(III) oxidation, although additional Sb(III) oxidation activity also is apparent in this bacterium.
CitationWang Q, Warelow TP, Kang YS, Romano C, Osborne TH, Lehr CR, Bothner B, McDermott TR, Santini JM, Wang G (2015) 'Arsenite oxidase also functions as an antimonite oxidase', Applied and Environmental Microbiology, 81 (6), pp.1959-1965.
PublisherAmerican Society for Microbiology
PubMed Central IDPMC4345363