Growth in sulfidic mineral environments: metal resistance mechanisms in acidophilic micro-organisms
Dopson, Mark and Baker-Austin, Craig and Koppineedi, P. Ram and Bond, Philip L.,, 149, 1959-1970 (2003),
doi = https://doi.org/10.1099/mic.0.26296-0,
publicationName = Microbiology Society,
issn = 1350-0872,
abstract= Acidophilic micro-organisms inhabit some of the most metal-rich environments known, including both natural and man-made ecosystems, and as such are ideal model systems for study of microbial metal resistance. Although metal resistance systems have been studied in neutrophilic micro-organisms, it is only in recent years that attention has been placed on metal resistance in acidophiles. The five metal resistance mechanisms identified in neutrophiles are also present in acidophiles, in some cases utilizing homologous proteins, but in many cases the degree of resistance is greater in acidophiles. This review summarizes the knowledge of acidophile metal resistance and presents preliminary in silico studies on a few known metal resistance systems in the sequenced acidophile genomes.,
language=,
type=