2021 article

Fox Cluster determinants for iron biooxidation in the extremely thermoacidophilic Sulfolobaceae

Counts, J. A., Vitko, N. P., & Kelly, R. M. (2021, August 30). ENVIRONMENTAL MICROBIOLOGY.

By: J. Counts n, N. Vitko n & R. Kelly n 

co-author countries: United States of America πŸ‡ΊπŸ‡Έ
MeSH headings : Animals; Archaeal Proteins / genetics; Archaeal Proteins / metabolism; Iron / metabolism; Phylogeny; Proteomics; Sulfolobaceae / genetics
Source: Web Of Science
Added: September 7, 2021

Within the extremely thermoacidophilic Sulfolobaceae, the capacity to oxidize iron varies considerably. While some species are prolific iron oxidizers (e.g. Metallosphaera sedula), other species do not oxidize iron at all (e.g. Sulfolobus acidocaldarius). Iron oxidation capacity maps to a genomic locus, referred to previously as the 'Fox Cluster', that encodes putative proteins that are mostly unique to the Sulfolobaceae. The role of putative proteins in the Fox Cluster has not been confirmed, but proteomic analysis here of iron-oxidizing membranes from M. sedula indicates that FoxA2 and FoxB (both cytochrome c oxidase-like subunits) and FoxC (CbsA/cytochrome b domain-containing) are essential. Furthermore, comparative genomics (locus organization and gene disruptions) and transcriptomics (polarity effects and differential expression) connect these genomic determinants with disparate iron biooxidation and respiration measurements among Sulfolobaceae species. While numerous homologous proteins can be identified for FoxA in genome databases (COX-like domains are prevalent across all domains of life), few homologues exist for FoxC or for most other Fox Cluster proteins. Phylogenetic reconstructions suggest this locus may have existed in early Sulfolobaceae, while the only other close homologues to the locus appear in the recently discovered candidate phylum Marsarchaota.