, 2009) Four additional MtrB homologs were subsequently identifi

, 2009). Four additional MtrB homologs were subsequently identified in the GKT137831 chemical structure MtrAB modules of Fe(II)-oxidizing α- and β-proteobacteria (Shi et al., 2012a, b). The rapid expansion of sequenced bacterial genomes has resulted in a sharp increase in the number of proteins displaying similarity to S. oneidensis MtrB. As of July 2013, the list of MtrB homologs identified outside the Shewanella genus numbered 52 (Table S3, Fig. S3), including one each from the phyla Acidobacteria and

NC10 group, and 50 from the α-, β-, γ-, and δ-proteobacteria. The 52 MtrB homologs facilitated amino acid sequence analysis of MtrB homologs in bacteria that cross phylogenetic and phenotypic lines, including metal- and nonmetal-reducing strains. Literature searches were conducted to determine the dissimilatory metal reduction capability of the host strains harboring each of the 52 MtrB homologs (Table S3). Correlations

between the similarity of the 52 MtrB homologs and the ability of the corresponding host strains to catalyze dissimilatory metal reduction were not observed. The 52 MtrB homologs found outside the Shewanella genus were subsequently ranked according to e-value, ranging from the MtrB homolog of the metal-reducing γ-proteobacterium Ferrimonas balearica (e-value of 7.00e-145) to the MtrB homolog of the metal-reducing δ-proteobacterium Geobacter metallireducens (e-value of 0.28). clustalw analyses of the 52 MtrB homologs (Table S3) indicated that Fossariinae N-terminal length varied from 4 to 132 this website amino acids,

while the number of C-terminal β-sheets varied from 22 to 32 sheets. MtrB homologs of the γ-proteobacteria Ferrimonas, Aeromonas, and Vibrio were represented in 20 of the top 21 MtrB homologs, and each of the 20 Ferrimonas, Aeromonas, and Vibrio homologs contained an N-terminal CXXC motif (Fig. 1, Table S3). The threshold e-value for MtrB homologs containing an N-terminal CXXC motif was 4.00e-43 displayed by the MtrB homolog of V. vulnificus YJ016. Ferrimonas and Aeromonas species are facultatively anaerobic γ-proteobacteria capable of dissimilatory metal reduction (Knight & Blakemore, 1998; Martin-Carnahan & Joseph, 2005; Nolan et al., 2010), while Vibrio species have not been previously examined for dissimilatory metal reduction activity. Of the top 21 MtrB homologs, only the MtrB homolog of the γ-proteobacterium Nitrosococcus halophilus Tc4 lacked an N-terminal CXXC motif (Table S3). N. halophilus Tc4 is a nitrifying chemolithotroph that obligately respires oxygen as terminal electron acceptor (Campbell et al., 2011). These results indicate that N-terminal CXXC motifs are found in MtrB homologs of γ-proteobacteria capable of dissimilatory metal reduction, while N-terminal CXXC motifs are missing from the MtrB homolog of an obligately aerobic, nonmetal-reducing γ-proteobacterium.

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