Issue 10, 2014

The cation diffusion facilitator protein EmfA of Rhizobium etli belongs to a novel subfamily of Mn2+/Fe2+ transporters conserved in α-proteobacteria

Abstract

Manganese (Mn2+) plays a key role in important cellular functions such as oxidative stress response and bacterial virulence. The mechanisms of Mn2+ homeostasis are not fully understood, there are few data regarding the functional and taxonomic diversity of Mn2+ exporters. Our recent phylogeny of the cation diffusion facilitator (CDF) family of transporters classified the bacterial Mn2+-CDF transporters characterized to date, Streptococcus pneumoniae MntE and Deinococcus radiodurans DR1236, into two monophyletic groups. DR1236 was shown to belong to the highly-diverse metal specificity clade VI, together with TtCzrB, a Zn2+/Cd2+ transporter from Thermus thermophilus, the Fe2+ transporter Sll1263 from Synechocystis sp and eight uncharacterized homologs whose potential Mn2+/Zn2+/Cd2+/Fe2+ specificities could not be accurately inferred because only eleven proteins were grouped in this clade. A new phylogeny inferred from the alignment of 197 clade VI homologs revealed three novel subfamilies of uncharacterized proteins. Remarkably, one of them contained 91 uncharacterized α-proteobacteria transporters (46% of the protein data set) grouped into a single subfamily. The Mn2+/Fe2+ specificity of this subfamily was proposed through the functional characterization of the Rhizobium etli RHE_CH03072 gene. This gene was upregulated by Mn2+, Zn2+, Cd2+ and Fe2+ but conferred only Mn2+ resistance to R. etli. The expression of the RHE_CH03072 gene in an E. coli mntP/zitB/zntA mutant did not relieve either Zn2+ or Mn2+ stress but slightly increased its Fe2+ resistance. These results indicate that the RHE_CH03072 gene, now designated as emfA, encodes for a bacterial Mn2+/Fe2+ resistance CDF protein, having orthologs in more than 60 α-proteobacterial species.

Graphical abstract: The cation diffusion facilitator protein EmfA of Rhizobium etli belongs to a novel subfamily of Mn2+/Fe2+ transporters conserved in α-proteobacteria

Supplementary files

Article information

Article type
Paper
Submitted
12 May 2014
Accepted
16 Jul 2014
First published
16 Jul 2014

Metallomics, 2014,6, 1808-1815

Author version available

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