Abstract
Crystal structures of the CorA Mg(2+) channel have suggested that metal binding in the cytoplasmic domain stabilizes the pentamer in a closed conformation. The open "metal free" state of the channel is, however, still structurally uncharacterized. Here, we have attempted to map conformational states of CorA from Thermotoga maritima by determining which residues support the pentameric structure in the presence or absence of Mg(2+). We find that when Mg(2+) is present, the pentamer is stabilized by the putative gating sites (M1/M2) in the cytoplasmic domain. Strikingly however, we find that the conserved and functionally important periplasmic loop is vital for the integrity of the pentamer when Mg(2+) is absent from the M1/M2 sites. Thus, although the periplasmic loops were largely disordered in the x-ray structures of the closed channel, our data suggests a prominent role for the loops in stabilizing the open conformation of the CorA channels.
Highlights
Members of the CorA/Mrs2 family mediate Mg2ϩ uptake in prokaryotic cells and mitochondria
Our data reveal that when Mg2ϩ is absent from the M1/M2 sites, conserved residues in the periplasmic loop are essential for maintaining a pentameric state
In agreement with our in vitro analysis, we found that seven of the mutants that were detected as lower oligomers and were part of the family signature motifs (Y311A, M313A, N314A, F315A, M318A, L321A, and Y327A) were either unable to complement MM281 or displayed a significantly reduced growth phenotype compared with wild-type TmCorA (Fig. 3, A and B)
Summary
Members of the CorA/Mrs family mediate Mg2ϩ uptake in prokaryotic cells and mitochondria. Crystal structures of the CorA Mg2؉ channel have suggested that metal binding in the cytoplasmic domain stabilizes the pentamer in a closed conformation. Our data reveal that when Mg2ϩ is absent from the M1/M2 sites, conserved residues in the periplasmic loop are essential for maintaining a pentameric state This suggests that there is a structurally uncharacterized conformation of the TmCorA pentamer in which packing interactions in the periplasmic loops are critical for structural stability. These data indicate that the pentameric state can be maintained either through interactions mediated by the periplasmic loops or the cytoplasmic M1/M2sites We propose that these two alternative stabilities reflect the molecular mechanism by which the channel stabilizes the open and closed state
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