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Structural basis for ion selectivity revealed by high-resolution crystal structure of Mg2+ channel MgtE.


ABSTRACT: Magnesium is the most abundant divalent cation in living cells and is crucial to several biological processes. MgtE is a Mg(2+) channel distributed in all domains of life that contributes to the maintenance of cellular Mg(2+) homeostasis. Here we report the high-resolution crystal structures of the transmembrane domain of MgtE, bound to Mg(2+), Mn(2+) and Ca(2+). The high-resolution Mg(2+)-bound crystal structure clearly visualized the hydrated Mg(2+) ion within its selectivity filter. Based on those structures and biochemical analyses, we propose a cation selectivity mechanism for MgtE in which the geometry of the hydration shell of the fully hydrated Mg(2+) ion is recognized by the side-chain carboxylate groups in the selectivity filter. This is in contrast to the K(+)-selective filter of KcsA, which recognizes a dehydrated K(+) ion. Our results further revealed a cation-binding site on the periplasmic side, which regulate channel opening and prevents conduction of near-cognate cations.

SUBMITTER: Takeda H 

PROVIDER: S-EPMC4241985 | biostudies-literature | 2014

REPOSITORIES: biostudies-literature

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Structural basis for ion selectivity revealed by high-resolution crystal structure of Mg2+ channel MgtE.

Takeda Hironori H   Hattori Motoyuki M   Nishizawa Tomohiro T   Yamashita Keitaro K   Shah Syed T A ST   Caffrey Martin M   Maturana Andrés D AD   Ishitani Ryuichiro R   Nureki Osamu O  

Nature communications 20141104


Magnesium is the most abundant divalent cation in living cells and is crucial to several biological processes. MgtE is a Mg(2+) channel distributed in all domains of life that contributes to the maintenance of cellular Mg(2+) homeostasis. Here we report the high-resolution crystal structures of the transmembrane domain of MgtE, bound to Mg(2+), Mn(2+) and Ca(2+). The high-resolution Mg(2+)-bound crystal structure clearly visualized the hydrated Mg(2+) ion within its selectivity filter. Based on  ...[more]

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