A Structural Basis for Mg(2+) Homeostasis and the CorA Translocation Cycle

We describe the CorA Mg{sup 2+} transporter homologue from Thermotoga maritima in complex with 12 divalent cations at 3.7 {angstrom} resolution. One metal is found near the universally conserved GMN motif, apparently stabilized within the transmembrane region. This portion of the selectivity filter...

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Veröffentlicht in:	The EMBO journal 2006-08, Vol.25
Hauptverfasser:	Payandeh,J., Pai, E.
Format:	Artikel
Sprache:	eng
Schlagworte:	BASIC BIOLOGICAL SCIENCES CATIONS COORDINATES DEHYDRATION DOMAIN STRUCTURE FILTERS FUNCTIONS GEOMETRY HOMEOSTASIS LENGTH METALS national synchrotron light source PROTEINS RESOLUTION SAFETY SIZE SPECIFICITY SUBSTRATES TRANSLOCATION
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description	We describe the CorA Mg{sup 2+} transporter homologue from Thermotoga maritima in complex with 12 divalent cations at 3.7 {angstrom} resolution. One metal is found near the universally conserved GMN motif, apparently stabilized within the transmembrane region. This portion of the selectivity filter might discriminate between the size and preferred coordination geometry of hydrated substrates. CorA may further achieve specificity by requiring the sequential dehydration of substrates along the length of its {approx}55 {angstrom} long pore. Ten metal sites identified within the cytoplasmic funnel domain are linked to long extensions of the pore helices and regulate the transport status of CorA. We have characterized this region as an intrinsic divalent cation sensor and provide evidence that it functions as a Mg{sup 2+}-specific homeostatic molecular switch. A proteolytic protection assay, biophysical data, and comparison to a soluble domain structure from Archaeoglobus fulgidus have revealed the potential reaction coordinate for this diverse family of transport proteins.
doi_str_mv	10.1038/sj.emboj.7601269
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One metal is found near the universally conserved GMN motif, apparently stabilized within the transmembrane region. This portion of the selectivity filter might discriminate between the size and preferred coordination geometry of hydrated substrates. CorA may further achieve specificity by requiring the sequential dehydration of substrates along the length of its {approx}55 {angstrom} long pore. Ten metal sites identified within the cytoplasmic funnel domain are linked to long extensions of the pore helices and regulate the transport status of CorA. We have characterized this region as an intrinsic divalent cation sensor and provide evidence that it functions as a Mg{sup 2+}-specific homeostatic molecular switch. 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subjects	BASIC BIOLOGICAL SCIENCES CATIONS COORDINATES DEHYDRATION DOMAIN STRUCTURE FILTERS FUNCTIONS GEOMETRY HOMEOSTASIS LENGTH METALS national synchrotron light source PROTEINS RESOLUTION SAFETY SIZE SPECIFICITY SUBSTRATES TRANSLOCATION
title	A Structural Basis for Mg(2+) Homeostasis and the CorA Translocation Cycle
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