Molecular Basis of MgATP Selectivity of the Mitochondrial SCaMC Carrier

Run, Changqing; Yang, Qin; Liu, Zhijun; OuYang, Bo; Chou, James J.

doi:10.1016/j.str.2015.06.004

Cited by 19 publications

(24 citation statements)

References 42 publications

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“…Moreover, eukaryotic membrane proteins are fragile molecules once extracted from the membrane and the harsh detergents used for solubilization and purification of the carriers using this method cast doubt about the integrity of the proteins throughout such preparations. Accordingly, biophysical data on interactions between the carriers and their respective substrates exist for only a few MCs (24)(25)(26)(27).…”

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confidence: 99%

In vitro reconstitution, functional dissection, and mutational analysis of metal ion transport by mitoferrin-1

Christenson

Gallegos

Banerjee

2018

Journal of Biological Chemistry

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Mitoferrin-1 is a promiscuous transition metal transporterThe reactivity of iron is exploited across all kingdoms of life. The physiological roles that iron takes on are many-iron readily participates in redox reactions where it can donate or accept electrons, depending on its oxidation state. Iron plays essential roles in gas transport and sensing and can also act as a non-redox active metal ion cofactor in enzymes. Additionally, iron-containing cofactors can impart stability to folded proteins (1). Iron naturally occurs in the 2+ and the 3+ oxidation states but owing to the insolubility of Fe(III), the bioavailable form of iron is almost exclusively the 2+ form. The main route of cellular iron uptake is via the transferrin receptor pathway whereby transferrin-bound iron is targeted to endosomes and subsequently released from transferrin during endosomal acidification. Fe(II) is transported out of endosomes by divalent metal ion transporter (DMT1) and becomes available for incorporation into iron-containing proteins and cofactors (2).In eukaryotes, mitochondria are the hotspots for iron utilization-these organelles house heme assembly and the majority of Fe-S cluster biosynthesis apparatus (3,4). Mitochondria contain respiratory complexes which comprise many ironcontaining cofactors. Not surprisingly, http://www.jbc.org/cgi

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mentioning

confidence: 99%

In vitro reconstitution, functional dissection, and mutational analysis of metal ion transport by mitoferrin-1

Christenson

Gallegos

Banerjee

2018

Journal of Biological Chemistry

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“…In another study of substrate binding to carriers, Run et al . used paramagnetic ATP‐Mn 2+ to probe ATP‐Mg 2+ binding site in SCaMC, a calcium regulated carrier that selectively transports ATP‐Mg 2+ . The SCaMC is one of the two carriers responsible for transporting ATP across the mitochondrial inner membrane.…”

Section: Small Molecule Bindingmentioning

confidence: 99%

“…Unlike AAC that selectively transports free ATP, SCaMC has strong selectivity for ATP‐Mg 2+ over free ATP, and the structural determinant of this selectivity remained elusive. Since the endogenous substrate of SCaMC is ATP‐Mg 2+ , it was convenient to substitute Mg 2+ with paramagnetic Mn 2+ . Addition of ATP‐Mn 2+ to the carrier domain of SCaMC caused strong broadening of a subset of NMR peaks [Fig.…”

Section: Small Molecule Bindingmentioning

confidence: 99%

“…(D)]. Functional mutagenesis showed that, indeed, mutating Asp361 to tyrosine completely removed selectivity for ATP‐Mg 2+ over ATP in SCaMC …”

Section: Small Molecule Bindingmentioning

confidence: 99%

“…53 In another study of substrate binding to carriers, Run et al used paramagnetic ATP-Mn 21 to probe ATP-Mg 21 binding site in SCaMC, a calcium regulated carrier that selectively transports ATP-Mg 21 . 55 The SCaMC is one of the two carriers responsible for transporting ATP across the mitochondrial inner membrane. While the AAC accounts for the bulk ADP/ATP recycling in the matrix, the function of SCaMC is important for mitochondrial activities that depend on adenine nucleotides, such as gluconeogenesis and mitochondrial biogenesis.…”

Section: Substrate Interaction With Transportersmentioning

confidence: 99%

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A functional NMR for membrane proteins: dynamics, ligand binding, and allosteric modulation

Oxenoid

Chou

2016

Protein Science

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By nature of conducting ions, transporting substrates and transducing signals, membrane channels, transporters and receptors are expected to exhibit intrinsic conformational dynamics. It is therefore of great interest and importance to understand the various properties of conformational dynamics acquired by these proteins, for example, the relative population of states, exchange rate, conformations of multiple states, and how small molecule ligands modulate the conformational exchange. Because small molecule binding to membrane proteins can be weak and/or dynamic, structural characterization of these effects is very challenging. This review describes several NMR studies of membrane protein dynamics, ligand-induced conformational rearrangements, and the effect of ligand binding on the equilibrium of conformational exchange. The functional significance of the observed phenomena is discussed.

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A rare male patient with Fontaine progeroid syndrome caused by p.R217H de novo mutation in SLC25A24

Rodríguez‐García

Cotrina‐Vinagre

Cruz-Rojo

et al. 2018

American J of Med Genetics Pt A

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We report the clinical and genetic findings in a 15‐year‐old Spanish boy presenting prenatal and postnatal growth retardation, reduced subcutaneous adipose tissue, premature skin wrinkling, sparse hair, short distal phalanges with small nails, umbilical hernia, wide anterior fontanel, and normal cognitive and motor development. Exome sequencing uncovered a heterozygous mutation in SLC25A24 (NM_013386: c.650G>A: p.R217H) that encodes for the calcium‐binding mitochondrial carrier protein SCaMC‐1. This gain‐of‐function variant has been previously associated with Fontaine syndrome and Gorlin‐Chaudhry‐Moss syndrome, two entities that show overlapping features, and have been recently subsumed under the name Fontaine progeroid syndrome (FPS; MIM: 612289) in OMIM. Here, we describe the first male patient with genetically confirmed FPS who survives at least until adolescence.

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Molecular Basis of MgATP Selectivity of the Mitochondrial SCaMC Carrier

Cited by 19 publications

References 42 publications

In vitro reconstitution, functional dissection, and mutational analysis of metal ion transport by mitoferrin-1

In vitro reconstitution, functional dissection, and mutational analysis of metal ion transport by mitoferrin-1

A functional NMR for membrane proteins: dynamics, ligand binding, and allosteric modulation

A rare male patient with Fontaine progeroid syndrome caused by p.R217H de novo mutation in SLC25A24

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