Add to ORKGCorA is the major transport system responsible for Mg2+ uptake in bacteria and can functionally substitute for its homologue Mrs2p in the yeast inner mitochondrial membrane. Although several CorA crystal structures are available, the molecular mechanism of Mg2+ uptake remains to be established. Here we use EPR spectroscopy, electrophysiology and molecular dynamic simulations to show that CorA is regulated by cytoplasmic Mg2+ acting as a ligand and elucidate the basic conformational rearrangements responsible for Mg2+-dependent gating. Mg2+ unbinding at the divalent cation sensor triggers a conformational change that leads to the inward motion of the stalk helix, which propagates to the pore forming transmembrane helix TM1. Helical tilting a...
AbstractMagnesium translocation across cell membranes is essential for numerous physiological proces...
ABSTRACT Members of the CorA-Mrs2-Alr1 superfamily of Mg21 transporters are ubiquitous among pro- an...
AbstractCorA channels are responsible for the uptake of essential magnesium ions by bacteria. X-ray ...
Despite the importance of Mg2+ for numerous cellular activities, the mechanisms underlying its impor...
CorA is the primary magnesium channel in prokaryotes and the most extensively studied member of the ...
Magnesium (Mg2+) plays an important role in many essential cellular processes, and its concentration...
Both Mg2+ and Co2+ are essential ions for organisms, without which pathophysiological effects would ...
Abstract The CorA family of proteins regulates the homeostasis of divalent metal ions in many bacter...
International audienceThe CorA family of proteins regulates the homeostasis of divalent metal ions i...
SummaryThe transmembrane conformation of Thermotoga maritima CorA, a magnesium transport system, has...
AbstractMembers of the CorA-Mrs2-Alr1 superfamily of Mg2+ transporters are ubiquitous among pro- and...
The CorA family of proteins plays a housekeeping role in the homeostasis of divalent metal ions in m...
The functionally important extracellular loop is not resolved in the crystal structures of a putativ...
Magnesium is the most abundant divalent cation in the cell, and is required for many cellular proces...
AbstractMagnesium translocation across cell membranes is essential for numerous physiological proces...
ABSTRACT Members of the CorA-Mrs2-Alr1 superfamily of Mg21 transporters are ubiquitous among pro- an...
AbstractCorA channels are responsible for the uptake of essential magnesium ions by bacteria. X-ray ...
Despite the importance of Mg2+ for numerous cellular activities, the mechanisms underlying its impor...
CorA is the primary magnesium channel in prokaryotes and the most extensively studied member of the ...
Magnesium (Mg2+) plays an important role in many essential cellular processes, and its concentration...
Both Mg2+ and Co2+ are essential ions for organisms, without which pathophysiological effects would ...
Abstract The CorA family of proteins regulates the homeostasis of divalent metal ions in many bacter...
International audienceThe CorA family of proteins regulates the homeostasis of divalent metal ions i...
SummaryThe transmembrane conformation of Thermotoga maritima CorA, a magnesium transport system, has...
AbstractMembers of the CorA-Mrs2-Alr1 superfamily of Mg2+ transporters are ubiquitous among pro- and...
The CorA family of proteins plays a housekeeping role in the homeostasis of divalent metal ions in m...
The functionally important extracellular loop is not resolved in the crystal structures of a putativ...
Magnesium is the most abundant divalent cation in the cell, and is required for many cellular proces...
AbstractMagnesium translocation across cell membranes is essential for numerous physiological proces...
ABSTRACT Members of the CorA-Mrs2-Alr1 superfamily of Mg21 transporters are ubiquitous among pro- an...
AbstractCorA channels are responsible for the uptake of essential magnesium ions by bacteria. X-ray ...