Magnesium (Mg2+) is indispensable for several vital functions, such as neurotransmission,
cardiac conductance, blood glucose, blood pressure regulation, and proper function of more …

Mg 2+, the fourth most abundant cation in the body, serves as a cofactor for about 600
cellular enzymes. One third of ingested Mg 2+ is absorbed from the gut through a saturable …

Background: Magnesium (Mg 2+), the second most abundant cation in the cell, is woven into
a multitude of cellular functions. Dysmagnesemia is associated with multiple diseases and …

Novel molecular pathways in renal Mg2+ transport: a guided t... : Current Opinion in Nephrology
and Hypertension Novel molecular pathways in renal Mg2+ transport: a guided tour along the …

Abstract Magnesium (Mg2+) is the fourth most abundant cation in the body. Thus,
magnesium homeostasis needs to be tightly regulated, and this is facilitated by intestinal …

Magnesium is an important, predominantly intracellular cation that is required for a wide
variety of cellular processes. The mammalian kidney plays a key role in whole-body …

In healthy individuals, Mg2+ homeostasis is tightly regulated by the concerted action of
intestinal absorption, exchange with bone, and renal excretion. The kidney, more precisely …

The genetic basis and cellular defects of a number of primary magnesium wasting diseases
have been elucidated over the past decade. This review correlates the clinical …

Magnesium is the fourth most abundant cation in the body. It plays a critical role in many
biological processes, including the process of energy release. Paracellular transport of …

Recent advances in molecular genetics in hereditary hypomagnesemia substantiated the
role of a variety of genes and their encoded proteins in human magnesium transport …