Appearance of Water Channels in Xenopus Oocytes Expressing Red Cell CHIP28 Protein
Science, 1992•science.org
Water rapidly crosses the plasma membrane of red blood cells (RBCs) and renal tubules
through specialized channels. Although selective for water, the molecular structure of these
channels is unknown. The CHIP28 protein is an abundant integral membrane protein in
mammalian RBCs and renal proximal tubules and belongs to a family of membrane proteins
with unknown functions. Oocytes from Xenopus laevis microinjected with in vitro-transcribed
CHIP28 RNA exhibited increased osmotic water permeability; this was reversibly inhibited …
through specialized channels. Although selective for water, the molecular structure of these
channels is unknown. The CHIP28 protein is an abundant integral membrane protein in
mammalian RBCs and renal proximal tubules and belongs to a family of membrane proteins
with unknown functions. Oocytes from Xenopus laevis microinjected with in vitro-transcribed
CHIP28 RNA exhibited increased osmotic water permeability; this was reversibly inhibited …
Water rapidly crosses the plasma membrane of red blood cells (RBCs) and renal tubules through specialized channels. Although selective for water, the molecular structure of these channels is unknown. The CHIP28 protein is an abundant integral membrane protein in mammalian RBCs and renal proximal tubules and belongs to a family of membrane proteins with unknown functions. Oocytes from Xenopus laevis microinjected with in vitro-transcribed CHIP28 RNA exhibited increased osmotic water permeability; this was reversibly inhibited by mercuric chloride, a known inhibitor of water channels. Therefore it is likely that CHIP28 is a functional unit of membrane water channels.
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