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Wednesday, July 16, 2014

GaneshScience: Aquaporins:The functions and structure.







GaneshScience: Aquaporins:The functions and structure.: best blogs custom toolbar custom toolbar The Art of Water Transport in Aquaporins Aquaporins are membrane water channels that ...

Aquaporins:The functions and structure.

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The Art of Water Transport in Aquaporins Aquaporins are membrane water channels that play critical roles in controlling the water contents of cells. These channels are widely distributed in all kingdoms of life, including bacteria, plants, and mammals. More than ten different aquaporins have been found in human body, and several diseases, such as congenital cataracts and nephrogenic diabetes insipidus, are connected to the impaired function of these channels. They form tetramers in the cell membrane, and facilitate the transport of water and, in some cases, other small solutes across the membrane. However, the water pores are completely impermeable to charged species, such as protons, a remarkable property that is critical for the conservation of membrane's electrochemical potential, but paradoxical at the same time, since protons can usually be transfered readily through water molecules. The results of our simulations have now provided new insight into the mechanism underlying this fascinating property. Water molecules passing the channel are forced, by the protein's electrostatic forces, to flip at the center of the channel (see the animation), thereby breaking the alternative donor-acceptor arrangement that is necessary for proton translocation (read the complete story in our Science paper). Functional Implication of a Peculiar Protein Architecture In the year 2000, Stroud's labat UCSF succeeded in solving the first high resolution structure of an aquaporin by x-ray crystallography. The studied