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Sodium and water homeostasis = comparative, evolutionary and genetic models /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Sodium and water homeostasis/ edited by Kelly Anne Hyndman, Thomas L. Pannabecker.
其他題名:	comparative, evolutionary and genetic models /
其他作者:	Pannabecker, Thomas L.
出版者:	New York, NY :Springer New York : : 2015.,
面頁冊數:	vi, 325 p. :ill., digital ; : 24 cm.;
Contained By:	Springer eBooks
標題:	Animal Biochemistry. -
電子資源:	http://dx.doi.org/10.1007/978-1-4939-3213-9
ISBN:	9781493932139

Sodium and water homeostasis = comparative, evolutionary and genetic models /
Sodium and water homeostasiscomparative, evolutionary and genetic models /[electronic resource] :edited by Kelly Anne Hyndman, Thomas L. Pannabecker. - New York, NY :Springer New York :2015. - vi, 325 p. :ill., digital ;24 cm. - Physiology in health and disease. - Physiology in health and disease..

Introduction -- ANG II and water balance in frogs -- Sex differences in ANGII hypertension -- Na-K-ATPase b subunit association with tight junction Drosophila tub size and tight junction function,- Na-K-ATPase in hypertension -- Endothelin regulation of ion transport in non-mammlian transporting epithelia -- Genetic models of Endothelin regulation of sodium transport -- miRNA and sodium and water balance in the developing zebrafish -- miRNA and sodiumand water balance in mammals -- Comparative and genetic models of WNK signaling in osmotic homeostasis -- Genetics of WNK signaling and disease in humans -- Comparative and evolutionary physiology of Water channels -- Genetic models resulting in urine concentrating defect -- Water balance in desert-adapted animals.0 Comparisons of nephron morphology and the urine concentrating mechanism -- Non-traditional models: the giraffe kidney -- Non-traditional models: insect tubule transport -- Circadian clock in ion transporters in insect vision -- Circadian clock, melatonin, and osmoregulation in fishes.

This book presents cutting edge methods that provide insights into the pathways by which salt and water traverse cell membranes and flow in an orchestrated fashion amongst the many compartments of the body. It focuses on a number of molecular, cellular and whole animal studies that involve multiple physiological systems and shows how the internal milieu is regulated by multifactorial gene regulation, molecular signaling, and cell and organ architecture. Topics covered include: water channels, the urinary concentrating mechanism, angiotensin, the endothelin system, miRNAs and MicroRNA in osmoregulation, desert-adapted mammals, the giraffe kidney, mosquito Malpighian tubules, and circadian rhythms. The book highlights how different approaches to explaining the same physiological processes greatly increase our understanding of these fundamental processes. Greater integration of comparative, evolutionary and genetic animal models in basic science and medical science will improve our overall grasp of the mechanisms of sodium and water balance.

ISBN: 9781493932139

Standard No.: 10.1007/978-1-4939-3213-9doiSubjects--Topical Terms:

668644
Animal Biochemistry.

LC Class. No.: QP552.A65

Dewey Class. No.: 572.696

Sodium and water homeostasis = comparative, evolutionary and genetic models /
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520 $a This book presents cutting edge methods that provide insights into the pathways by which salt and water traverse cell membranes and flow in an orchestrated fashion amongst the many compartments of the body. It focuses on a number of molecular, cellular and whole animal studies that involve multiple physiological systems and shows how the internal milieu is regulated by multifactorial gene regulation, molecular signaling, and cell and organ architecture. Topics covered include: water channels, the urinary concentrating mechanism, angiotensin, the endothelin system, miRNAs and MicroRNA in osmoregulation, desert-adapted mammals, the giraffe kidney, mosquito Malpighian tubules, and circadian rhythms. The book highlights how different approaches to explaining the same physiological processes greatly increase our understanding of these fundamental processes. Greater integration of comparative, evolutionary and genetic animal models in basic science and medical science will improve our overall grasp of the mechanisms of sodium and water balance.
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