Titlebook: Regulation of Membrane Na+-K+ ATPase; Sajal Chakraborti,Naranjan S Dhalla Book 2016 Springer International Publishing AG, part of Springer

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Myocardial Na+ K+-ATPase and SERCA: Clinical and Pathological Significance From a Cytological Perspetory mechanisms are summarized. Molecular mechanisms of cell death and heart failure are explained with the analysis of the role of Na./K.-ATPase and SERCA in these processes. Facts are considered from a cytological, pathological, and clinical perspective with an accent to new therapeutic strategies

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Understanding the Dysfunction of Na+/K+-ATPase in Rapid-Onset Dystonia Parkinsonism and Amyotrophic ns for electrical excitability, neurotransmitter transport, volume regulation, and other vital cellular functions. The four isoforms of the Na./K+-ATPase α-subunit have a cell-specific and developmentally regulated expression pattern. There are different isoforms of the Na./K+-ATPase expressed in ne

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Activity of Membrane ATPases in Human Erythrocytes Under the Influence of Highly Hydroxylated Fullervities..The inhibition of the activities of erythrocyte ATPases caused by fullerenol could be the result of its direct and/or indirect (via membrane fluidity changes or influencing other erythrocyte proteins) interaction with the enzymes. Fullerenol affected also cytoskeletal transmembrane proteins,

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Emerging Role of Dysadherin in Metastasis is largely unknown. In this review we highlight the role of this recently identified protein in cancer progression. Dysadherin has been suggested to affect cancer progression by downregulating E-cadherin or by upregulating the chemokine production. Overexpression of dysadherin alters trans epitheli

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The Astrocytic Na+, K+-ATPase: Stimulation by Increased Extracellular K+, β-Adrenergic Activation, O initially is accumulated into astrocytes. This is due to higher Na.,K.-ATPase activity in astrocytes than in neurons and because the extracellular K.-sensitive site of the astrocytic Na.,K.-ATPase, in contrast to that of the neuronal enzyme, has low enough affinity for K. to be further activated by

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Uncoupling of P-Type ATPaseso establish electrochemical gradients for ions across cellular membranes. These pumps also perform specialized functions. In particular, sarcoplasmic reticulum Ca.-ATPase is involved in nonshivering thermogenesis. We have identified the first chemical compound, capsaicin, which uncouples ATP hydroly

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