Genomics and Applied Biology 2018, Vol.9, No.1, 1-5
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Fedorova, O.V., Simbirtsev A.S., Kolodkin N.I., Kotov A.Y., Agalakova N.I., Kashkin V.A., Tapilskaya N.I., Reznik V.A., Frolova E.V., Nikitina E.R., Georgy
V., Budny G.V., Dan L. Longo D.L., Lakatta E.G., Bagrov A.Y., 2008, Monoclonal antibody to an endogenous bufadienolide, marinobufagenin, reverses
preeclampsia-induced Na/K-ATPase inhibition and lowers blood pressure in NaCl-sensitive hypertension, J Hypertens, 26 (12): 2414-25
Fedorova O.V., Lakatta E.G., Bagrov A.Y., Melander O., 2015, Plasma level of the endogenous sodium pump ligand marinobufagenin is related to the
salt-sensitivity in men, J Hypertens, 33(3): 534-541
Felder R.A., White M.J., Williams S.M., Jose P.A., 2013, Diagnostic tools for hypertension and salt sensitivity testing, Curr Opin Nephrol Hypertens, 22 (1):
65-76
Frame A.A., Wainford R.D., 2017, Renal sodium handling and sodium sensitivity, Kidney Res Clin Pract, 36 (2): 117-131
, 2016, Aortic Fibrosis, Induced by High Salt Intake in the
Absence of Hypertensive Response, is Reduced by a Monoclonal Antibody to Marinobufagenin, Am J Hypertens, 29 (5): 641-646
Jablonski K.L., Fedorova O.V., Racine M.L., Geolfos C.J., Gates P.E., Fleenor B.S., Lakatta E.G., Bagrov A.Y., Seals D.R., 2013, Dietary sodium restriction and
association with urinary marinobufagenin, blood pressure, and aortic stiffness, Clin J Am Soc Nephrol, 8 (11): 1952-1959
Kotchen T.A., Cowley A.W., Jr, Frohlich E.D., Salt in health and disease--a delicate balance, N Engl J Med, 27;368 (26): 2531-2532
Liang M., Tian J., Liu L.J., Pierre S., Liu J., Shapiro J., Xie Z.J., 2007, Identification of a pool of non-pumping Na/K-ATPase, J Biol Chem, 282 (14):
10585-10593
Liu C., Bai Y., Chen Y., Wang Y., Sottejeau Y., Liu L., Li X., Lingrel J.B., Malhotra D., Cooper C.J., Shapiro J.I., Xie Z.J., Tian J., 2012, Reduction of
Na/K-ATPase potentiates marinobufagenin-induced cardiac dysfunction and myocyte apoptosis, J Biol Chem, 287 (20): 16390-16398
Morrill G.A., Kostellow A.B., Askari A., 2008, Progesterone binding to the alpha1-subunit of the Na/K-ATPase on the cell surface: insights from computational
modeling, Steroids, 73 (1): 27-40
Mou J.J., Ren K.Y., 2012, Salt sensitivity diagnosis and mechanism of high blood pressure Theory and practice of diagnostics, 11 (06): 543-546
Mou J.J., Pei Z.R., Liu F.Q., Zhu C.,Wang L., 2014, Salt sensitivity of patients with high blood pressure circadian rhythm of blood pressure variability and
urinary sodium excretion, Chinese Journal of Cardiovascular Medicine, 19 (1): 28-31
Schoner W., Scheiner-Bobis G.., 2007, Endogenous and exogenous cardiac glycosides: their roles in hypertension, salt metabolism, and cell growth, Am J
Physiol Cell Physiol, 293 (2): 509-536
Wang Y., Suo L.Y., Li X.M., 2011, Endogenous digitalis relationship with cardiovascular disease research status, Chinese journal of cardiovascular, 16(4):
322-324
Xie, J.X., Li X, Xie Z., 2013, Regulation of renal function and structure by the signaling Na/K-ATPase. IUBMB Life, 65 (12): 991-998
Xu Z.S., 2015, Salt sensitivity of blood pressure fluctuations in patients with high blood pressure and clinical observation and urinary sodium excretion,
Cardio-cerebrovascular disease prevention and control, 15 (4): 281-283,295
Yoshinaga M., Toda N., Tamura Y., Terakado S., Ueno M., Otsuka K., Numabe A., Kawabata Y., Uehara Y., 2012, Japanese traditional miso soup attenuates
salt-induced hypertension and its organ damage in Dahl salt-sensitive rats, Nutrition, 28 (9): 924-931
