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- [1] IMMUNOCHEMICAL STUDIES OF (NA++K+)-ATPASE USING SITE-SPECIFIC, SYNTHETIC PEPTIDE DIRECTED ANTIBODIESBIOCHIMICA ET BIOPHYSICA ACTA, 1987, 916 (01) : 100 - 111BALL, WJLOFTICE, CD
- [2] DEMONSTRATION OF A CATION-SPECIFIC BINDING SITE IN (NA++K+)-ACTIVATED ATPASEPFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY, 1970, 319 (3-4): : R89 - &SCHONER, WSCHMIDT, H
- [3] Cell surface expression of a specific antigenic site on the catalytic subunit of (Na++K+)-ATPaseBIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 2002, 291 (01) : 111 - 115Myers, ACBochner, BSTomaselli, GFFedarko, NHudson, SARohde, HHuang, SKXu, KY
- [4] EFFECTS OF SPECIFIC OUABAIN-H-3 BINDING TO CARDIAC GLYCOSIDE RECEPTOR ON (NA++K+)-ATPASE ACTIVITY AND ON FORCE OF CONTRACTION IN RAT-HEARTNAUNYN-SCHMIEDEBERGS ARCHIVES OF PHARMACOLOGY, 1978, 302 : R34 - R34PHILIPP, GERDMANN, ESCHOLZ, H
- [5] SPECIES-DIFFERENCE IN TEMPERATURE-DEPENDENCE OF CARDIAC (NA++K+)-ATPASE ACTIVITYBIOCHEMICAL PHARMACOLOGY, 1985, 34 (13) : 2343 - 2346MATSUDA, TIWATA, H
- [6] EFFECT OF VANADIUM IN THE +5, +4 AND +3 OXIDATION-STATES ON CARDIAC FORCE OF CONTRACTION, ADENYLATE-CYCLASE AND (NA++K+)-ATPASE ACTIVITYBIOCHEMICAL PHARMACOLOGY, 1982, 31 (23) : 3853 - 3860SCHMITZ, WSCHOLZ, HERDMANN, EKRAWIETZ, WWERDAN, K
- [7] Evidence that the H1-H2 domain of α1 subunit of (Na++K+)-ATPase participates in the regulation of cardiac contractionFASEB JOURNAL, 2005, 19 (01): : 53 - 61Xu, KYTakimoto, EJuang, GJZhang, QRohde, HMyers, AC
- [9] DIGITALIS STRUCTURE-ACTIVITY RELATIONSHIP ANALYSES - CONCLUSIONS FROM INDIRECT BINDING-STUDIES WITH CARDIAC (NA++K+)-ATPASEBIOCHEMICAL PHARMACOLOGY, 1983, 32 (18) : 2767 - 2774BROWN, LERDMANN, ETHOMAS, R
- [10] PURIFIED CARDIAC CELL-MEMBRANES WITH HIGH (NA++K+)ATPASE ACTIVITY CONTAIN SIGNIFICANT NADH-VANADATE REDUCTASE-ACTIVITYNATURE, 1979, 282 (5736) : 335 - 336ERDMANN, EKRAWIETZ, WPHILIPP, GHACKBARTH, ISCHMITZ, WSCHOLZ, HCRANE, FL