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- [1] INTERACTION OF A K+ CHANNEL BETA-SUBUNIT (KV-BETA-3) WITH C-TYPE INACTIVATION IN AN N-TERMINAL DELETION MUTANT OF A KV1.4 ALPHA-SUBUNIT (FK1)[J]. CIRCULATION, 1995, 92 (08) : 541 - 541MORALES, HJCASTELLINO, RCRASMUSSON, RLSTRAUSS, HC
- [2] MODULATION OF THE INACTIVATION OF THE MOUSE CLONED POTASSIUM CHANNEL MKV1.1 BY THE KV-BETA(1) SUBUNIT AND EFFECTS OF SYNTHETIC KV-BETA(1) AND KV1.4 PEPTIDES[J]. JOURNAL OF PHYSIOLOGY-LONDON, 1995, 489P : P75 - P76STEPHENS, GJHEBLICH, FCOCKETT, MIOWEN, DG
- [3] THE VOLTAGE-DEPENDENT K+ CHANNEL (KV1.5) CLONED FROM RABBIT HEART AND FACILITATION OF INACTIVATION OF THE DELAYED RECTIFIER CURRENT BY THE RAT BETA-SUBUNIT[J]. FEBS LETTERS, 1995, 372 (01) : 20 - 24SASAKI, YISHII, KNUNOKI, KYAMAGISHI, TTAIRA, N
- [4] COUPLING BETWEEN ACTIVATION AND INACTIVATION OF TANDEM CONSTRUCTS OF AN INACTIVATING K+ CHANNEL (KV1.4) CLONED FROM FERRET VENTRICLE[J]. CIRCULATION, 1994, 90 (04) : 415 - 415MORALES, MJCASTELLINO, RCRASMUSSON, RLZHANG, YSTRAUSS, HC
- [5] The beta subunit, Kv beta 1.2, acts as a rapid open channel blocker of NH2-terminal deleted Kv1.4 alpha-subunits[J]. ANALYTICAL AND QUANTITATIVE CARDIOLOGY, 1997, 430 : 29 - 37Rasmusson, RLWang, SMCastellino, RCMorales, MJStrauss, HC
- [6] VOLTAGE-DEPENDENT AND TIME-DEPENDENT BLOCK BY PERHEXILINE OF K+ CURRENTS IN HUMAN ATRIUM AND IN CELLS EXPRESSING A KV1.5-TYPE CLONED CHANNEL[J]. JOURNAL OF PHARMACOLOGY AND EXPERIMENTAL THERAPEUTICS, 1995, 274 (01): : 444 - 449RAMPE, DWANG, ZGFERMINI, BWIBLE, BDAGE, RCNATTEL, S
- [7] Neuroprotective agent riluzole dramatically slows inactivation of Kv1.4 potassium channels by a voltage-dependent oxidative mechanism[J]. JOURNAL OF PHARMACOLOGY AND EXPERIMENTAL THERAPEUTICS, 2001, 299 (01): : 227 - 237Xu, LEnyeart, JAEnyeart, JJ
- [8] TIME-DEPENDENT, VOLTAGE-DEPENDENT, AND STATE-DEPENDENT BLOCK BY QUINIDINE OF A CLONED HUMAN CARDIAC POTASSIUM CHANNEL[J]. MOLECULAR PHARMACOLOGY, 1992, 41 (02) : 322 - 330SNYDERS, DJKNOTH, KMROBERDS, SLTAMKUN, MM
- [9] SENSITIZATION OF INSP(3)-DEPENDENT CALCIUM SIGNALING THROUGH STRUCTURAL MODIFICATION OF VOLTAGE-DEPENDENT CALCIUM-CHANNEL - A PHYSIOLOGICAL RELEVANCE OF THE CALCIUM-CHANNEL BETA-SUBUNIT[J]. BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1995, 208 (01) : 440 - 446MATIFAT, FCOLLIN, THUMEZ, SBRULE, GFOURNIER, F
- [10] MOLECULAR-CLONING OF 3 ISOFORMS OF THE L-TYPE VOLTAGE-DEPENDENT CALCIUM-CHANNEL BETA-SUBUNIT FROM NORMAL HUMAN HEART[J]. CIRCULATION RESEARCH, 1993, 72 (06) : 1337 - 1344COLLIN, TWANG, JJNARGEOT, JSCHWARTZ, A