Authors:
SNYDER PM
GOULET CC
VOLK KA
ADAMS GM
PRINCE LS
STOKES JB
Citation: Pm. Snyder et al., INTERACTION OF NEDD4 WITH A C-TERMINAL PY MOTIF DECREASES SURFACE EXPRESSION OF THE EPITHELIAL SODIUM-CHANNEL, Molecular biology of the cell, 9, 1998, pp. 1944-1944
Citation: C. Cheng et al., ASSEMBLY OF THE EPITHELIAL NA+ CHANNEL EVALUATED USING SUCROSE GRADIENT SEDIMENTATION ANALYSIS, Molecular biology of the cell, 9, 1998, pp. 2635-2635
Citation: Cm. Adams et al., PROTONS ACTIVATE BRAIN NA-1 BY INDUCING A CONFORMATIONAL CHANGE THAT EXPOSES A RESIDUE ASSOCIATED WITH NEURODEGENERATION( CHANNEL), The Journal of biological chemistry, 273(46), 1998, pp. 30204-30207
Authors:
GOULET CC
VOLK KA
ADAMS CM
PRINCE LS
STOKES JB
SNYDER PM
Citation: Cc. Goulet et al., INHIBITION OF THE EPITHELIAL NA-SYNDROME( CHANNEL BY INTERACTION OF NEDD4 WITH A PY MOTIF DELETED IN LIDDLES), The Journal of biological chemistry, 273(45), 1998, pp. 30012-30017
Citation: C. Cheng et al., ASSEMBLY OF THE EPITHELIAL NA+ CHANNEL EVALUATED USING SUCROSE GRADIENT SEDIMENTATION ANALYSIS, The Journal of biological chemistry, 273(35), 1998, pp. 22693-22700
Authors:
SNYDER PM
CHENG C
PRINCE LS
ROGERS JC
WELSH MJ
Citation: Pm. Snyder et al., ELECTROPHYSIOLOGICAL AND BIOCHEMICAL-EVIDENCE THAT DEG ENAC CATION CHANNELS ARE COMPOSED OF 9 SUBUNITS/, The Journal of biological chemistry, 273(2), 1998, pp. 681-684
Authors:
SNYDER PM
GOULET CC
VOLK KA
STOKES JB
WELSH MJ
Citation: Pm. Snyder et al., INHIBITION OF THE EPITHELIAL NA-TERMINAL PY MOTIF( CHANNEL BY THE INTERACTION OF NEDD4 WITH A C), Circulation, 98(17), 1998, pp. 46-46
Citation: Pm. Snyder et Mj. Welsh, THE ALPHA-SUBUNIT, B-SUBUNIT, AND GAMMA-SUBUNIT EACH CONTRIBUTE TO THE PORE OF THE EPITHELIAL NA+ CHANNEL ENAC, Circulation, 98(17), 1998, pp. 2460-2460
Authors:
SNYDER PM
GOULET CC
VOLK KA
STOKES JB
WELSH MJ
Citation: Pm. Snyder et al., INHIBITION OF THE EPITHELIAL NA-TERMINAL PY MOTIF( CHANNEL BY THE INTERACTION OF NEDD4 WITH A C), Circulation, 98(17), 1998, p.
Citation: Cm. Adams et al., INTERACTIONS BETWEEN SUBUNITS OF THE HUMAN EPITHELIAL SODIUM-CHANNEL, The Journal of biological chemistry, 272(43), 1997, pp. 27295-27300
Citation: Mp. Price et al., CLONING AND FUNCTIONAL EXPRESSION OF A NOVEL HUMAN BRAIN NA+ CHANNEL, Journal of investigative medicine, 44(3), 1996, pp. 228-228
Citation: Mp. Price et al., CLONING AND EXPRESSION OF A NOVEL HUMAN BRAIN NA+ CHANNEL, The Journal of biological chemistry, 271(14), 1996, pp. 7879-7882
Citation: Pm. Snyder et Mj. Welsh, LIDDLES SYNDROME MUTATIONS DISRUPT CAMP-DEPENDENT REGULATION OF THE EPITHELIAL NA+ CHANNEL, Circulation, 94(8), 1996, pp. 635-635
Citation: Fj. Mcdonald et al., LIDDLES SYNDROME MUTATIONS INCREASE ACTIVITY OF THE EPITHELIAL NA+ CHANNEL, Molecular biology of the cell, 6, 1995, pp. 310-310
Citation: Ka. Volk et al., ENAC IS THE PREDOMINANT NA+ CHANNEL IN THE APICAL MEMBRANE OF THE RATRENAL INNER MEDULLARY COLLECTING DUCT, Journal of the American Society of Nephrology, 6(3), 1995, pp. 355-355
Citation: Fj. Mcdonald et al., CLONING AND EXPRESSION OF THE BETA-SUBUNIT AND GAMMA-SUBUNIT OF THE HUMAN EPITHELIAL SODIUM-CHANNEL, American journal of physiology. Cell physiology, 37(5), 1995, pp. 1157-1163
Authors:
SNYDER PM
PRICE MP
MCDONALD FJ
ADAMS CM
VOLK KA
ZEIHER BG
STOKES JB
WELSH MJ
Citation: Pm. Snyder et al., MECHANISM BY WHICH LIDDLES SYNDROME MUTATIONS INCREASE ACTIVITY OF A HUMAN EPITHELIAL NA+ CHANNEL, Cell, 83(6), 1995, pp. 969-978
Authors:
ELLSWORTH PI
SCHNED AR
HEANEY JA
SNYDER PM
Citation: Pi. Ellsworth et al., SURGICAL-TREATMENT OF VERRUCOUS CARCINOMA OF THE BLADDER UNASSOCIATEDWITH BILHARZIAL CYSTITIS - CASE-REPORT AND LITERATURE-REVIEW, The Journal of urology, 153(2), 1995, pp. 411-414
Citation: Ka. Volk et al., RENAC IS THE PREDOMINANT NA+ CHANNEL IN THE APICAL MEMBRANE OF THE RAT RENAL INNER MEDULLARY COLLECTING DUCT, The Journal of clinical investigation, 96(6), 1995, pp. 2748-2757
Citation: Pm. Snyder et al., MEMBRANE TOPOLOGY OF THE AMILORIDE-SENSITIVE EPITHELIAL SODIUM-CHANNEL, The Journal of biological chemistry, 269(39), 1994, pp. 24379-24383
Citation: Fj. Mcdonald et al., CLONING, EXPRESSION, AND TISSUE DISTRIBUTION OF A HUMAN AMILORIDE-SENSITIVE NA+ CHANNEL, The American journal of physiology, 266(6), 1994, pp. 120000728-120000734