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ROMK expression remains unaltered in a mouse model of familial hyperkalemic hypertension caused by the CUL3Δ403-459 mutation. , Murthy M., Physiol Rep. July 1, 2016; 4 (13):
Inhibition of ROMK channels by low extracellular K+ and oxidative stress. , Frindt G., Am J Physiol Renal Physiol. July 15, 2013; 305 (2): F208-15.
Functional and developmental expression of a zebrafish Kir1.1 ( ROMK) potassium channel homologue Kcnj1. , Abbas L., J Physiol. March 15, 2011; 589 (Pt 6): 1489-503.
Functional analysis of Rfx6 and mutant variants associated with neonatal diabetes. , Pearl EJ ., Dev Biol. March 1, 2011; 351 (1): 135-45.
Native and recombinant Slc26a3 (downregulated in adenoma, Dra) do not exhibit properties of 2Cl-/1HCO3- exchange. , Alper SL., Am J Physiol Cell Physiol. February 1, 2011; 300 (2): C276-86.
Tamm-Horsfall glycoprotein interacts with renal outer medullary potassium channel ROMK2 and regulates its function. , Renigunta A., J Biol Chem. January 21, 2011; 286 (3): 2224-35.
Development of a selective small-molecule inhibitor of Kir1.1, the renal outer medullary potassium channel. , Bhave G., Mol Pharmacol. January 1, 2011; 79 (1): 42-50.
Hypertension resistance polymorphisms in ROMK ( Kir1.1) alter channel function by different mechanisms. , Fang L., Am J Physiol Renal Physiol. December 1, 2010; 299 (6): F1359-64.
Effects of dietary K on cell-surface expression of renal ion channels and transporters. , Frindt G., Am J Physiol Renal Physiol. October 1, 2010; 299 (4): F890-7.
Mouse cystic fibrosis transmembrane conductance regulator forms cAMP-PKA-regulated apical chloride channels in cortical collecting duct. , Lu M., Proc Natl Acad Sci U S A. March 30, 2010; 107 (13): 6082-7.
The miR-30 miRNA family regulates Xenopus pronephros development and targets the transcription factor Xlim1/ Lhx1. , Agrawal R ., Development. December 1, 2009; 136 (23): 3927-36.
Organization of the pronephric kidney revealed by large-scale gene expression mapping. , Raciti D ., Genome Biol. January 1, 2008; 9 (5): R84.
Xenopus Bicaudal-C is required for the differentiation of the amphibian pronephros. , Tran U ., Dev Biol. July 1, 2007; 307 (1): 152-64.
Inhibition by cocaine of G protein-activated inwardly rectifying K+ channels expressed in Xenopus oocytes. , Kobayashi T., Toxicol In Vitro. June 1, 2007; 21 (4): 656-64.
CFTR is required for PKA-regulated ATP sensitivity of Kir1.1 potassium channels in mouse kidney. , Lu M., J Clin Invest. March 1, 2006; 116 (3): 797-807.
WNK3, a kinase related to genes mutated in hereditary hypertension with hyperkalaemia, regulates the K+ channel ROMK1 ( Kir1.1). , Leng Q., J Physiol. March 1, 2006; 571 (Pt 2): 275-86.
Phosphorylation-regulated endoplasmic reticulum retention signal in the renal outer-medullary K+ channel ( ROMK). , O'Connell AD., Proc Natl Acad Sci U S A. July 12, 2005; 102 (28): 9954-9.
Inhibition of ROMK potassium channel by syntaxin 1A. , Sun TJ., Am J Physiol Renal Physiol. February 1, 2005; 288 (2): F284-9.
Dietary potassium restriction stimulates endocytosis of ROMK channel in rat cortical collecting duct. , Chu PY., Am J Physiol Renal Physiol. December 1, 2003; 285 (6): F1179-87.
Inhibition of G protein-activated inwardly rectifying K+ channels by fluoxetine (Prozac). , Kobayashi T., Br J Pharmacol. March 1, 2003; 138 (6): 1119-28.
Evidence for endocytosis of ROMK potassium channel via clathrin-coated vesicles. , Zeng WZ., Am J Physiol Renal Physiol. October 1, 2002; 283 (4): F630-9.
Barttin increases surface expression and changes current properties of ClC-K channels. , Waldegger S., Pflugers Arch. June 1, 2002; 444 (3): 411-8.
Influences of the N- and C-termini of the distal nephron inward rectifier, ROMK. , Bhandari S., Kidney Blood Press Res. January 1, 2001; 24 (3): 142-8.
Rat homolog of sulfonylurea receptor 2B determines glibenclamide sensitivity of ROMK2 in Xenopus laevis oocyte. , Tanemoto M., Am J Physiol Renal Physiol. April 1, 2000; 278 (4): F659-66.
Expression of a functional Kir4 family inward rectifier K+ channel from a gene cloned from mouse liver. , Pearson WL., J Physiol. February 1, 1999; 514 ( Pt 3) (Pt 3): 639-53.
Regulation of the ROMK potassium channel in the kidney. , Wald H., Exp Nephrol. January 1, 1999; 7 (3): 201-6.
pH-dependent modulation of the cloned renal K+ channel, ROMK. , McNicholas CM., Am J Physiol. December 1, 1998; 275 (6): F972-81.
pH-dependent modulation of the cloned renal K + channel, ROMK. , McNicholas CM., Am J Physiol Renal Physiol. December 1, 1998; 275 (6): F972-F981.
Localization of ROMK channels in the rat kidney. , Mennitt PA., J Am Soc Nephrol. December 1, 1997; 8 (12): 1823-30.
Cloning and functional expression of a novel isoform of ROMK inwardly rectifying ATP-dependent K+ channel, ROMK6 (Kir1.1f). , Kondo C., FEBS Lett. December 9, 1996; 399 (1-2): 122-6.
Molecular site for nucleotide binding on an ATP-sensitive renal K+ channel (ROMK2). , McNicholas CM., Am J Physiol. August 1, 1996; 271 (2 Pt 2): F275-85.
Susceptibility of cloned K+ channels to reactive oxygen species. , Duprat F., Proc Natl Acad Sci U S A. December 5, 1995; 92 (25): 11796-800.
ROMK inwardly rectifying ATP-sensitive K+ channel. II. Cloning and distribution of alternative forms. , Boim MA., Am J Physiol. June 1, 1995; 268 (6 Pt 2): F1132-40.
Cloning and functional characterization of a novel ATP-sensitive potassium channel ubiquitously expressed in rat tissues, including pancreatic islets, pituitary, skeletal muscle, and heart. , Inagaki N., J Biol Chem. March 17, 1995; 270 (11): 5691-4.
Electrostatic tuning of Mg2+ affinity in an inward-rectifier K+ channel. , Lu Z., Nature. September 15, 1994; 371 (6494): 243-6.
Cloning a novel human brain inward rectifier potassium channel and its functional expression in Xenopus oocytes. , Tang W., FEBS Lett. July 18, 1994; 348 (3): 239-43.
Alternative splicing of human inwardly rectifying K+ channel ROMK1 mRNA. , Yano H., Mol Pharmacol. May 1, 1994; 45 (5): 854-60.
Primary structure and functional expression of a rat G-protein-coupled muscarinic potassium channel. , Kubo Y., Nature. August 26, 1993; 364 (6440): 802-6.