| Published Application/Species/Sample/Dilution | Reference |
|---|
- immunohistochemistry - paraffin section; human; 1:100
| Schirmer L, Srivastava R, Kalluri S, Böttinger S, Herwerth M, Carassiti D, et al. Differential loss of KIR4.1 immunoreactivity in multiple sclerosis lesions. Ann Neurol. 2014;75:810-28 pubmed publisher |
| Korrapati S, Taukulis I, Olszewski R, Pyle M, Gu S, Singh R, et al. Single Cell and Single Nucleus RNA-Seq Reveal Cellular Heterogeneity and Homeostatic Regulatory Networks in Adult Mouse Stria Vascularis. Front Mol Neurosci. 2019;12:316 pubmed publisher |
| Kim M, Kim S, Ryu N, Ma J, Kim Y, Jung J, et al. Gene therapy for hereditary hearing loss by SLC26A4 mutations in mice reveals distinct functional roles of pendrin in normal hearing. Theranostics. 2019;9:7184-7199 pubmed publisher |
| Noble K, Liu T, Matthews L, Schulte B, Lang H. Age-Related Changes in Immune Cells of the Human Cochlea. Front Neurol. 2019;10:895 pubmed publisher |
| Galland F, Seady M, Taday J, Smaili S, Goncalves C, Leite M. Astrocyte culture models: Molecular and function characterization of primary culture, immortalized astrocytes and C6 glioma cells. Neurochem Int. 2019;131:104538 pubmed publisher |
| Miwa T, Minoda R, Ishikawa Y, Kajii T, Orita Y, Ohyama T. Role of Dach1 revealed using a novel inner ear-specific Dach1-knockdown mouse model. Biol Open. 2019;8: pubmed publisher |
| Fischer R, Roux A, Wareham L, Sappington R. Pressure-dependent modulation of inward-rectifying K+ channels: implications for cation homeostasis and K+ dynamics in glaucoma. Am J Physiol Cell Physiol. 2019;317:C375-C389 pubmed publisher |
| Kinboshi M, Shimizu S, Mashimo T, Serikawa T, Ito H, Ikeda A, et al. Down-Regulation of Astrocytic Kir4.1 Channels during the Audiogenic Epileptogenesis in Leucine-Rich Glioma-Inactivated 1 (Lgi1) Mutant Rats. Int J Mol Sci. 2019;20: pubmed publisher |
| Rao S, Katoozi S, Skauli N, Froehner S, Ottersen O, Adams M, et al. Targeted deletion of β1-syntrophin causes a loss of Kir 4.1 from Müller cell endfeet in mouse retina. Glia. 2019;67:1138-1149 pubmed publisher |
| Kelly J, Abitbol J, Hulme S, Press E, Laird D, Allman B. The connexin 30 A88V mutant reduces cochlear gap junction expression and confers long-term protection against hearing loss. J Cell Sci. 2019;132: pubmed publisher |
| Cerrato V, Parmigiani E, Figueres Oñate M, Betizeau M, Aprato J, Nanavaty I, et al. Multiple origins and modularity in the spatiotemporal emergence of cerebellar astrocyte heterogeneity. PLoS Biol. 2018;16:e2005513 pubmed publisher |
| Schirmer L, Mobius W, Zhao C, Cruz Herranz A, Ben Haim L, Cordano C, et al. Oligodendrocyte-encoded Kir4.1 function is required for axonal integrity. elife. 2018;7: pubmed publisher |
| Yu X, Taylor A, Nagai J, GOLSHANI P, Evans C, Coppola G, et al. Reducing Astrocyte Calcium Signaling In Vivo Alters Striatal Microcircuits and Causes Repetitive Behavior. Neuron. 2018;99:1170-1187.e9 pubmed publisher |
| Mukai T, Kinboshi M, Nagao Y, Shimizu S, Ono A, Sakagami Y, et al. Antiepileptic Drugs Elevate Astrocytic Kir4.1 Expression in the Rat Limbic Region. Front Pharmacol. 2018;9:845 pubmed publisher |
| Malik S, Lambert E, Zhang J, Wang T, Clark H, Cypress M, et al. Potassium conservation is impaired in mice with reduced renal expression of Kir4.1. Am J Physiol Renal Physiol. 2018;315:F1271-F1282 pubmed publisher |
| Allingham M, Tserentsoodol N, Saloupis P, Mettu P, Cousins S. Aldosterone Exposure Causes Increased Retinal Edema and Severe Retinopathy Following Laser-Induced Retinal Vein Occlusion in Mice. Invest Ophthalmol Vis Sci. 2018;59:3355-3365 pubmed publisher |
| Pisciotta A, Bertoni L, Riccio M, Mapelli J, Bigiani A, La Noce M, et al. Use of a 3D Floating Sphere Culture System to Maintain the Neural Crest-Related Properties of Human Dental Pulp Stem Cells. Front Physiol. 2018;9:547 pubmed publisher |
| Kelley K, Ben Haim L, Schirmer L, Tyzack G, Tolman M, Miller J, et al. Kir4.1-Dependent Astrocyte-Fast Motor Neuron Interactions Are Required for Peak Strength. Neuron. 2018;98:306-319.e7 pubmed publisher |
| Marino M, Frisullo G, Di Sante G, Samengo D, Provenzano C, Mirabella M, et al. Low reliability of anti-KIR4.183-120 peptide auto-antibodies in multiple sclerosis patients. Mult Scler. 2018;24:910-918 pubmed publisher |
| Silva J, Lopes A, Talbot J, Cecílio N, Rossato M, Silva R, et al. Neuroimmune-Glia Interactions in the Sensory Ganglia Account for the Development of Acute Herpetic Neuralgia. J Neurosci. 2017;37:6408-6422 pubmed publisher |
| Zhong R, Liang J, Tao A, Wu L, Yang X, Xu H, et al. Anti-KIR4.1 Antibodies in Chinese Patients with Central Nervous System Inflammatory Demyelinating Disorders. Neuroimmunomodulation. 2016;23:295-300 pubmed publisher |
| Wagner L, Pannicke T, Rupprecht V, Frommherz I, Volz C, Illes P, et al. Suppression of SNARE-dependent exocytosis in retinal glial cells and its effect on ischemia-induced neurodegeneration. Glia. 2017;65:1059-1071 pubmed publisher |
| Marnetto F, Valentino P, Caldano M, Bertolotto A. Detection of potassium channel KIR4.1 antibodies in Multiple Sclerosis patients. J Immunol Methods. 2017;445:53-58 pubmed publisher |
| Kato J, Takai Y, Hayashi M, Kato Y, Tanaka M, Sohma Y, et al. Expression and localization of aquaporin-4 in sensory ganglia. Biochem Biophys Res Commun. 2014;451:562-7 pubmed publisher |
| Zayas Santiago A, Agte S, Rivera Y, Benedikt J, Ulbricht E, Karl A, et al. Unidirectional photoreceptor-to-Müller glia coupling and unique K+ channel expression in Caiman retina. PLoS ONE. 2014;9:e97155 pubmed publisher |
