about
Molecular cloning, genomic organization, and functional expression of Na+/H+ exchanger isoform 5 (NHE5) from human brainSecretory carrier membrane proteins interact and regulate trafficking of the organellar (Na+,K+)/H+ exchanger NHE7Identification of a mitochondrial Na+/H+ exchangerCalcineurin B homologous protein 3 promotes the biosynthetic maturation, cell surface stability, and optimal transport of the Na+/H+ exchanger NHE1 isoformbeta-Arrestins bind and decrease cell-surface abundance of the Na+/H+ exchanger NHE5 isoformMolecular genetics of Na,K-ATPaseTopological analysis of NHE1, the ubiquitous Na+/H+ exchanger using chymotryptic cleavageMolecular cloning and physical and genetic mapping of a novel human Na+/H+ exchanger (NHE5/SLC9A5) to chromosome 16q22.1Enhanced recruitment of endosomal Na+/H+ exchanger NHE6 into Dendritic spines of hippocampal pyramidal neurons during NMDA receptor-dependent long-term potentiationProline-rich motifs of the Na+/H+ exchanger 2 isoform. Binding of Src homology domain 3 and role in apical targeting in epithelia.Na+/H+ exchangers. Molecular diversity and relevance to heart.Activation of AMP-activated protein kinase regulates hippocampal neuronal pH by recruiting Na(+)/H(+) exchanger NHE5 to the cell surfaceIntracellular pH regulation by Na(+)/H(+) exchange requires phosphatidylinositol 4,5-bisphosphate.ATP dependence of Na+/H+ exchange. Nucleotide specificity and assessment of the role of phospholipidsRegulation of the alpha-subunit genes of the Na,K-ATPase and determinants of cardiac glycoside sensitivity.Genomic organization and glucocorticoid transcriptional activation of the rat Na+/H+ exchanger Nhe3 gene.A Christianson syndrome-linked deletion mutation (∆(287)ES(288)) in SLC9A6 disrupts recycling endosomal function and elicits neurodegeneration and cell deathCK2 phosphorylation of an acidic Ser/Thr di-isoleucine motif in the Na+/H+ exchanger NHE5 isoform promotes association with beta-arrestin2 and endocytosis.Determinants of Cation Permeation and Drug Sensitivity in Predicted Transmembrane Helix 9 and Adjoining Exofacial Re-entrant Loop 5 of Na+/H+ Exchanger NHE1.Focal localization of the NHE-1 isoform of the Na+/H+ antiport: assessment of effects on intracellular pH.Regulation of NHE3 activity by G protein subunits in renal brush-border membranes.Galpha12 differentially regulates Na+-H+ exchanger isoforms.Na(+)-K(+)-ATPase gene expression in rat intestine and Caco-2 cells: response to thyroid hormone.Na+/H+ exchangers of mammalian cells.Role of the cytoskeleton in mediating cAMP-dependent protein kinase inhibition of the epithelial Na+/H+ exchanger NHE3.Identification of sites in the second exomembrane loop and ninth transmembrane helix of the mammalian Na+/H+ exchanger important for drug recognition and cation translocation.The Na(+)/H (+) exchanger NHE5 is sorted to discrete intracellular vesicles in the central and peripheral nervous systems.Endosomal recycling of the Na+/H+ exchanger NHE3 isoform is regulated by the phosphatidylinositol 3-kinase pathway.Historical note on the untimely passing of George Ralph Mines.George Ralph Mines (1886-1914): the dawn of cardiac nonlinear dynamics.SMAD5 signaling: more than meets the nuclei.Primary structure and functional expression of a novel gastrointestinal isoform of the rat Na/H exchanger.Impaired posttranslational processing and trafficking of an endosomal Na+/H+ exchanger NHE6 mutant (Δ(370)WST(372)) associated with X-linked intellectual disability and autism.Developmental regulation of expression of the alpha 1 and alpha 2 subunits mRNAs of the voltage-dependent calcium channel in a differentiating myogenic cell line.Tissue-specific and developmental regulation of rat Na,K-ATPase catalytic alpha isoform and beta subunit mRNAs.A potential gain-of-function variant of SLC9A6 leads to endosomal alkalinization and neuronal atrophy associated with Christianson SyndromeA Slow pH-dependent Conformational Transition Underlies a Novel Mode of Activation of the Epithelial Na+/H+Exchanger-3 IsoformEpithelial-stromal interactions in the regulation of rat ventral prostate function: identification and characterization of pathways for androgen metabolism in isolated cell typesEffect of a 4-methyl-4-aza steroid on androgen metabolism by rat ventral prostate epithelial and stromal cell cultures: selective inhibition of 5 alpha-reductase activityAndrogen metabolism and regulation of rat ventral prostate growth and acid phosphatase during sexual maturation
P50
Q22001480-4825009F-8ACA-465C-B500-E53A1AF00BACQ24300303-8DC9F891-EED9-4365-B6D8-6A9547DAECEBQ24318319-81577ED3-22C5-4600-BC6A-89BEB6E3B26BQ24321413-C8F3B369-DA57-4B7F-A2A4-662585A4F681Q24556620-D00ECCF6-7390-4458-AB05-ABF98DF25924Q28237821-7C4C136A-2120-41AE-922F-785461A7090AQ28278245-4EBB6375-DA9A-4268-9A6B-383054048A3BQ28301884-A067B6BC-02B5-49B4-BD72-5ADC07F7A808Q28505241-64705987-9866-4FD7-87EA-2B736D8964FCQ30175804-C2CBFE18-DE25-48FF-8368-F4BDE45EC954Q33692479-272D92B4-BD88-4F2E-856C-00062081B6EFQ33947168-611E9B21-D11D-442C-B681-59B029CD2FD4Q36342478-C87442C3-DBE9-4528-B6BC-6C5391991F21Q36417627-C2C36A85-AEEE-4DC3-B49B-ACDF466AA1B8Q36422144-3E38833E-018A-47A4-8529-081795EAAFFBQ36799161-CDD3D16B-9C87-4BA7-9E4C-A8B1CCF3DF1FQ37230814-3C5E5AA4-32E4-43A7-874F-C9D26AAE328CQ39597237-DDFCC2FD-ED87-47CB-9E39-59F9A26037E5Q40847273-41B7BFB8-B7D2-4765-B904-8D7E07AE7671Q40874589-B137CB75-A438-485F-84E9-6AC09F57706EQ40889016-B5BF6798-C7BA-48CB-A88A-E8162E06B0A0Q41168261-3FBE6744-779D-4186-BD3D-EFFA395BDCEAQ41524259-929CDF61-FF35-497A-8350-D280E7F4C957Q41581776-F7048AAC-BA13-4581-87D3-5BDED7400E54Q43720111-9EF72344-6C96-4EF0-B626-13146EC7B70DQ43743294-D39735CE-CED4-4033-BEA1-76828304B114Q44132551-A39D5AA3-170E-45B6-8F15-A321B8DD4FA8Q47724641-9B53C223-8043-47F6-B642-64CAF504A92AQ47761929-EB617725-9EAE-47B1-98D9-37345802E4DAQ47761939-EF7170DB-E31D-445E-B77C-3F0447653DE7Q47801581-960F64DF-0CC6-467E-AC8B-75B6B1158E10Q48116251-BA4A2C09-0B36-4769-9A3F-852CEC89C108Q48959631-7019E1C9-5ACE-422B-A180-8FD5EEF7E319Q52245648-6BEF2C5F-8FD4-4D0B-86C8-E5561D34F2F3Q52250938-10058061-F914-4174-A1BA-0B485E883B96Q57185292-CF5FC160-6017-459D-9A34-F8ADBB3DE10AQ57372032-8505BEE7-B8D7-4AF8-8488-CAA39BBA4DEBQ67912495-5EA4A12B-8840-4D79-A688-F0A73847BE2EQ68016486-1E2788E7-DBAC-42EF-8669-155FFEB2A9D3Q68259077-F3C788D5-C6E6-4949-A93A-66FF5FE74C67
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
researcher
@en
ricercatore
@it
研究者
@zh
name
John Orlowski
@en
Orlowski J
@ast
Orlowski J
@es
Orlowski J
@nl
type
label
John Orlowski
@en
Orlowski J
@ast
Orlowski J
@es
Orlowski J
@nl
altLabel
Orlowski J
@en
Orlowski, J.
@en
prefLabel
John Orlowski
@en
Orlowski J
@ast
Orlowski J
@es
Orlowski J
@nl
P31
P496
0000-0001-7371-175X