about
The genetics of hyperuricaemia and goutRenal transport of uric acid: evolving concepts and uncertaintiesExtra-renal elimination of uric acid via intestinal efflux transporter BCRP/ABCG2Oscillatory glucose flux in INS 1 pancreatic β cells: a self-referencing microbiosensor study.Leucophores are similar to xanthophores in their specification and differentiation processes in medaka.Uric acid transport and diseaseThe SLC2 (GLUT) family of membrane transporters.Polymorphisms in the presumptive promoter region of the SLC2A9 gene are associated with gout in a Chinese male population.Sugar-sweetened beverage consumption: a risk factor for prevalent gout with SLC2A9 genotype-specific effects on serum urate and risk of gout.The pathophysiology of hyperuricaemia and its possible relationship to cardiovascular disease, morbidity and mortalityThe rs1014290 polymorphism of the SLC2A9 gene is associated with type 2 diabetes mellitus in Han Chinese.Meta-analysis of genome-wide association studies identifies six new Loci for serum calcium concentrationsExpression, purification, and structural insights for the human uric acid transporter, GLUT9, using the Xenopus laevis oocytes system.Critical Roles of Two Hydrophobic Residues within Human Glucose Transporter 9 (hSLC2A9) in Substrate Selectivity and Urate Transport.Human SLC2A9a and SLC2A9b isoforms mediate electrogenic transport of urate with different characteristics in the presence of hexosesReassessment of GLUT7 and GLUT9 as Putative Fructose and Glucose Transporters.Urate transporter gene SLC22A12 polymorphisms associated with obesity and metabolic syndrome in Caucasians with hypertension.Intestinal dehydroascorbic acid (DHA) transport mediated by the facilitative sugar transporters, GLUT2 and GLUT8.Uricosuric targets of tranilast.Hepatic expression and cellular distribution of the glucose transporter family.Renal transport of organic anions and cations.GLUT, SGLT, and SWEET: Structural and mechanistic investigations of the glucose transporters.Melatonin uptake through glucose transporters: a new target for melatonin inhibition of cancer.The uric acid transporter SLC2A9 is a direct target gene of the tumor suppressor p53 contributing to antioxidant defense.Estimated frequency of the canine hyperuricosuria mutation in different dog breeds.Distribution of glucose transporters in renal diseases.Phloretin attenuates hyperuricemia-induced endothelial dysfunction through co-inhibiting inflammation and GLUT9-mediated uric acid uptake.Recent advances on uric acid transporters.Intestinal tract is an important organ for lowering serum uric acid in rats.Fructus Gardenia Extract ameliorates oxonate-induced hyperuricemia with renal dysfunction in mice by regulating organic ion transporters and mOIT3.Hormonal and Chemical Regulation of the Glut9 Transporter in Mice.Glut9-mediated Urate Uptake Is Responsible for Its Protective Effects on Dopaminergic Neurons in Parkinson's Disease Models.The safety and efficacy of benzbromarone in gout in Aotearoa New Zealand.Urate transport function of rat sodium-dependent nucleobase transporter 1.Human Mutations in SLC2A9 (Glut9) Affect Transport Capacity for Urate.
P2860
Q24629964-23D4B6E6-EF2B-4B72-B618-944B584072EEQ26829446-65E7576A-0D3A-48FA-9095-C94F943F80C5Q28575931-6096C6F3-CA78-4C8A-9E5C-011ECE7372E0Q30499833-FE4C2F20-1753-4A93-975C-3349CDA47700Q33665327-F1065E85-2F9D-4BA3-A37E-7920FF63090BQ33882958-F89CE5C7-6DAB-48E2-B695-AC124C9D4C63Q33926133-2F579A31-4C54-47B7-AE84-93CCFB5276DBQ34185594-6F3DB21C-B00C-4C79-B07E-3D4B56ADA820Q34607608-8BFC1014-CD6F-4BF5-BE3E-50E3973713EBQ34877729-52F84652-D0E9-4267-9DF6-9169317AA7A4Q34974363-0F3DFC3A-2575-4527-938D-03495673550AQ34998326-DB2E88EE-6373-4CA4-B9AA-EAF5406E0806Q35305493-75AFDD2A-AFC4-4FA6-9AB4-74FB7985D926Q35721909-7289A1D4-DF8E-4280-AC29-F615C012C5A0Q36175985-D977C98A-6D6C-40E9-BFD3-4AE635B630C5Q36248381-037354D4-2659-46E5-95A8-47163998A46CQ36346677-9648F47B-E530-4156-87EF-AC4C33F87C03Q36724987-2DD07021-5E16-4A0D-8AF9-D148EDA7C774Q37724284-5BCE8309-595A-4E4C-9844-B469B3FBF3ADQ38067388-CE2A908E-7649-40F3-85A6-F41A535FDFE1Q38111725-F350C588-DD53-4EAA-AB29-DBFACCE6A875Q38663958-A39DE9EE-50B6-4D68-B604-3437E85F66CCQ38917542-76218EAC-C284-4B7F-A41F-F1E8BD357A92Q38992060-57EA6C95-06AD-4962-98A9-46A9D4CFEB1FQ41180867-6F62DFC2-1AAF-4171-8CC7-8E5495F64559Q41570521-CAE5E195-7891-4107-A385-DE660290222EQ42365766-C3186E11-B2CF-4AA7-8F2A-2203AB1C3C45Q47131336-BA12DF15-1498-4048-8904-F758487789FEQ47265243-8BAE5A19-8988-4095-8D39-1FF55136B4C4Q47898738-61680254-1170-4510-B98E-3172E460A41DQ47957764-6A4AE2A8-8BB9-47B7-BDE9-3EB7E9EA79A4Q49698299-D813FFB2-B553-49CF-9641-0786AED6427EQ54198793-7ECFE98D-6954-4437-BDB7-E7D92484ED6BQ54957196-80AD4F2E-FAEE-4D46-8C37-FE69FC75686DQ55417121-0AC6488A-8050-418D-9137-5C6AB44C5DA9
P2860
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Mouse GLUT9: evidences for a urate uniporter.
@en
Mouse GLUT9: evidences for a urate uniporter.
@nl
type
label
Mouse GLUT9: evidences for a urate uniporter.
@en
Mouse GLUT9: evidences for a urate uniporter.
@nl
prefLabel
Mouse GLUT9: evidences for a urate uniporter.
@en
Mouse GLUT9: evidences for a urate uniporter.
@nl
P2093
P1476
Mouse GLUT9: evidences for a urate uniporter.
@en
P2093
Bernard Thorens
Dmitri Firsov
Jean-Daniel Horisberger
Käthi Geering
Solange Kharoubi Hess
P304
P356
10.1152/AJPRENAL.00139.2009
P577
2009-07-08T00:00:00Z