Human placental Na+-dependent multivitamin transporter. Cloning, functional expression, gene structure, and chromosomal localization
about
Cloning of the human thiamine transporter, a member of the folate transporter familyComplete reconstitution of the human coenzyme A biosynthetic pathway via comparative genomicsSingle nucleotide polymorphism of the human high affinity choline transporter alters transport rateCloning, expression, and characterization of the human mitochondrial beta-ketoacyl synthase. Complementation of the yeast CEM1 knock-out strainBiotin-responsive basal ganglia disease maps to 2q36.3 and is due to mutations in SLC19A3Biotin synthesis in plants. The first committed step of the pathway is catalyzed by a cytosolic 7-keto-8-aminopelargonic acid synthaseFrom genetic footprinting to antimicrobial drug targets: examples in cofactor biosynthetic pathwaysFunctional characterization of sodium-dependent multivitamin transporter in MDCK-MDR1 cells and its utilization as a target for drug deliverySodium dependent multivitamin transporter (SMVT): a potential target for drug deliveryScavenging of the cofactor lipoate is essential for the survival of the malaria parasite Plasmodium falciparumBiotin-responsive basal ganglia disease-linked mutations inhibit thiamine transport via hTHTR2: biotin is not a substrate for hTHTR2Cloning and functional identification of slc5a12 as a sodium-coupled low-affinity transporter for monocarboxylates (SMCT2)The Concise Guide to PHARMACOLOGY 2013/14: transporters.Membrane targeting and intracellular trafficking of the human sodium-dependent multivitamin transporter in polarized epithelial cells.Intestinal absorption of water-soluble vitamins in health and diseaseAge and gender dependent bioavailability of R- and R,S-α-lipoic acid: a pilot study.Gabapentin enacarbil - clinical efficacy in restless legs syndromeCloning of an amino acid transporter with functional characteristics and tissue expression pattern identical to that of system A.Biotin uptake by mouse and human pancreatic beta cells/islets: a regulated, lipopolysaccharide-sensitive carrier-mediated process.Biotin uptake by human intestinal and liver epithelial cells: role of the SMVT system.Vitreal pharmacokinetics of biotinylated ganciclovir: role of sodium-dependent multivitamin transporter expressed on retina.The ABCs of membrane transporters in health and disease (SLC series): introduction.Biotin uptake by human proximal tubular epithelial cells: cellular and molecular aspects.Structure-function activity of the human sodium-dependent multivitamin transporter: role of His¹¹⁵ and His²⁵⁴Biotin uptake into human peripheral blood mononuclear cells increases early in the cell cycle, increasing carboxylase activities.Molecular mechanisms involved in the adaptive regulation of human intestinal biotin uptake: A study of the hSMVT system.Regulation of the human biotin transporter hSMVT promoter by KLF-4 and AP-2: confirmation of promoter activity in vivo.Biotin dependency due to a defect in biotin transport.A comprehensive view of the epigenetic landscape. Part II: Histone post-translational modification, nucleosome level, and chromatin regulation by ncRNAs.Role of the putative N-glycosylation and PKC-phosphorylation sites of the human sodium-dependent multivitamin transporter (hSMVT) in function and regulation.Cys(294) is essential for the function of the human sodium-dependent multivitamin transporterInteraction of α-Lipoic Acid with the Human Na+/Multivitamin Transporter (hSMVT).Functional and molecular aspects of biotin uptake via SMVT in human corneal epithelial (HCEC) and retinal pigment epithelial (D407) cells.Conditional knockout of the Slc5a6 gene in mouse intestine impairs biotin absorption.Transcriptional regulation of NAD metabolism in bacteria: genomic reconstruction of NiaR (YrxA) regulon.Cell and molecular aspects of human intestinal biotin absorption.The human malaria parasite Plasmodium falciparum is not dependent on host coenzyme A biosynthesis.Nutrient transport in the mammary gland: calcium, trace minerals and water soluble vitamins.The sodium/multivitamin transporter: a multipotent system with therapeutic implications.Mutations in SLC5A6 associated with brain, immune, bone, and intestinal dysfunction in a young child.
P2860
Q22010729-7C239840-BFD7-4F72-B4BB-91DB5BDE3B44Q24292910-7FB89F9F-F09E-43F7-B8EC-8107F4AAD82FQ24306874-1F669588-3342-4A8A-BA3D-BA0814306C59Q24338816-0AE433B6-CB42-402B-BBC1-068C7A9FA0EDQ24533603-E279EF93-5D45-4F89-AAA4-97FDE56419F1Q24538997-E9D40D98-6A20-4B5D-8B64-437DBFA213CCQ24539226-138604B4-E2EB-4D6C-B986-2421D0AF49B0Q24644494-A09DCFA9-B70F-4B17-A0BB-CFC9CC75553EQ26863420-A1F02281-80DD-4C58-8172-6B88095C8FA8Q27973718-E52CEF96-AF00-4BFB-89DD-80D419110F6AQ28247535-3692B5EB-665C-4F58-970C-C3D6E5E57744Q28512276-96F60706-02AB-4021-8744-449F9396F6A5Q30486743-EB6DA952-B4CA-439E-AB30-CE1116D95A02Q30487118-70A2B049-85B0-4B35-AFD5-7A256E36BDAAQ33725184-7C97E02E-D4CD-403D-BFB9-FD3E6D160632Q33854686-C83DFE8E-FE80-4DD5-BD7E-DDB833AEBBF7Q33868110-38B93F60-59DA-478F-AEAF-E8EF28DD3849Q33896651-BAD5146C-0AB0-44F0-BC9A-6CFB57D58037Q34001651-07615746-498D-405B-B597-1DBCB5FBA620Q34184789-261B412D-EA4A-4ECC-836A-B08A7554637DQ34218675-A2EC9529-9A93-4BFF-A587-8BE50D5C6CB8Q34333686-ABF31DEC-4F68-4F2A-9F7F-F58D6F072B5DQ34370774-9512B221-89AD-4B90-AFBC-02DDAFB9E36BQ34501664-B3DABBC0-0627-426E-8D4A-943089ACD66DQ34536414-0F790D2B-8CFB-4139-A0ED-44A319C02823Q34564505-0B9EFF61-8E02-4D55-87CB-431459E794B3Q34585806-74268D4E-36ED-4FA9-9464-00BD052EB606Q34792348-E17FDCF8-1F22-4DD6-BD89-D2F69898B4BEQ34990282-1448F52A-CFE8-4DEC-8F92-1BE65A4A77B7Q35087306-F84D71C7-7A57-45F9-9AB0-DD0FC2B7E69CQ35592550-E01E55D8-CF94-4625-A04D-FEE486869126Q35783177-47B39555-2228-4B9B-A8A7-A55E36A0F87BQ36331516-7395EC8F-E023-44F1-85D9-04E5B9395676Q36527938-47DEFFFA-BBCC-4EB0-8C8A-915CB44B94AEQ36580687-8B6365C7-D51A-4569-9FA4-FDC32EFD2F1BQ37105800-9517783A-429E-43EA-8B96-53DF6D781C7CQ37375676-3D15D3AF-5867-4FD9-9282-F3E321FBFB99Q38190895-57955314-A2EF-4E26-ABAE-E47245B4C2FBQ38394090-56FB06A9-E807-4B59-A3DA-7E087E3006DCQ38728153-6AD6A0C2-7CEA-40AC-B50A-24C7F015523A
P2860
Human placental Na+-dependent multivitamin transporter. Cloning, functional expression, gene structure, and chromosomal localization
description
1999 nî lūn-bûn
@nan
1999 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Human placental Na+-dependent ...... , and chromosomal localization
@ast
Human placental Na+-dependent ...... , and chromosomal localization
@en
Human placental Na+-dependent ...... , and chromosomal localization
@nl
type
label
Human placental Na+-dependent ...... , and chromosomal localization
@ast
Human placental Na+-dependent ...... , and chromosomal localization
@en
Human placental Na+-dependent ...... , and chromosomal localization
@nl
prefLabel
Human placental Na+-dependent ...... , and chromosomal localization
@ast
Human placental Na+-dependent ...... , and chromosomal localization
@en
Human placental Na+-dependent ...... , and chromosomal localization
@nl
P2093
P2860
P356
P1476
Human placental Na+-dependent ...... , and chromosomal localization
@en
P2093
F H Leibach
P D Prasad
T L Yang-Feng
V Ganapathy
P2860
P304
P356
10.1074/JBC.274.21.14875
P407
P577
1999-05-21T00:00:00Z