Cloning and functional expression of a cDNA encoding a mammalian sodium-dependent vitamin transporter mediating the uptake of pantothenate, biotin, and lipoate
about
Molecular cloning, structural characterization and chromosomal localization of human lipoyltransferase geneCloning and expression of a b(0,+)-like amino acid transporter functioning as a heterodimer with 4F2hc instead of rBAT. A new candidate gene for cystinuriaCloning of the human thiamine transporter, a member of the folate transporter familyNELF is a nuclear protein involved in hypothalamic GnRH neuronal migrationHolocarboxylase synthetase regulates expression of biotin transporters by chromatin remodeling events at the SMVT locusCloning, 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 synthaseFunctional characterization of sodium-dependent multivitamin transporter in MDCK-MDR1 cells and its utilization as a target for drug deliveryUse of protein biotinylation in vivo for immunoelectron microscopic localization of a specific protein isoformAlpha-lipoic acid as a dietary supplement: molecular mechanisms and therapeutic potentialSLC5A8, a sodium transporter, is a tumor suppressor gene silenced by methylation in human colon aberrant crypt foci and cancersThe fenpropimorph resistance gene FEN2 from Saccharomyces cerevisiae encodes a plasma membrane H+-pantothenate symporter.Identification of the plasma membrane H+-biotin symporter of Saccharomyces cerevisiae by rescue of a fatty acid-auxotrophic mutant.Scavenging of the cofactor lipoate is essential for the survival of the malaria parasite Plasmodium falciparumBiotinHuman placental Na+-dependent multivitamin transporter. Cloning, functional expression, gene structure, and chromosomal localizationCloning and functional identification of slc5a12 as a sodium-coupled low-affinity transporter for monocarboxylates (SMCT2)Cloning and functional characterization of a potential-sensitive, polyspecific organic cation transporter (OCT3) most abundantly expressed in placentaComparative analysis of ontogenic changes in renal and intestinal biotin transport in the ratFunctional identity of Drosophila melanogaster Indy as a cation-independent, electroneutral transporter for tricarboxylic acid-cycle intermediates.Molecular characterization of the 5' regulatory region of rat sodium-dependent multivitamin transporter gene.Isolation and functional characterization of a novel organic solute carrier protein, hOSCP1.The rat blood-brain barrier transcriptome.Association of PDZ-containing protein PDZD11 with the human sodium-dependent multivitamin transporter.Marginal biotin deficiency is teratogenic.Biotin requirements are lower in human Jurkat lymphoid cells but homeostatic mechanisms are similar to those of HepG2 liver cells.Lipoic acid metabolism in microbial pathogens.Uptake of biotin by Chlamydia Spp. through the use of a bacterial transporter (BioY) and a host-cell transporter (SMVT).Chronic alcohol exposure inhibits biotin uptake by pancreatic acinar cells: possible involvement of epigenetic mechanisms.Inhibition of intestinal biotin absorption by chronic alcohol feeding: cellular and molecular mechanismsChronic alcohol exposure negatively impacts the physiological and molecular parameters of the renal biotin reabsorption process.Toxoplasma gondii scavenges host-derived lipoic acid despite its de novo synthesis in the apicoplastBiotin dependency due to a defect in biotin transport.Sidechain biology and the immunogenicity of PDC-E2, the major autoantigen of primary biliary cirrhosis.Functional and molecular aspects of biotin uptake via SMVT in human corneal epithelial (HCEC) and retinal pigment epithelial (D407) cells.The human malaria parasite Plasmodium falciparum is not dependent on host coenzyme A biosynthesis.Lipoic acid and lipoic acid analogs in cancer metabolism and chemotherapy.The sodium/multivitamin transporter: a multipotent system with therapeutic implications.α-Lipoic acid as a triglyceride-lowering nutraceutical.
P2860
Q22009130-BDE8223B-BA53-4FDF-BFDF-F50170E608EDQ22010592-28D554EB-4161-45A5-8C5F-BB0DA67A93FFQ22010729-E722FF55-152D-4A5A-8468-483C324C14FEQ24292996-A2303905-52F3-4EB3-A1EE-FD3F4242491EQ24295190-F634E78D-C63A-43C2-9AC7-E1BFB83066E1Q24338816-F1B7445D-916D-4DC9-9833-94340B37C1C4Q24533603-17A28E9C-33D1-4449-855A-AA935E7CD441Q24538997-5AD56088-BBFA-49B9-B369-8BEC7A57EF89Q24644494-CAC01C90-6E08-433D-9351-9B5EAD18AE41Q24647340-DDC6E928-9DCA-45C0-8B3D-AA6E7D21442DQ24658099-9B4C6049-CC1C-4F7A-9F06-1B0EAA17A377Q24679642-9A15473B-51B9-47F1-A71F-DDE5F3CE0EDBQ27934918-3FEBF6A9-6C77-40D9-A4B3-7BA836A86430Q27936042-76B2F9EE-45A6-4E1E-A391-AD6AC3030819Q27973718-E28A86B6-FA85-4FA3-9B9A-4952AD27A8D1Q28026625-9FD2A6B2-6614-4679-9914-B38D83543FAFQ28376106-7D300693-27F6-4A40-8A22-BF4C0B44446BQ28512276-A7E213B3-86FC-4DCB-A779-C84E2E07FAEAQ28570027-3E322215-4B17-498B-93AC-4B3878042748Q28570364-20A1E323-A1B0-42F8-9BB2-88C158A64129Q30843816-AFD094D4-41A9-4ABD-BA2D-F8365D0B0F0FQ31919395-498C6B53-2714-401A-8834-8FC2C140A9C2Q33218576-A313E7F8-B4E8-4FE4-BE28-3091F228EB64Q33227764-8EEAF9BF-0237-40F4-AD5F-5938DBFE612EQ33779899-E0DA425A-A836-4F3A-9623-CB26735178F5Q33815917-E34E6FB9-E2C5-4847-AB06-D0931620FE46Q33849277-4E372D83-1317-451C-8240-9CE26939192EQ33909117-65523CF7-9C96-4246-8A4C-89C7CBE3E3B0Q34430716-8BBE1B60-A05E-44DD-ADB6-7E65B3640825Q34602245-82DC47FA-BC9A-4CF8-B409-1DF71159853DQ34719007-233AF150-B0E3-43DE-9D5B-ACACFF96896EQ34719183-7DEC2CC0-69D7-4B51-95A9-86E61E53A09DQ34767686-B795461F-0F91-41C2-BF91-AB92F5A284E6Q34792348-8239F585-FD7F-4ACA-B287-A613D6A84321Q35119479-83E34F9D-CAA0-4DEB-B423-97576EE2080EQ36331516-27DD80BC-B803-4E54-B766-7CEBAD51FEF7Q37375676-D1AD6836-EC65-4538-A6E8-40706FB1A5ACQ38256907-E088B4FA-208C-417A-B42F-8E1E65215FE3Q38394090-9E311A21-7C98-4F31-B538-2DB1A3348A42Q38559352-D4B0FD2D-39FB-4CA6-B91C-EF1EBB7F7D2F
P2860
Cloning and functional expression of a cDNA encoding a mammalian sodium-dependent vitamin transporter mediating the uptake of pantothenate, biotin, and lipoate
description
1998 nî lūn-bûn
@nan
1998 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի մարտին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Cloning and functional express ...... tothenate, biotin, and lipoate
@ast
Cloning and functional express ...... tothenate, biotin, and lipoate
@en
Cloning and functional express ...... tothenate, biotin, and lipoate
@en-gb
Cloning and functional express ...... tothenate, biotin, and lipoate
@nl
type
label
Cloning and functional express ...... tothenate, biotin, and lipoate
@ast
Cloning and functional express ...... tothenate, biotin, and lipoate
@en
Cloning and functional express ...... tothenate, biotin, and lipoate
@en-gb
Cloning and functional express ...... tothenate, biotin, and lipoate
@nl
prefLabel
Cloning and functional express ...... tothenate, biotin, and lipoate
@ast
Cloning and functional express ...... tothenate, biotin, and lipoate
@en
Cloning and functional express ...... tothenate, biotin, and lipoate
@en-gb
Cloning and functional express ...... tothenate, biotin, and lipoate
@nl
P2093
P2860
P356
P1476
Cloning and functional express ...... tothenate, biotin, and lipoate
@en
P2093
F H Leibach
P D Prasad
V Ganapathy
P2860
P304
P356
10.1074/JBC.273.13.7501
P407
P577
1998-03-27T00:00:00Z