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Items: 1 to 20 of 124

1.

The human T-type amino acid transporter-1: characterization, gene organization, and chromosomal location.

Kim DK, Kanai Y, Matsuo H, Kim JY, Chairoungdua A, Kobayashi Y, Enomoto A, Cha SH, Goya T, Endou H.

Genomics. 2002 Jan;79(1):95-103.

PMID:
11827462
2.

Expression cloning of a Na+-independent aromatic amino acid transporter with structural similarity to H+/monocarboxylate transporters.

Kim DK, Kanai Y, Chairoungdua A, Matsuo H, Cha SH, Endou H.

J Biol Chem. 2001 May 18;276(20):17221-8. Epub 2001 Feb 20.

3.

Reabsorption of neutral amino acids mediated by amino acid transporter LAT2 and TAT1 in the basolateral membrane of proximal tubule.

Park SY, Kim JK, Kim IJ, Choi BK, Jung KY, Lee S, Park KJ, Chairoungdua A, Kanai Y, Endou H, Kim DK.

Arch Pharm Res. 2005 Apr;28(4):421-32.

PMID:
15918515
4.
5.

Basolateral aromatic amino acid transporter TAT1 (Slc16a10) functions as an efflux pathway.

Ramadan T, Camargo SM, Summa V, Hunziker P, Chesnov S, Pos KM, Verrey F.

J Cell Physiol. 2006 Mar;206(3):771-9.

PMID:
16245314
6.

Recycling of aromatic amino acids via TAT1 allows efflux of neutral amino acids via LAT2-4F2hc exchanger.

Ramadan T, Camargo SM, Herzog B, Bordin M, Pos KM, Verrey F.

Pflugers Arch. 2007 Jun;454(3):507-16. Epub 2007 Feb 2.

PMID:
17273864
7.

Expression cloning of a Na(+)-independent neutral amino acid transporter from rat kidney.

Tate SS, Yan N, Udenfriend S.

Proc Natl Acad Sci U S A. 1992 Jan 1;89(1):1-5.

8.

Identification of a membrane protein, LAT-2, that Co-expresses with 4F2 heavy chain, an L-type amino acid transport activity with broad specificity for small and large zwitterionic amino acids.

Pineda M, Fernández E, Torrents D, Estévez R, López C, Camps M, Lloberas J, Zorzano A, Palacín M.

J Biol Chem. 1999 Jul 9;274(28):19738-44.

9.

Na(+)-dependent purine nucleoside transporter from human kidney: cloning and functional characterization.

Wang J, Su SF, Dresser MJ, Schaner ME, Washington CB, Giacomini KM.

Am J Physiol. 1997 Dec;273(6 Pt 2):F1058-65.

10.

Structure, function, and genomic organization of human Na(+)-dependent high-affinity dicarboxylate transporter.

Wang H, Fei YJ, Kekuda R, Yang-Feng TL, Devoe LD, Leibach FH, Prasad PD, Ganapathy V.

Am J Physiol Cell Physiol. 2000 May;278(5):C1019-30.

11.

Cloning and characterization of a human brain Na(+)-independent transporter for small neutral amino acids that transports D-serine with high affinity.

Nakauchi J, Matsuo H, Kim DK, Goto A, Chairoungdua A, Cha SH, Inatomi J, Shiokawa Y, Yamaguchi K, Saito I, Endou H, Kanai Y.

Neurosci Lett. 2000 Jun 30;287(3):231-5.

PMID:
10863037
12.
15.
16.

Primary structure, genomic organization, and functional and electrogenic characteristics of human system N 1, a Na+- and H+-coupled glutamine transporter.

Fei YJ, Sugawara M, Nakanishi T, Huang W, Wang H, Prasad PD, Leibach FH, Ganapathy V.

J Biol Chem. 2000 Aug 4;275(31):23707-17.

18.

Expression of the mammalian Na+-independent L system amino acid transporter in Xenopus laevis oocytes.

Tate SS, Urade R, Getchell TV, Udenfriend S.

Arch Biochem Biophys. 1989 Dec;275(2):591-6.

PMID:
2480748
19.

Characterization of the promoter region of the gene for the rat neutral and basic amino acid transporter and chromosomal localization of the human gene.

Yan N, Mosckovitz R, Gerber LD, Mathew S, Murty VV, Tate SS, Udenfriend S.

Proc Natl Acad Sci U S A. 1994 Aug 2;91(16):7548-52.

20.

Molecular and functional characterization of intestinal Na(+)-dependent neutral amino acid transporter B0.

Kekuda R, Torres-Zamorano V, Fei YJ, Prasad PD, Li HW, Mader LD, Leibach FH, Ganapathy V.

Am J Physiol. 1997 Jun;272(6 Pt 1):G1463-72.

PMID:
9227483

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