Papers associated with slc15a1

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	Characterization of Transport Activity of SLC11 Transporters in Xenopus laevis Oocytes by Fluorophore Quenching., Cinquetti R, Imperiali FG, Bozzaro S, Zanella D, Vacca F, Roseti C, Peracino B, Castagna M, Bossi E., SLAS Discov. July 1, 2021; 26 (6): 798-810.
	Identification and characterization of the Atlantic salmon peptide transporter 1a., Gomes AS, Vacca F, Cinquetti R, Murashita K, Barca A, Bossi E, Rønnestad I, Verri T., Am J Physiol Cell Physiol. January 1, 2020; 318 (1): C191-C204.
	Transport Characteristics of 5-Aminosalicylic Acid Derivatives Conjugated with Amino Acids via Human H+-Coupled Oligopeptide Transporter PEPT1., Yuri T, Kono Y, Okada T, Terada T, Miyauchi S, Fujita T., Biol Pharm Bull. January 1, 2020; 43 (4): 697-706.
	The peptide transporter 1a of the zebrafish Danio rerio, an emerging model in nutrigenomics and nutrition research: molecular characterization, functional properties, and expression analysis., Vacca F, Barca A, Gomes AS, Mazzei A, Piccinni B, Cinquetti R, Del Vecchio G, Romano A, Rønnestad I, Bossi E, Verri T., Genes Nutr. December 19, 2019; 14 33.
	Thiodipeptides targeting the intestinal oligopeptide transporter as a general approach to improving oral drug delivery., Foley DW, Pathak RB, Phillips TR, Wilson GL, Bailey PD, Pieri M, Senan A, Meredith D., Eur J Med Chem. August 5, 2018; 156 180-189.
	Glycans in the intestinal peptide transporter PEPT1 contribute to function and protect from proteolysis., Stelzl T, Geillinger-Kästle KE, Stolz J, Daniel H., Am J Physiol Gastrointest Liver Physiol. June 1, 2017; 312 (6): G580-G591.
	Effect of N-glycosylation on the transport activity of the peptide transporter PEPT1., Stelzl T, Baranov T, Geillinger KE, Kottra G, Daniel H., Am J Physiol Gastrointest Liver Physiol. January 15, 2016; 310 (2): G128-41.
	β-Klotho as a Negative Regulator of the Peptide Transporters PEPT1 and PEPT2., Abousaab A, Warsi J, Salker MS, Lang F., Cell Physiol Biochem. January 1, 2016; 40 (5): 874-882.
	Role of electrostatic interactions for ligand recognition and specificity of peptide transporters., Boggavarapu R, Jeckelmann JM, Harder D, Ucurum Z, Fotiadis D., BMC Biol. August 6, 2015; 13 58.
	USP18 Sensitivity of Peptide Transporters PEPT1 and PEPT2., Warsi J, Hosseinzadeh Z, Elvira B, Pelzl L, Shumilina E, Zhang DE, Lang KS, Lang PA, Lang F., PLoS One. June 5, 2015; 10 (6): e0129365.
	Human intestine luminal ACE2 and amino acid transporter expression increased by ACE-inhibitors., Vuille-dit-Bille RN, Camargo SM, Emmenegger L, Sasse T, Kummer E, Jando J, Hamie QM, Meier CF, Hunziker S, Forras-Kaufmann Z, Kuyumcu S, Fox M, Schwizer W, Fried M, Lindenmeyer M, Götze O, Verrey F., Amino Acids. April 1, 2015; 47 (4): 693-705.
	SPAK dependent regulation of peptide transporters PEPT1 and PEPT2., Warsi J, Dong L, Elvira B, Salker MS, Shumilina E, Hosseinzadeh Z, Lang F., Kidney Blood Press Res. January 1, 2014; 39 (4): 388-98.
	Downregulation of peptide transporters PEPT1 and PEPT2 by oxidative stress responsive kinase OSR1., Warsi J, Elvira B, Bissinger R, Shumilina E, Hosseinzadeh Z, Lang F., Kidney Blood Press Res. January 1, 2014; 39 (6): 591-9.
	Peptide transporter isoforms are discriminated by the fluorophore-conjugated dipeptides β-Ala- and d-Ala-Lys-N-7-amino-4-methylcoumarin-3-acetic acid., Kottra G, Spanier B, Verri T, Daniel H., Physiol Rep. December 8, 2013; 1 (7): e00165.
	Effect of Janus kinase 3 on the peptide transporters PEPT1 and PEPT2., Warsi J, Hosseinzadeh Z, Dong L, Pakladok T, Umbach AT, Bhavsar SK, Shumilina E, Lang F., J Membr Biol. December 1, 2013; 246 (12): 885-92.
	Intestinal absorption mechanism of mirabegron, a potent and selective β₃-adrenoceptor agonist: involvement of human efflux and/or influx transport systems., Takusagawa S, Ushigome F, Nemoto H, Takahashi Y, Li Q, Kerbusch V, Miyashita A, Iwatsubo T, Usui T., Mol Pharm. May 6, 2013; 10 (5): 1783-94.
	Characterization of the transport of lysine-containing dipeptides by PepT1 orthologs expressed in Xenopus laevis oocytes., Margheritis E, Terova G, Oyadeyi AS, Renna MD, Cinquetti R, Peres A, Bossi E., Comp Biochem Physiol A Mol Integr Physiol. March 1, 2013; 164 (3): 520-8.
	Upregulation of peptide transporters PEPT1 and PEPT2 by Janus kinase JAK2., Hosseinzadeh Z, Dong L, Bhavsar SK, Warsi J, Almilaji A, Lang F., Cell Physiol Biochem. January 1, 2013; 31 (4-5): 673-82.
	Temperature effects on the kinetic properties of the rabbit intestinal oligopeptide cotransporter PepT1., Bossi E, Cherubino F, Margheritis E, Oyadeyi AS, Vollero A, Peres A., Pflugers Arch. August 1, 2012; 464 (2): 183-91.
	Functional and structural determinants of reverse operation in the pH-dependent oligopeptide transporter PepT1., Renna MD, Oyadeyi AS, Bossi E, Kottra G, Peres A., Cell Mol Life Sci. September 1, 2011; 68 (17): 2961-75.
	Raltegravir is a substrate for SLC22A6: a putative mechanism for the interaction between raltegravir and tenofovir., Moss DM, Kwan WS, Liptrott NJ, Smith DL, Siccardi M, Khoo SH, Back DJ, Owen A., Antimicrob Agents Chemother. February 1, 2011; 55 (2): 879-87.
	Residues R282 and D341 act as electrostatic gates in the proton-dependent oligopeptide transporter PepT1., Bossi E, Renna MD, Sangaletti R, D'Antoni F, Cherubino F, Kottra G, Peres A., J Physiol. February 1, 2011; 589 (Pt 3): 495-510.
	Unified modeling of the mammalian and fish proton-dependent oligopeptide transporter PepT1., Renna MD, Sangaletti R, Bossi E, Cherubino F, Kottra G, Peres A., Channels (Austin). January 1, 2011; 5 (1): 89-99.
	Frog oocytes to unveil the structure and supramolecular organization of human transport proteins., Bergeron MJ, Boggavarapu R, Meury M, Ucurum Z, Caron L, Isenring P, Hediger MA, Fotiadis D., PLoS One. January 1, 2011; 6 (7): e21901.
	Serine side chain-linked peptidomimetic conjugates of cyclic HPMPC and HPMPA: synthesis and interaction with hPEPT1., Peterson LW, Sala-Rabanal M, Krylov IS, Serpi M, Kashemirov BA, McKenna CE., Mol Pharm. December 6, 2010; 7 (6): 2349-61.
	Intestinal absorption mechanism of tebipenem pivoxil, a novel oral carbapenem: involvement of human OATP family in apical membrane transport., Kato K, Shirasaka Y, Kuraoka E, Kikuchi A, Iguchi M, Suzuki H, Shibasaki S, Kurosawa T, Tamai I., Mol Pharm. October 4, 2010; 7 (5): 1747-56.
	The proton-coupled amino acid transporter, SLC36A1 (hPAT1), transports Gly-Gly, Gly-Sar and other Gly-Gly mimetics., Frølund S, Holm R, Brodin B, Nielsen CU., Br J Pharmacol. October 1, 2010; 161 (3): 589-600.
	Molecular cloning and functional expression of atlantic salmon peptide transporter 1 in Xenopus oocytes reveals efficient intestinal uptake of lysine-containing and other bioactive di- and tripeptides in teleost fish., Rønnestad I, Murashita K, Kottra G, Jordal AE, Narawane S, Jolly C, Daniel H, Verri T., J Nutr. May 1, 2010; 140 (5): 893-900.
	Transport of the advanced glycation end products alanylpyrraline and pyrralylalanine by the human proton-coupled peptide transporter hPEPT1., Geissler S, Hellwig M, Zwarg M, Markwardt F, Henle T, Brandsch M., J Agric Food Chem. February 24, 2010; 58 (4): 2543-7.
	The bioactive dipeptide anserine is transported by human proton-coupled peptide transporters., Geissler S, Zwarg M, Knütter I, Markwardt F, Brandsch M., FEBS J. February 1, 2010; 277 (3): 790-5.
	Transport of the photodynamic therapy agent 5-aminolevulinic acid by distinct H+-coupled nutrient carriers coexpressed in the small intestine., Anderson CM, Jevons M, Thangaraju M, Edwards N, Conlon NJ, Woods S, Ganapathy V, Thwaites DT., J Pharmacol Exp Ther. January 1, 2010; 332 (1): 220-8.
	The transmembrane tyrosines Y56, Y91 and Y167 play important roles in determining the affinity and transport rate of the rabbit proton-coupled peptide transporter PepT1., Pieri M, Gan C, Bailey P, Meredith D., Int J Biochem Cell Biol. November 1, 2009; 41 (11): 2204-13.
	Functional expression of the oligopeptide transporter PepT1 from the sea bass (Dicentrarchus labrax)., Sangaletti R, Terova G, Peres A, Bossi E, Corà S, Saroglia M., Pflugers Arch. November 1, 2009; 459 (1): 47-54.
	Stimulation of electrogenic intestinal dipeptide transport by the glucocorticoid dexamethasone., Rexhepaj R, Rotte A, Kempe DS, Sopjani M, Föller M, Gehring EM, Bhandaru M, Gruner I, Mack AF, Rubio-Aliaga I, Nässl AM, Daniel H, Kuhl D, Lang F., Pflugers Arch. November 1, 2009; 459 (1): 191-202.
	Peptide derivation of poorly absorbable drug allows intestinal absorption via peptide transporter., Kikuchi A, Tomoyasu T, Tanaka M, Kanamitsu K, Sasabe H, Maeda T, Odomi M, Tamai I., J Pharm Sci. May 1, 2009; 98 (5): 1775-87.
	Relative CO2/NH3 selectivities of AQP1, AQP4, AQP5, AmtB, and RhAG., Musa-Aziz R, Chen LM, Pelletier MF, Boron WF., Proc Natl Acad Sci U S A. March 31, 2009; 106 (13): 5406-11.
	Inhibition of intracellular dipeptide hydrolysis uncovers large outward transport currents of the peptide transporter PEPT1 in Xenopus oocytes., Kottra G, Frey I, Daniel H., Pflugers Arch. February 1, 2009; 457 (4): 809-20.
	Review. The mammalian proton-coupled peptide cotransporter PepT1: sitting on the transporter-channel fence?, Meredith D., Philos Trans R Soc Lond B Biol Sci. January 27, 2009; 364 (1514): 203-7.
	High-affinity interaction of sartans with H+/peptide transporters., Knutter I, Kottra G, Fischer W, Daniel H, Brandsch M., Drug Metab Dispos. January 1, 2009; 37 (1): 143-9.
	Transport of angiotensin-converting enzyme inhibitors by H+/peptide transporters revisited., Knutter I, Wollesky C, Kottra G, Hahn M, Fischer W, Zebisch K, Neubert R, Daniel H, Brandsch M., J Pharmacol Exp Ther. November 1, 2008; 327 (2): 432-41.
	Substrate-induced changes in the density of peptide transporter PEPT1 expressed in Xenopus oocytes., Mertl M, Daniel H, Kottra G., Am J Physiol Cell Physiol. November 1, 2008; 295 (5): C1332-43.
	Site-directed mutagenesis of Arginine282 suggests how protons and peptides are co-transported by rabbit PepT1., Pieri M, Hall D, Price R, Bailey P, Meredith D., Int J Biochem Cell Biol. January 1, 2008; 40 (4): 721-30.
	The peptide transporter PEPT2 is targeted by the protein kinase SGK1 and the scaffold protein NHERF2., Boehmer C, Palmada M, Klaus F, Jeyaraj S, Lindner R, Laufer J, Daniel H, Lang F., Cell Physiol Biochem. January 1, 2008; 22 (5-6): 705-14.
	Synthesis and characterization of a new and radiolabeled high-affinity substrate for H+/peptide cotransporters., Knütter I, Hartrodt B, Tóth G, Keresztes A, Kottra G, Mrestani-Klaus C, Born I, Daniel H, Neubert K, Brandsch M., FEBS J. November 1, 2007; 274 (22): 5905-14.
	Tripeptides of RS1 (RSC1A1) inhibit a monosaccharide-dependent exocytotic pathway of Na+-D-glucose cotransporter SGLT1 with high affinity., Vernaleken A, Veyhl M, Gorboulev V, Kottra G, Palm D, Burckhardt BC, Burckhardt G, Pipkorn R, Beier N, van Amsterdam C, Koepsell H., J Biol Chem. September 28, 2007; 282 (39): 28501-13.
	Transport characteristics of a novel peptide transporter 1 substrate, antihypotensive drug midodrine, and its amino acid derivatives., Tsuda M, Terada T, Irie M, Katsura T, Niida A, Tomita K, Fujii N, Inui K., J Pharmacol Exp Ther. July 1, 2006; 318 (1): 455-60.
	Evidence that the rabbit proton-peptide co-transporter PepT1 is a multimer when expressed in Xenopus laevis oocytes., Panitsas KE, Boyd CA, Meredith D., Pflugers Arch. April 1, 2006; 452 (1): 53-63.
	High-affinity peptide transporter PEPT2 (SLC15A2) of the zebrafish Danio rerio: functional properties, genomic organization, and expression analysis., Romano A, Kottra G, Barca A, Tiso N, Maffia M, Argenton F, Daniel H, Storelli C, Verri T., Physiol Genomics. February 14, 2006; 24 (3): 207-17.
	Developmental regulation of a turkey intestinal peptide transporter (PepT1)., Van L, Pan YX, Bloomquist JR, Webb KE, Wong EA., Poult Sci. January 1, 2005; 84 (1): 75-82.
	A rapid in vitro screening for delivery of peptide-derived peptidase inhibitors as potential drug candidates via epithelial peptide transporters., Foltz M, Meyer A, Theis S, Demuth HU, Daniel H., J Pharmacol Exp Ther. August 1, 2004; 310 (2): 695-702.

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