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Literature DB >> 23867627

Structural insights into substrate recognition in proton-dependent oligopeptide transporters.

Fatma Guettou¹, Esben M Quistgaard, Lionel Trésaugues, Per Moberg, Caroline Jegerschöld, Lin Zhu, Agnes Jin Oi Jong, Pär Nordlund, Christian Löw.

Abstract

Short-chain peptides are transported across membranes through promiscuous proton-dependent oligopeptide transporters (POTs)--a subfamily of the major facilitator superfamily (MFS). The human POTs, PEPT1 and PEPT2, are also involved in the absorption of various drugs in the gut as well as transport to target cells. Here, we present a structure of an oligomeric POT transporter from Shewanella oneidensis (PepTSo2), which was crystallized in the inward open conformation in complex with the peptidomimetic alafosfalin. All ligand-binding residues are highly conserved and the structural insights presented here are therefore likely to also apply to human POTs.

Entities: Chemical Gene Species

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Year: 2013 PMID： 23867627 PMCID： PMC3790050 DOI： 10.1038/embor.2013.107

Source DB: PubMed Journal: EMBO Rep ISSN： 1469-221X Impact factor: 8.807

28 in total

1. Ligation-independent cloning of PCR products (LIC-PCR).

Authors: C Aslanidis; P J de Jong
Journal: Nucleic Acids Res Date: 1990-10-25 Impact factor: 16.971

2. Assessing the stability of membrane proteins to detect ligand binding using differential static light scattering.

Authors: Guillermo A Senisterra; Hamed Ghanei; Galina Khutoreskaya; Elena Dobrovetsky; Aled M Edwards; Gilbert G Privé; Masoud Vedadi
Journal: J Biomol Screen Date: 2010-02-11

3. Simple allosteric model for membrane pumps.

Authors: O Jardetzky
Journal: Nature Date: 1966-08-27 Impact factor: 49.962

4. His tag effect on solubility of human proteins produced in Escherichia coli: a comparison between four expression vectors.

Authors: Esmeralda A Woestenenk; Martin Hammarström; Susanne van den Berg; Torleif Härd; Helena Berglund
Journal: J Struct Funct Genomics Date: 2004

5. Functional and structural characterization of a prokaryotic peptide transporter with features similar to mammalian PEPT1.

Authors: Dietmar Weitz; Daniel Harder; Fabio Casagrande; Dimitrios Fotiadis; Petr Obrdlik; Bela Kelety; Hannelore Daniel
Journal: J Biol Chem Date: 2006-12-08 Impact factor: 5.157

6. Functional interactions between the subunits of the lactose transporter from Streptococcus thermophilus.

Authors: Eric R Geertsma; Ria H Duurkens; Bert Poolman
Journal: J Mol Biol Date: 2005-07-01 Impact factor: 5.469

Review 7. Molecular and integrative physiology of intestinal peptide transport.

Authors: Hannelore Daniel
Journal: Annu Rev Physiol Date: 2004 Impact factor: 19.318

8. Transport of the phosphonodipeptide alafosfalin by the H+/peptide cotransporters PEPT1 and PEPT2 in intestinal and renal epithelial cells.

Authors: Jana Neumann; Mandy Bruch; Sabine Gebauer; Matthias Brandsch
Journal: Eur J Biochem Date: 2004-05

9. Analysis of the transport properties of side chain modified dipeptides at the mammalian peptide transporter PEPT1.

Authors: Ilka Knütter; Bianka Hartrodt; Stephan Theis; Martin Foltz; Matthias Rastetter; Hannelore Daniel; Klaus Neubert; Matthias Brandsch
Journal: Eur J Pharm Sci Date: 2004-01 Impact factor: 4.384

10. Glucose transporter function is controlled by transporter oligomeric structure. A single, intramolecular disulfide promotes GLUT1 tetramerization.

Authors: R J Zottola; E K Cloherty; P E Coderre; A Hansen; D N Hebert; A Carruthers
Journal: Biochemistry Date: 1995-08-01 Impact factor: 3.162

37 in total

Structural insights into substrate recognition in proton-dependent oligopeptide transporters.

1. Ligation-independent cloning of PCR products (LIC-PCR).

2. Assessing the stability of membrane proteins to detect ligand binding using differential static light scattering.

3. Simple allosteric model for membrane pumps.

4. His tag effect on solubility of human proteins produced in Escherichia coli: a comparison between four expression vectors.

5. Functional and structural characterization of a prokaryotic peptide transporter with features similar to mammalian PEPT1.

6. Functional interactions between the subunits of the lactose transporter from Streptococcus thermophilus.

Review 7. Molecular and integrative physiology of intestinal peptide transport.

8. Transport of the phosphonodipeptide alafosfalin by the H+/peptide cotransporters PEPT1 and PEPT2 in intestinal and renal epithelial cells.

9. Analysis of the transport properties of side chain modified dipeptides at the mammalian peptide transporter PEPT1.

10. Glucose transporter function is controlled by transporter oligomeric structure. A single, intramolecular disulfide promotes GLUT1 tetramerization.

1. Rapid Bioinformatic Identification of Thermostabilizing Mutations.

2. Salt Bridge Swapping in the EXXERFXYY Motif of Proton-coupled Oligopeptide Transporters.

Review 3. Understanding transport by the major facilitator superfamily (MFS): structures pave the way.

4. Evolutionary mix-and-match with MFS transporters II.

5. Molecular insights into the antifungal mechanism of bacilysin.

6. Selectivity mechanism of a bacterial homolog of the human drug-peptide transporters PepT1 and PepT2.

Review 7. Di- and tripeptide transport in vertebrates: the contribution of teleost fish models.

8. Chemical Modulation of the Human Oligopeptide Transporter 1, hPepT1.

9. Peptide transporter DtpA has two alternate conformations, one of which is promoted by inhibitor binding.

Review 10. Recent advances in understanding proton coupled peptide transport via the POT family.