Structural basis for polyspecificity in the POT family of proton-coupled oligopeptide transporters
about
In meso in situ serial X-ray crystallography of soluble and membrane proteins at cryogenic temperatures.Recent advances in understanding proton coupled peptide transport via the POT familyEnergy coupling mechanisms of MFS transportersA comprehensive review of the lipid cubic phase or in meso method for crystallizing membrane and soluble proteins and complexes.Salt Bridge Swapping in the EXXERFXYY Motif of Proton-coupled Oligopeptide TransportersIn meso in situ serial X-ray crystallography of soluble and membrane proteinsComputing Substrate Selectivity in a Peptide Transporter.Thermodynamic evidence for a dual transport mechanism in a POT peptide transporterRole of electrostatic interactions for ligand recognition and specificity of peptide transporters.Crystal Structures of the Extracellular Domain from PepT1 and PepT2 Provide Novel Insights into Mammalian Peptide TransportStructure determination of a major facilitator peptide transporter: Inward facing PepTSt from Streptococcus thermophilus crystallized in space group P3121.Comparative Genomics Analysis of Streptomyces Species Reveals Their Adaptation to the Marine Environment and Their Diversity at the Genomic LevelOrigin and evolution of transporter substrate specificity within the NPF family.Accurate Prediction of Ligand Affinities for a Proton-Dependent Oligopeptide Transporter.A simple mathematical approach to the analysis of polypharmacology and polyspecificity data.Human transporters, PEPT1/2, facilitate melatonin transportation into mitochondria of cancer cells: An implication of the therapeutic potential.Di- and tripeptide transport in vertebrates: the contribution of teleost fish models.Functional implications and ubiquitin-dependent degradation of the peptide transporter Ptr2 in Saccharomyces cerevisiae.The helical propensity of the extracellular loop is responsible for the substrate specificity of Fe(III)-phytosiderophore transporters.Lipid-like Peptides can Stabilize Integral Membrane Proteins for Biophysical and Structural Studies.Gating topology of the proton-coupled oligopeptide symporters.The cubicon method for concentrating membrane proteins in the cubic mesophase.Chemical Modulation of the Human Oligopeptide Transporter 1, hPepT1.Proton movement and coupling in the POT family of peptide transporters.Multispecific Substrate Recognition in a Proton-Dependent Oligopeptide Transporter.Structural basis of malodour precursor transport in the human axillaFree Energy Landscape of the Complete Transport Cycle in a Key Bacterial TransporterIn situ serial crystallography for rapid de novo membrane protein structure determinationSymmetry and Structure in the POT Family of Proton Coupled Peptide TransportersTripeptide binding in a proton-dependent oligopeptide transporter
P2860
Q27316812-F44E183D-F398-403B-9D2F-341FB645F393Q28073606-3AB3EBA2-35C8-4772-9456-EB37129777CCQ28080486-F28C74AC-A1B4-45CF-B9C2-9713DCDA49DEQ30371030-BA03AB5A-F914-4F02-B428-2D4D6E37D774Q30380466-0B06C328-FC02-41BB-9421-9FA4663D0E90Q30653915-52E5B506-B5DE-49B3-AC3E-150DBC00F828Q33760314-6A84009E-A459-4199-BE04-7D09EFCC9D31Q34737607-28A6968E-B9D4-42E7-A63E-A613A8B9CE22Q35738355-9B398A07-DFF6-47A6-B5AC-F9854CD980A5Q36133816-B071178E-C1DD-4BFD-AF6B-C51D68007101Q36298338-7F3F367E-5970-4BB7-841A-3F167B100B03Q37039123-E5BC687A-677D-40CB-8FF1-E248D847E8B8Q37679855-BE81DE45-EAD0-4E0C-BC8B-FF5D3C43C5DBQ38569080-DFCB18E4-B74D-4A7D-B193-86CA2F8FB126Q38687263-3DCE8B9B-6980-45CB-9FCF-4D136A23A6DBQ38720727-EA159D3D-673F-400E-B0E4-7861786DB1D1Q38996373-FACC5919-3F3B-4A3C-B796-41D337456C41Q42069147-95224205-2DEB-48A7-A28A-692D7D394B6FQ42333552-D3666F28-85A9-4A42-984C-7D8F5AE17A62Q42359705-2B95A6FE-CE22-4797-8029-8DD8DD4C3789Q43139307-137B77C0-4350-4623-BFCD-437AC7EEF045Q45071864-EE5F2E64-7C65-4484-B7F4-3411D66E6E82Q47431439-C85DCCAA-FB40-449A-A997-2FD3CDE52F14Q47779071-7903CA2C-1E2F-4580-8DEF-FB2DDD0BE5B7Q50075033-85A139B9-F25F-47F1-81AD-EFC4B1F70771Q56812271-55E545E3-F8ED-4AFE-B429-4BB58CDDE7CCQ57068950-A2AD1769-29F2-4C9D-B505-9F097F3092F5Q57131895-A030E873-5133-484C-BC1D-52C1ED2D8FFFQ58003575-FE6585CB-A47A-44C3-9661-090C5AB7ECC4Q59137784-6EE0AEE9-4C71-4486-9591-7FC54D51AEF5
P2860
Structural basis for polyspecificity in the POT family of proton-coupled oligopeptide transporters
description
2014 nî lūn-bûn
@nan
2014 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Structural basis for polyspeci ...... pled oligopeptide transporters
@ast
Structural basis for polyspeci ...... pled oligopeptide transporters
@en
Structural basis for polyspeci ...... pled oligopeptide transporters
@nl
type
label
Structural basis for polyspeci ...... pled oligopeptide transporters
@ast
Structural basis for polyspeci ...... pled oligopeptide transporters
@en
Structural basis for polyspeci ...... pled oligopeptide transporters
@nl
prefLabel
Structural basis for polyspeci ...... pled oligopeptide transporters
@ast
Structural basis for polyspeci ...... pled oligopeptide transporters
@en
Structural basis for polyspeci ...... pled oligopeptide transporters
@nl
P2093
P2860
P50
P3181
P356
P1433
P1476
Structural basis for polyspeci ...... pled oligopeptide transporters
@en
P2093
Alette Brinth
Nicolae Solcan
Syed T A Shah
P2860
P304
P3181
P356
10.15252/EMBR.201338403
P577
2014-08-01T00:00:00Z