Prediction of transmembrane helix orientation in polytopic membrane proteins.
about
Computational modeling of membrane proteinsComputing structure-based lipid accessibility of membrane proteins with mp_lipid_acc in RosettaMP.Prediction of the burial status of transmembrane residues of helical membrane proteins.Prediction of membrane protein structures with complex topologies using limited constraintsSystematic evaluation of CS-Rosetta for membrane protein structure prediction with sparse NOE restraints.Improving prediction of helix-helix packing in membrane proteins using predicted contact numbers as restraints.Structure of a protein-detergent complex: the balance between detergent cohesion and binding.Progesterone modulation of transmembrane helix-helix interactions between the alpha-subunit of Na/K-ATPase and phospholipid N-methyltransferase in the oocyte plasma membrane.TRPV channels and vascular functionThe transmembrane topology of Batten disease protein CLN3 determined by consensus computational prediction constrained by experimental data.Predicting transmembrane helix packing arrangements using residue contacts and a force-directed algorithmMPRAP: an accessibility predictor for a-helical transmembrane proteins that performs well inside and outside the membraneModel-guided mutagenesis drives functional studies of human NHA2, implicated in hypertension.Mutational analysis of threonine 402 adjacent to the GXXXG dimerization motif in transmembrane segment 1 of ABCG2.Predicting residue-residue contacts and helix-helix interactions in transmembrane proteins using an integrative feature-based random forest approachResolving the paradox for protein aggregation diseases: NMR structure and dynamics of the membrane-embedded P56S-MSP causing ALS imply a common mechanism for aggregation-prone proteins to attack membranesA model-structure of a periplasm-facing state of the NhaA antiporter suggests the molecular underpinnings of pH-induced conformational changes.The homology model of PMP22 suggests mutations resulting in peripheral neuropathy disrupt transmembrane helix packing.Toward understanding the mechanism of action of the yeast multidrug resistance transporter Pdr5p: a molecular modeling study.Lipid exposure prediction enhances the inference of rotational angles of transmembrane helices.Evolutionary-guided de novo structure prediction of self-associated transmembrane helical proteins with near-atomic accuracy.High-accuracy prediction of transmembrane inter-helix contacts and application to GPCR 3D structure modeling.Ethnic differences and functional analysis of MET mutations in lung cancer.Interaction and conformational dynamics of membrane-spanning protein helices.Role of Ectopic Gene Conversion in the Evolution of a Candida krusei Pleiotropic Drug Resistance Transporter Family.Single-spanning transmembrane domains in cell growth and cell-cell interactions: More than meets the eye?Computational studies of membrane proteins: models and predictions for biological understanding.Molecular Modeling of Transporters: From Low Resolution Cryo-Electron Microscopy Map to Conformational Exploration. The Example of TSPO.Accurate prediction of the burial status of transmembrane residues of α-helix membrane protein by incorporating the structural and physicochemical features.Accurate Prediction of Contact Numbers for Multi-Spanning Helical Membrane Proteins.Insight into pleiotropic drug resistance ATP-binding cassette pump drug transport through mutagenesis of Cdr1p transmembrane domains.RHYTHM--a server to predict the orientation of transmembrane helices in channels and membrane-coils.Single-nucleotide evolution quantifies the importance of each site along the structure of mitochondrial carriers.Model structure of the Na+/H+ exchanger 1 (NHE1): functional and clinical implications.Co-evolving residues in membrane proteins.Modeling and Validation of Transmembrane Protein Structures
P2860
Q26995693-FFEB7085-A754-47CE-929F-7C8289B2CBEFQ30152661-FE1CAA32-42EA-4C64-AF9A-C2FEF142BA96Q30363517-50A5B8B6-8D58-4EFA-B451-1A52C4F90348Q30374712-77E6FBC1-A230-46DB-9340-5CEB866D733BQ30396232-65F8B324-9924-4CA1-910E-074E8214AF15Q30399508-222BCE2B-4B06-4DA1-A45C-43CCA6960379Q30406852-C9D4B0A2-1D3B-4F76-AED3-55958C3AE4A3Q30435817-F65A3687-D636-46ED-BC77-8B64475BEE78Q30463988-7185B963-CFC9-48F4-A875-375E37D69A51Q31148303-27307DB4-6A3D-4A95-8066-A3EEB7E2154DQ33545205-8832D395-F2D8-41F0-B1F7-915C6F920A27Q33611134-C663C428-BE00-4B69-8373-65206B0EBD7CQ33665631-199C89AD-91FC-4014-88B2-B59B750BBD35Q33718824-59FAC671-9457-4B1F-9B2F-0C99C1B76A0BQ34064661-A8BDEB6A-950D-4C21-9D8D-FBFF055C8CCCQ34211441-E26F56AF-3DD2-4694-A075-A1F2114C80E8Q34262440-C7378E40-4B0D-418F-BAFE-19BC08465FF5Q34300289-006C8D02-7A94-4D15-89DD-F0DE415F86B3Q34516749-C31D772C-0EB7-4809-9A7F-6A0D3D3B3EB5Q35013462-82E4F983-132F-4EEA-B966-F3A4686F2C4BQ36801644-9598D68C-4F34-441C-B5B9-C90D8FAC525FQ37212925-C1D598F6-3F7E-4053-B48E-F1DFA75800BBQ37399540-432D6F9D-ED60-49EC-8097-CCEE83AFB2AEQ37520862-957AFEE3-CE0A-4EF4-BA3C-A1AAE4244A39Q37735455-AD141290-DB89-457D-9E8C-C73680EED9DDQ37764644-5F129245-A654-4F42-853C-9BD629EABA84Q37952425-E6401A4D-509A-4CDB-A26F-0F69E4811E8BQ38654085-2D89B688-4731-468C-A8A8-5E835DC615CFQ39843963-6601C673-D8D3-4000-8CF5-7C9301479354Q41193984-BF1DE8EA-9956-452E-8428-5B61D93625F1Q42563449-41A35CA4-35AF-469D-B6AA-46C62C9A46BDQ43103617-89EC56EB-306B-41B1-ACD5-F3D9D163424CQ43749588-8DD7C20B-DF30-48B1-AF10-0CBA88984D46Q46915314-817D9543-D5F8-4DF7-8CE2-D6C806472B57Q48371316-B3243747-91F3-4CB7-9F89-FD16F8A591E0Q57207084-E1B07F90-EF90-456E-917B-A493A6308963
P2860
Prediction of transmembrane helix orientation in polytopic membrane proteins.
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Prediction of transmembrane helix orientation in polytopic membrane proteins.
@ast
Prediction of transmembrane helix orientation in polytopic membrane proteins.
@en
type
label
Prediction of transmembrane helix orientation in polytopic membrane proteins.
@ast
Prediction of transmembrane helix orientation in polytopic membrane proteins.
@en
prefLabel
Prediction of transmembrane helix orientation in polytopic membrane proteins.
@ast
Prediction of transmembrane helix orientation in polytopic membrane proteins.
@en
P2860
P356
P1476
Prediction of transmembrane helix orientation in polytopic membrane proteins.
@en
P2093
Larisa Adamian
P2860
P2888
P356
10.1186/1472-6807-6-13
P577
2006-06-22T00:00:00Z
P5875
P6179
1024442592