about
Models for the 3(10)-helix/coil, pi-helix/coil, and alpha-helix/3(10)-helix/coil transitions in isolated peptidesSolution NMR studies of antiamoebin, a membrane channel-forming polypeptideInsights into the conformational flexibility of Bruton's tyrosine kinase from multiple ligand complex structuresFour complete turns of a curved 3₁₀-helix at atomic resolution: the crystal structure of the peptaibol trichovirin I-4A in a polar environment suggests a transition to α-helix for membrane functionA leucine-rich repeat variant with a novel repetitive protein structural motifConformational restriction through C alpha i C alpha i cyclization: Ac12c, the largest cycloaliphatic C alpha,alpha- disubstituted glycine knownTheory of the origin, evolution, and nature of lifeHypopulvins, novel peptaibiotics from the polyporicolous fungus Hypocrea pulvinata, are produced during infection of its natural hostsMembrane orientation of the N-terminal segment of alamethicin determined by solid-state 15N NMREnergy transport in peptide helicesSpectroscopically labeled peptaibiotic analogs: the 4-nitrophenylalanine infrared absorption probe inserted at different positions into trichogin GA IV.Helix motion in protein C12A-p8(MTCP1): comparison of molecular dynamics simulations and multifield NMR relaxation data.Preferred conformation of peptides based on cycloaliphatic C(alpha,alpha)-disubstituted glycines: 1-amino-cycloundecane-1-carboxylic acid (Ac11c).Solvent-induced beta-hairpin to helix conformational transition in a designed peptide.De novo design: backbone conformational constraints in nucleating helices and beta-hairpins.Self-organization and regulation of intrinsically disordered proteins with folded N-termini.Exploring the membrane mechanism of the bioactive peptaibol ampullosporin a using lipid monolayers and supported biomimetic membranes.The activity of prolactin releasing peptide correlates with its helicity.De novo design and characterization of an apolar helical hairpin peptide at atomic resolution: Compaction mediated by weak interactionsStructural answers and persistent questions about how nicotinic receptors work.Control of peptide conformation by the Thorpe-Ingold effect (C alpha-tetrasubstitution).High-purity discrete PEG-oligomer crystals allow structural insight.De novo protein design: crystallographic characterization of a synthetic peptide containing independent helical and hairpin domains.Partial thioamide scan on the lipopeptaibiotic trichogin GA IV. Effects on folding and bioactivityExploring Non-obvious Hydrophobic Binding Pockets on Protein Surfaces: Increasing Affinities in Peptide-Protein Interactions.Expanding the polypeptide backbone: hydrogen-bonded conformations in hybrid polypeptides containing the higher homologues of alpha-amino acidsStructural Stability, Transitions, and Interactions within SoxYZCD-Thiosulphate from Sulfurimonas denitrificans: An In Silico Molecular Outlook for Maintaining Environmental Sulphur Cycle.Diversity of Secondary Structure in Catalytic Peptides with β-Turn-Biased SequencesSpin-echo electron paramagnetic resonance (EPR) spectroscopy of a pore-forming (Lipo)peptaibol in model and bacterial membranes.Handedness preference and switching of peptide helices. Part I: Helices based on protein amino acids.Handedness preference and switching of peptide helices. Part II: Helices based on noncoded α-amino acids.Constrained peptides as miniature protein structuresRefoldable Foldamers: Global Conformational Switching by Deletion or Insertion of a Single Hydrogen Bond.Structure-Based Design of Inhibitors of Protein-Protein Interactions: Mimicking Peptide Binding Epitopes.Conformation, self-aggregation, and membrane interaction of peptaibols as studied by pulsed electron double resonance spectroscopy.Homochirality of β-Peptides: A Significant Biomimetic Property of Unnatural Systems.Dynamic foldamer chemistry.En route towards the peptide γ-helix: X-ray diffraction analyses and conformational energy calculations of Adm-rich short peptides.Trichogin GA IV: a versatile template for the synthesis of novel peptaibiotics.Photocurrent generation by helical peptide monolayers integrating light harvesting and charge-transport functions.
P2860
Q24673823-84030C7D-B8C2-4003-9571-3B65F81D06FCQ27640296-82DE8FFA-03DE-47DF-94F8-0F8496C20E42Q27666787-AFFE7AE8-5778-4C7F-A26D-D220D3176F67Q27676908-F17806AB-76C8-4E43-91AC-7EB7EAD02094Q27734058-8E310227-248B-46EF-B352-156B127055D5Q28370640-AC20B106-C2B4-467A-96DA-7EF54244B4BDQ28655005-19B1E3C6-451F-494F-A881-F3D62B5637DBQ28829684-F89EC499-118E-4B4F-A11E-BD35F447ACBAQ30447613-65285A46-CABC-4DE7-B973-1D06399DC361Q30479840-F2B32E88-E46D-4105-AFD0-41B0D37A93AEQ30583903-A50993E2-DC42-4D49-952C-5050BACD5A18Q30741818-4380881A-829D-49B3-9EB2-44762216095BQ31809385-49D52F6C-EA60-42F0-A7BF-12ACD7213CECQ32159186-0969B245-B1F5-4891-91CF-6D4D9513FC94Q33749937-995F4BA6-621C-48BE-AA1F-BB0D7A900854Q33828313-4CD8F3CE-D516-460F-BB49-E68A2AEEAF34Q34591003-6A38E0E1-830F-4B46-A021-7227327705BDQ34593685-093E40F2-A1EF-4DC3-A0A1-58A0A3166441Q34630239-5B870F35-A8D5-4436-B0A7-0F1F0ECB1F17Q34782188-A6396B80-13F2-48FD-B425-8B7DEF382B27Q34810582-E96C8D4A-1D21-4BDC-9DC6-EBF30BF77756Q34921328-3EEE21AC-867B-46A6-B304-D6127EF7CF19Q35103478-0FF1F9DF-D300-48C3-B326-054F5A6422E1Q36281175-3AF40360-4BF9-4189-808A-DC1FD2CE124BQ36354076-52840FD3-AA60-4FB8-BA4D-5863F82A0FFFQ36717668-A9C525F7-3B6B-4E88-821E-137EF1F6EC46Q37335232-BCA7292C-61EF-436A-BF51-A466D6C505F0Q37646524-1C12F365-E712-4615-86D6-BA7FB8F12052Q38107442-89C74D13-7B5D-421A-9950-36D524BE6579Q38206760-2F626FC8-27DD-45FB-89B9-1C37D9F89AD3Q38340034-B8A6B341-D501-49A0-B67C-90352583C7A4Q38477058-B139E121-AB5B-4D72-AA4A-7703D87EE4F1Q38496042-F4885A9E-474A-4DD5-9802-A9DB36CA7DC7Q38539666-660B8A2C-2550-468C-91DB-B0EE21CF419DQ38566027-F0756425-56F2-430F-B6C3-9DC47D66EE56Q38644625-C563D3BB-9C19-4528-8922-C24AA5C84FD0Q38898016-C10AE2E5-2E36-497A-80A3-86F3F5E48A95Q39075913-824B2270-5745-4FAF-8E6C-B04D8DF113E9Q39426260-8DD69FE7-50E0-4986-8ADC-9A54EE9834EAQ39482072-029CAB59-8BF9-4426-875D-45EF1C891B56
P2860
description
1991 nî lūn-bûn
@nan
1991 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1991 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
name
The polypeptide 310-helix.
@ast
The polypeptide 310-helix.
@en
The polypeptide 310-helix.
@nl
type
label
The polypeptide 310-helix.
@ast
The polypeptide 310-helix.
@en
The polypeptide 310-helix.
@nl
prefLabel
The polypeptide 310-helix.
@ast
The polypeptide 310-helix.
@en
The polypeptide 310-helix.
@nl
P1476
The polypeptide 310-helix.
@en
P2093
Benedetti E
P304
P356
10.1016/0968-0004(91)90142-I
P577
1991-09-01T00:00:00Z