Side-chain entropy opposes alpha-helix formation but rationalizes experimentally determined helix-forming propensities. - Wikidata - wikimedia - TriplyDB

Side-chain entropy opposes alpha-helix formation but rationalizes experimentally determined helix-forming propensities.

Side-chain entropy opposes alpha-helix formation but rationalizes experimentally determined helix-forming propensities.

http://www.wikidata.org/entity/Q33611710

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Mobile unnatural amino acid side chains in the core of staphylococcal nuclease Electronic properties of amino acid side chains: quantum mechanics calculation of substituent effects.A small engineered protein lacks structural uniqueness by increasing the side-chain conformational entropy Loss of conformational entropy in protein folding calculated using realistic ensembles and its implications for NMR-based calculations Pollutant-induced modulation in conformation and β-lactamase activity of human serum albumin The progressive development of structure and stability during the equilibrium folding of the alpha subunit of tryptophan synthase from Escherichia coli.Intrinsic beta-sheet propensities result from van der Waals interactions between side chains and the local backbone Analysis of forces that determine helix formation in alpha-proteins.Stabilization of bzip peptides through incorporation of fluorinated aliphatic residues.Ultra-fast evaluation of protein energies directly from sequence Occurrence of protein structure elements in conserved sequence regions.Prediction of loop regions in protein sequence.Sequence periodicity and secondary structure propensity in model proteins.Frozen, but no accident - why the 20 standard amino acids were selected.Creating novel protein scripts beyond natural alphabets Principles of protein folding--a perspective from simple exact models.Mechanism to trigger unfolding in O(6) -alkylguanine-DNA alkyltransferase.A novel method reveals that solvent water favors polyproline II over beta-strand conformation in peptides and unfolded proteins: conditional hydrophobic accessible surface area (CHASA).Exploring the conformational space of protein side chains using dead-end elimination and the A* algorithm."Hot cores" in proteins: comparative analysis of the apolar contact area in structures from hyper/thermophilic and mesophilic organisms.Side-chain entropy and packing in proteins.A test of the "jigsaw puzzle" model for protein folding by multiple methionine substitutions within the core of T4 lysozyme.Effects of side chains in helix nucleation differ from helix propagation.Potent, structurally constrained agonists and competitive antagonists of corticotropin-releasing factor.Enthalpy of helix-coil transition: missing link in rationalizing the thermodynamics of helix-forming propensities of the amino acid residues Relationship between side chain structure and 14-helix stability of beta3-peptides in water alpha-helix formation: discontinuous molecular dynamics on an intermediate-resolution protein model.Folding Trp-cage to NMR resolution native structure using a coarse-grained protein model A directed essential dynamics simulation of peptide folding.Geometry and symmetry presculpt the free-energy landscape of proteins Side-chain conformational entropy in protein folding Synthetic mimetics of protein secondary structure domains Thermodynamics of protein-ligand interactions: history, presence, and future aspects.Protein folding--what's the question?A direct comparison of helix propensity in proteins and peptides.Effect of the Crystal Environment on Side-Chain Conformational Dynamics in Cyanovirin-N Investigated through Crystal and Solution Molecular Dynamics Simulations.Unnatural amino acid packing mutants of Escherichia coli thioredoxin produced by combined mutagenesis/chemical modification techniques.Discovering structural correlations in alpha-helices.Helix propagation and N-cap propensities of the amino acids measured in alanine-based peptides in 40 volume percent trifluoroethanol.Empirical free energy calculation: comparison to calorimetric data.

P2860

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P2860

Side-chain entropy opposes alpha-helix formation but rationalizes experimentally determined helix-forming propensities.

http://www.wikidata.org/entity/Q33611710

description

1992 nî lūn-bûn

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1992 թուականի Յուլիսին հրատարակուած գիտական յօդուած

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1992 թվականի հուլիսին հրատարակված գիտական հոդված

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1992年の論文

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1992年論文

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1992年論文

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1992年論文

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1992年論文

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1992年論文

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1992年论文

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Side-chain entropy opposes alp ...... ed helix-forming propensities.

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Side-chain entropy opposes alp ...... ed helix-forming propensities.

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Side-chain entropy opposes alp ...... ed helix-forming propensities.

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Side-chain entropy opposes alp ...... ed helix-forming propensities.

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Side-chain entropy opposes alp ...... ed helix-forming propensities.

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Side-chain entropy opposes alp ...... ed helix-forming propensities.

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PNAS.89.13.5937

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Proceedings of the National Academy of Sciences of the United States of America

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Side-chain entropy opposes alp ...... ed helix-forming propensities.

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G D Rose

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T P Creamer

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P2860

The structure of proteins; two hydrogen-bonded helical configurations of the polypeptide chain

The Protein Data Bank: a computer-based archival file for macromolecular structures

Prediction of the secondary structure of proteins from their amino acid sequence

Tertiary templates for proteins. Use of packing criteria in the enumeration of allowed sequences for different structural classes

Amino acid preferences for specific locations at the ends of alpha helices

Alpha-helix stabilization by natural and unnatural amino acids with alkyl side chains.

Helix signals in proteins.

Stabilization of protein structure by interaction of alpha-helix dipole with a charged side chain.

The helical s constant for alanine in water derived from template-nucleated helices.

Straight-chain non-polar amino acids are good helix-formers in water.

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5937-5941

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scholarly article

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10.1073/PNAS.89.13.5937

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