about
On side-chain conformational entropy of proteinsStructural Rigidity of a Large Cavity-containing Protein Revealed by High-pressure CrystallographyEdge strand engineering prevents native-like aggregation in Sulfolobus solfataricus acylphosphataseFast-folding proteins under stressEvolutionary information for specifying a protein foldNMR-detected brownian dynamics of αB-crystallin over a wide range of concentrations.Effect of chain connectivity on the structure of Lennard-Jones liquid and its implicationon statistical potentials for protein folding.Shape and evolution of thermostable protein structure.Random close packing in protein cores.Characterization of void space in polydisperse sphere packings: Applications to hard-sphere packings and to protein structure analysis.New insights into the interaction of proteins and disaccharides-The effect of pH and concentration.Massive sequence perturbation of a small protein.Cavities and atomic packing in protein structures and interfaces.Hydrogen bonding and packing density are factors most strongly connected to limiting sites of high flexibility in the 16S rRNA in the 30S ribosome.Revisiting the myths of protein interior: studying proteins with mass-fractal hydrophobicity-fractal and polarizability-fractal dimensionsFast protein folding kineticsChapter 4. Predicting and characterizing protein functions through matching geometric and evolutionary patterns of binding surfaces.Flexibility and packing in proteinsHelical packing patterns in membrane and soluble proteins.Comparison of mode analyses at different resolutions applied to nucleic acid systems.Architectures of whole-module and bimodular proteins from the 6-deoxyerythronolide B synthaseToward an accurate theoretical framework for describing ensembles for proteins under strongly denaturing conditionsPacking regularities in biological structures relate to their dynamics.A Geometric-Structure Theory for Maximally Random Jammed Packings.Predicting protein function and binding profile via matching of local evolutionary and geometric surface patterns.Conformational selection and adaptation to ligand binding in T4 lysozyme cavity mutants.Thermodynamic characterization of the unfolding of the prion protein.Molecular determinant of the effects of hydrostatic pressure on protein folding stabilityA proposal for the revision of molecular boundary typology.Fractal symmetry of protein interior: what have we learned?Small-world communication of residues and significance for protein dynamics.Protein sequence entropy is closely related to packing density and hydrophobicity.The twilight zone between protein order and disorderStatistical geometry of lattice chain polymers with voids of defined shapes: sampling with strong constraints.Ionizable side chains at catalytic active sites of enzymes.Contribution of hydrophobic interactions to protein stability.Orientational distributions of contact clusters in proteins closely resemble those of an icosahedronAlpha shapes applied to molecular shape characterization exhibit novel properties compared to established shape descriptors.Architecture and coevolution of allosteric materials.Geometry of protein shape and its evolutionary pattern for function prediction and characterization.
P2860
Q21145673-20172986-E1BD-434F-A236-FA5C92FED938Q27643796-2363DD49-618D-4743-9CFD-5405FCFB5C00Q27690644-85048BF6-F7DE-4ACD-9FC0-5A80C7B5DF48Q28083935-B5412B73-39A3-4728-9A93-A869A902D2EFQ28273539-C78811B1-2BA5-490D-B720-F234F23D46E2Q30316863-0596FB01-3939-4B5F-9D33-12E157FC71ACQ30342195-4BDF4C1B-F57E-42E9-A82F-F8E9312DFB2CQ30380400-000CB496-1A17-4F57-A8E5-DCDB2F67A287Q30386885-5D3D8492-76E6-422A-BDA3-AF6F794B55C1Q30426418-0178D95B-FF9F-48AF-B798-5F411A518374Q31133437-28EDFC58-5067-4E86-A21D-7FC6BCAA6675Q33224909-63F6ABA4-30A0-4E0B-992B-4D972F96E663Q33384132-AB6C1999-84EA-4521-A581-E1A3CB4F76EBQ33488694-AC7A4B4F-BC72-46D4-AC2E-4E3C4A0E0BF9Q33510942-9C315B86-76D3-45DD-A4C9-DE5BDB7ECE5EQ33719314-F5AEFD95-0696-498E-A2F8-AFCA1F044C90Q33901938-7D636AB2-60C8-4A9D-8371-8B1D7F206557Q34008934-BF30ECD7-A969-4060-B665-82ACF5FC3EE6Q34188161-C8EFF407-BBEC-4F7A-B11B-828A5FB9F96FQ34351612-EAAC5258-DBDF-4924-9F28-5DD94853A22FQ34824345-9A941C08-9FA8-40D9-9A0E-B27AD485339BQ34984722-3D15BABB-AAE5-40DB-9176-15569151A4B3Q36087287-0683ACD8-C1FA-470C-AEBA-15BCB7E6980AQ36280323-7D0DEC73-CFC6-4A7D-947A-24DE549DDC21Q37162894-E3DFD2BC-A8C2-4A8C-9CF2-378BE9F9EBF5Q37319797-1C1CEC70-9E6D-4454-94C0-311C52AB835AQ37533502-EC0F8356-0EE6-4E38-A079-2CC286268315Q37642482-AB322334-8CF6-4DD4-90D4-9216F764741DQ37774337-99B8028B-AFA3-4D50-ABCA-9F6D5765792CQ37879964-F359C62A-53F7-4FA1-9305-11AE009E9D1DQ40269752-98AD8758-1B6A-456F-8CDE-9AAA532DF607Q40435821-E7917854-9F8C-4073-A6DF-7D707BD33CF3Q40895923-B5C364F2-D45A-4D76-AD30-276B6001B48DQ41828093-6E3A7BD3-B4CC-463D-B2B3-C7DBAFBEC40CQ42021726-CE053067-E922-42C5-8E8F-35170098B266Q42030075-42B9672C-92EA-4612-9226-AC86F38AB5BDQ42160644-0955463B-C1FC-4E66-8A3A-8181EA402B54Q42238419-0A1DECAE-2E3D-4181-AF33-E636D8F360C8Q42316830-324D5A72-BB8A-4B9F-8A98-EFAC637BC346Q42555722-2F7E32D4-93F4-427F-95E4-5AE9D4BBBE8A
P2860
description
2001 nî lūn-bûn
@nan
2001 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Are proteins well-packed?
@ast
Are proteins well-packed?
@en
Are proteins well-packed?
@nl
type
label
Are proteins well-packed?
@ast
Are proteins well-packed?
@en
Are proteins well-packed?
@nl
prefLabel
Are proteins well-packed?
@ast
Are proteins well-packed?
@en
Are proteins well-packed?
@nl
P2860
P1433
P1476
Are proteins well-packed?
@en
P2860
P304
P356
10.1016/S0006-3495(01)75739-6
P407
P577
2001-08-01T00:00:00Z