Population statistics of protein structures: lessons from structural classifications.
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Advances in Homology Protein Structure ModelingA database of macromolecular motionsFunctional coverage of the human genome by existing structures, structural genomics targets, and homology models.Structural genomics: A pipeline for providing structures for the biologistThe ASTRAL compendium for protein structure and sequence analysisThe role of protein structure in genomics.PASS2: a semi-automated database of protein alignments organised as structural superfamilies.Protein topology and stability define the space of allowed sequences.Designability of alpha-helical proteinsExploring dynamics of protein structure determination and homology-based prediction to estimate the number of superfamilies and folds.Growth of novel protein structural data.Cross-over between discrete and continuous protein structure space: insights into automatic classification and networks of protein structures.Patterns of protein-fold usage in eight microbial genomes: a comprehensive structural census.New Dynamic Rotamer Libraries: Data-Driven Analysis of Side-Chain Conformational Propensities.Expectations from structural genomics.Issues in bioinformatics benchmarking: the case study of multiple sequence alignment.Protein folds and protein folding.The evolutionary analysis of "orphans" from the Drosophila genome identifies rapidly diverging and incorrectly annotated genes.Frustration in biomoleculesRelative packing groups in template-based structure prediction: cooperative effects of true positive constraints.Comparative modeling and protein-like features of hydrophobic-polar models on a two-dimensional lattice.Assessing sequence comparison methods with reliable structurally identified distant evolutionary relationships.Polyproline and triple helix motifs in host-pathogen recognition.Thoroughly sampling sequence space: large-scale protein design of structural ensembles.Identification of the ligand binding sites on the molecular surface of proteins.Tryptophan-tryptophan energy migration as a tool to follow apoflavodoxin folding.The equilibrium unfolding of Azotobacter vinelandii apoflavodoxin II occurs via a relatively stable folding intermediateQSCOP-BLAST--fast retrieval of quantified structural information for protein sequences of unknown structure.Diversity of functions of proteins with internal symmetry in spatial arrangement of secondary structural elementsMechanics and dynamics of B1 domain of protein G: role of packing and surface hydrophobic residues.Apoflavodoxin (un)folding followed at the residue level by NMR.MALISAM: a database of structurally analogous motifs in proteins.A comparison of the urea-induced unfolding of apoflavodoxin and flavodoxin from Desulfovibrio vulgaris.Shining a light on structural genomics.A proteome view of structural, functional, and taxonomic characteristics of major protein domain clusters.The CATH Dictionary of Homologous Superfamilies (DHS): a consensus approach for identifying distant structural homologues.From sequences to a functional unit.Precursory signatures of protein folding/unfolding: from time series correlation analysis to atomistic mechanisms.SCOP: a Structural Classification of Proteins database.Structure space of model proteins: A principal component analysis
P2860
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P2860
Population statistics of protein structures: lessons from structural classifications.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
Population statistics of protein structures: lessons from structural classifications.
@en
type
label
Population statistics of protein structures: lessons from structural classifications.
@en
prefLabel
Population statistics of protein structures: lessons from structural classifications.
@en
P50
P1476
Population statistics of protein structures: lessons from structural classifications.
@en
P304
P356
10.1016/S0959-440X(97)80054-1
P577
1997-06-01T00:00:00Z