About: Backbone-dependent rotamer library

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In biochemistry, a backbone-dependent rotamer library provides the frequencies, mean dihedral angles, and standard deviations of the discrete conformations (known as rotamers) of the amino acid side chains in proteins as a function of the backbone dihedral angles φ and ψ of the Ramachandran map. By contrast, backbone-independent rotamer libraries express the frequencies and mean dihedral angles for all side chains in proteins, regardless of the backbone conformation of each residue type. Backbone-dependent rotamer libraries have been shown to have significant advantages over backbone-independent rotamer libraries, principally when used as an energy term, by speeding up search times of side-chain packing algorithms used in protein structure prediction and protein design.

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rdfs:label	Backbone-dependent rotamer library (en)
rdfs:comment	In biochemistry, a backbone-dependent rotamer library provides the frequencies, mean dihedral angles, and standard deviations of the discrete conformations (known as rotamers) of the amino acid side chains in proteins as a function of the backbone dihedral angles φ and ψ of the Ramachandran map. By contrast, backbone-independent rotamer libraries express the frequencies and mean dihedral angles for all side chains in proteins, regardless of the backbone conformation of each residue type. Backbone-dependent rotamer libraries have been shown to have significant advantages over backbone-independent rotamer libraries, principally when used as an energy term, by speeding up search times of side-chain packing algorithms used in protein structure prediction and protein design. (en)
foaf:depiction
dcterms:subject	Bioinformatics Protein structure Molecular modelling
Wikipage page ID	66600846 (xsd:integer)
Wikipage revision ID	1109592897 (xsd:integer)
Link from a Wikipage to another Wikipage	Bayesian statistics Protein design Rosetta@home Biochemistry University of California, San Francisco Pentane interference Protein structure prediction Bioinformatics Mathematical optimization Orbital hybridisation Glutamine Glycine Angstrom Protein Data Bank Torus Tryptophan Tyrosine UCSF Chimera Alanine Amino acid Protein structure Force field (chemistry) Directional statistics Valerie Daggett Molecular dynamics Protein Ramachandran plot Resolution (electron density) Histidine dbr:Asparagine Molecular modelling Dihedral angle Martin Karplus Phenylalanine Phyre PyMol Rosetta@Home OpenEye Scientific Software YASARA Von Mises distribution Dihedral angles I-TASSER Side chain Swiss-model Protein backbone Glutamate Rotamer Aspartate Probability density Steric repulsion dbr:Fred_E._Cohen dbr:Roland_Dunbrack
Link from a Wikipage to an external page	http://dunbrack.fccc.edu/bbdep2010 http://kinemage.biochem.duke.edu/databases/rotamer.php http://seoklab.github.io/GalaxyRefine/ http://www.dynameomics.org/external/rotamer/BBDependent2014.aspx https://zhanglab.ccmb.med.umich.edu/EvoEF/ http://dunbrack.fccc.edu/bbdep2010/ConformationalAnalysis.php http://dunbrack.fccc.edu
sameAs	Backbone-dependent rotamer library Backbone-dependent rotamer library
dbp:wikiPageUsesTemplate	dbt:Reflist dbt:Short_description
thumbnail	wiki-commons:Special:FilePath/Serine_backbone-dependent_chi1_rotamer_populations.png?width=300
has abstract	In biochemistry, a backbone-dependent rotamer library provides the frequencies, mean dihedral angles, and standard deviations of the discrete conformations (known as rotamers) of the amino acid side chains in proteins as a function of the backbone dihedral angles φ and ψ of the Ramachandran map. By contrast, backbone-independent rotamer libraries express the frequencies and mean dihedral angles for all side chains in proteins, regardless of the backbone conformation of each residue type. Backbone-dependent rotamer libraries have been shown to have significant advantages over backbone-independent rotamer libraries, principally when used as an energy term, by speeding up search times of side-chain packing algorithms used in protein structure prediction and protein design. (en)
prov:wasDerivedFrom	wikipedia-en:Backbone-dependent_rotamer_library?oldid=1109592897&ns=0
page length (characters) of wiki page	18979 (xsd:nonNegativeInteger)
foaf:isPrimaryTopicOf	wikipedia-en:Backbone-dependent_rotamer_library
is Link from a Wikipage to another Wikipage of	Protein design Protein fragment library Pentane interference Protein structure prediction Frederic M. Richards Conformational isomerism UCSF Chimera Resolution (electron density) Bivariate von Mises distribution Stereoisomerism Dihedral angle Loop modeling Side chain
is foaf:primaryTopic of	wikipedia-en:Backbone-dependent_rotamer_library

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