Site-Specific Amino Acid Preferences Are Mostly Conserved in Two Closely Related Protein Homologs. - Test2 - elhamkhani - TriplyDB

Site-Specific Amino Acid Preferences Are Mostly Conserved in Two Closely Related Protein Homologs.

Site-Specific Amino Acid Preferences Are Mostly Conserved in Two Closely Related Protein Homologs.

http://www.wikidata.org/entity/Q36226944

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Causes of evolutionary rate variation among protein sites Detection and sequence/structure mapping of biophysical constraints to protein variation in saturated mutational libraries and protein sequence alignments with a dedicated server Biophysical Models of Protein Evolution: Understanding the Patterns of Evolutionary Sequence Divergence.In vivo mutation rates and the landscape of fitness costs of HIV-1.Coupling high-throughput genetics with phylogenetic information reveals an epistatic interaction on the influenza A virus M segment.The Mutational Robustness of Influenza A Virus.Experimental Estimation of the Effects of All Amino-Acid Mutations to HIV's Envelope Protein on Viral Replication in Cell Culture Complete mapping of viral escape from neutralizing antibodies Deep mutational scanning identifies sites in influenza nucleoprotein that affect viral inhibition by MxA Population genomics of intrapatient HIV-1 evolution Accurate Measurement of the Effects of All Amino-Acid Mutations on Influenza Hemagglutinin.Epistasis and the Dynamics of Reversion in Molecular Evolution Identification of positive selection in genes is greatly improved by using experimentally informed site-specific models.phydms: software for phylogenetic analyses informed by deep mutational scanning.Epistasis in protein evolution.The power of multiplexed functional analysis of genetic variants.Extensively Parameterized Mutation-Selection Models Reliably Capture Site-Specific Selective Constraint.Bridging the physical scales in evolutionary biology: from protein sequence space to fitness of organisms and populations.Correlation of fitness landscapes from three orthologous TIM barrels originates from sequence and structure constraints.Compensatory mutations and epistasis for protein function.Evidence for the Selective Basis of Transition-to-Transversion Substitution Bias in Two RNA Viruses.Evolutionary origins and diversification of testis-specific short histone H2A variants in mammals.Mapping mutational effects along the evolutionary landscape of HIV envelope.Deep mutational scanning of hemagglutinin helps predict evolutionary fates of human H3N2 influenza variants Mutation and Epistasis in Influenza Virus Evolution Modeling site-specific amino-acid preferences deepens phylogenetic estimates of viral sequence divergence Multiplexed assays of variant effects contribute to a growing genotype-phenotype atlas

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Site-Specific Amino Acid Preferences Are Mostly Conserved in Two Closely Related Protein Homologs.

http://www.wikidata.org/entity/Q36226944

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2015 nî lūn-bûn

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Site-Specific Amino Acid Prefe ...... sely Related Protein Homologs.

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Molecular Biology and Evolution

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Site-Specific Amino Acid Prefe ...... sely Related Protein Homologs.

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Michael B Doud

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Orr Ashenberg

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P2860

Stability-mediated epistasis constrains the evolution of an influenza protein

Model selection and model averaging in phylogenetics: advantages of akaike information criterion and bayesian approaches over likelihood ratio tests

The relation between the divergence of sequence and structure in proteins

Gapped BLAST and PSI-BLAST: a new generation of protein database search programs

Thermodynamic prediction of protein neutrality

Crystal structure of an ancient protein: evolution by conformational epistasis

Codon-substitution models for heterogeneous selection pressure at amino acid sites

The mechanism by which influenza A virus nucleoprotein forms oligomers and binds RNA

EMBOSS: the European Molecular Biology Open Software Suite

RAxML-VI-HPC: maximum likelihood-based phylogenetic analyses with thousands of taxa and mixed models

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2944-2960

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scholarly article

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10.1093/MOLBEV/MSV167

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11

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32

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