about
Genes confer similar robustness to environmental, stochastic, and genetic perturbations in yeastRibosomal history reveals origins of modern protein synthesisFacilitated variation: how evolution learns from past environments to generalize to new environmentsThe look-ahead effect of phenotypic mutationsDegeneracy: a link between evolvability, robustness and complexity in biological systemsEVOLUTION OF EVOLVABILITY IN A DEVELOPMENTAL MODELWaddington's canalization revisited: developmental stability and evolution.Design of multistable RNA moleculesAn evolutionarily structured universe of protein architectureMutational robustness can facilitate adaptationThe ancient history of the structure of ribonuclease P and the early origins of ArchaeaRobustness and evolvabilityRobustness: mechanisms and consequencesRobustness and evolvability: a paradox resolvedReductive evolution of architectural repertoires in proteomes and the birth of the tripartite worldMutations leading to loss of sporulation ability in Bacillus subtilis are sufficiently frequent to favor genetic canalizationGenetics and geometry of canalization and developmental stability in Drosophila subobscuraCompensatory mutations cause excess of antagonistic epistasis in RNA secondary structure foldingQuasispecies made simple.Evolution of genetic potential.The role of robustness in phenotypic adaptation and innovationMutation rules and the evolution of sparseness and modularity in biological systemsMechanisms of genetic robustness in RNA virusesCollective properties of evolving molecular quasispeciesCongruent evolution of genetic and environmental robustness in micro-RNARobustness can evolve gradually in complex regulatory gene networks with varying topologyEffects of ploidy and recombination on evolution of robustness in a model of the segment polarity networkThe evolution of enzyme specificity in the metabolic replicator model of prebiotic evolutionRich RNA Structure Landscapes Revealed by Mutate-and-Map AnalysisEvolution-development congruence in pattern formation dynamics: Bifurcations in gene expression and regulation of networks structuresComputing the origin and evolution of the ribosome from its structure - Uncovering processes of macromolecular accretion benefiting synthetic biologyThe TIM Barrel Architecture Facilitated the Early Evolution of Protein-Mediated MetabolismStructural phylogenomics retrodicts the origin of the genetic code and uncovers the evolutionary impact of protein flexibilityQuantifying the decanalizing effects of spontaneous mutations in rhabditid nematodesBiological robustness: paradigms, mechanisms, and systems principlesThe quantitative genetics of phenotypic robustnessEvolutionary patterns in the sequence and structure of transfer RNA: a window into early translation and the genetic codeScaling of mutational effects in models for pleiotropy.Comparing folding codes in simple heteropolymer models of protein evolutionary landscape: robustness of the superfunnel paradigm.Protein dynamism and evolvability.
P2860
Q21091148-D8D42510-9658-4796-8142-808507E9ADD8Q21134742-A427C381-0FF6-4407-ACCD-A919AC58371EQ21145369-1E232CC9-CA3A-49B0-98FF-522828042603Q21203773-40D60F4D-B821-42CA-B9C7-DDDACA9E776EQ21245217-33EE479A-8C58-4288-9AE9-ED38C4FA2863Q22065653-2F9CC758-60F8-48BA-8B5F-C348C1DB6D56Q24533552-84F2FF52-30BC-4557-8CB3-39FE0A9A9E1FQ24539901-A9FB8616-58F6-4224-A2DB-CD1FDD7FFFBFQ24561613-9F46035E-3C4A-4A91-AAF6-DDC9D2EC1114Q24624037-4B821589-6E8A-45A5-B437-F9FE0633510AQ24633502-34F83D6D-DE7A-4D46-9282-B28F15C7DF6EQ24634833-D71317DB-BE1F-4C6B-A3AA-FCEF2BDA01E9Q24646806-1F9C5233-2833-4319-8220-AC7A8F8CA82BQ24657364-6B81E460-C152-4F29-B48E-CA7E7DE766F7Q24672074-9C928FAB-FFB4-4D02-A6C0-DC8A0628A440Q24685246-22582627-FF56-4533-9815-03828F6E0B79Q24800490-DFF042B6-EAE1-424E-BDF4-C869E35E4E66Q24800862-1C61ADB2-496F-43CC-80AE-F8C506E38A35Q24810300-0191710D-E4C7-48EF-84B6-AF6E6856832DQ24816827-1CAFE2E0-5CEB-4658-BBF2-677371A0D314Q27011463-537C00DE-4252-4DA4-92C6-801C50D63DD8Q27310283-A276D657-6E19-4D7A-B5ED-B71E25464677Q27472944-B7D086D4-7067-4312-B6BB-D25E4F9BC8F1Q27480938-020B8E77-1B91-4AA7-8161-DB761666AB2AQ28307645-F4AC7D00-0A32-492E-8A1F-11A67EE0F181Q28469133-940F0A87-30FF-4E8C-966E-7849FF8B9B27Q28474766-2602144D-C8E3-476B-BD2C-67A7FC941325Q28478601-349957BF-0027-49CA-8B35-FC2C72DB9EDDQ28550945-E0665795-8970-4134-BD69-14FA2886903BQ28597539-06AC17BC-5701-4D7B-BCC1-5774E9F2B71CQ28601049-7C25FDCE-9666-43A7-816F-BFAAE9CCFC43Q28602755-C3A21B2E-5BB7-431B-B60B-DEF80E797D3EQ28681694-EE4ED980-BFB4-46A9-9EC3-48F1E55914ADQ28709615-C085C781-007E-4782-B642-9F027740C9B3Q28730028-8DB4BDB5-45B0-4FBF-8893-C942041C3120Q28749448-ABB8129D-0F61-4950-BB22-99261C0BA4A8Q28757655-33DC18DB-20F2-4508-990F-8B39B6591330Q30333198-14063785-EFD7-4CBE-8111-2A106DA3F6CCQ30344005-DDD1592E-0560-42B5-88D8-EF1710125B0FQ30376087-15593B34-DFA6-444E-98E0-B666655F9925
P2860
description
2000 nî lūn-bûn
@nan
2000 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Plasticity, evolvability, and modularity in RNA
@ast
Plasticity, evolvability, and modularity in RNA
@en
Plasticity, evolvability, and modularity in RNA
@nl
type
label
Plasticity, evolvability, and modularity in RNA
@ast
Plasticity, evolvability, and modularity in RNA
@en
Plasticity, evolvability, and modularity in RNA
@nl
prefLabel
Plasticity, evolvability, and modularity in RNA
@ast
Plasticity, evolvability, and modularity in RNA
@en
Plasticity, evolvability, and modularity in RNA
@nl
P2860
P3181
P1476
Plasticity, evolvability, and modularity in RNA
@en
P2093
P2860
P304
P3181
P356
10.1002/1097-010X(20001015)288:3<242::AID-JEZ5>3.0.CO;2-O
P407
P577
2000-10-15T00:00:00Z