Feed-forward loop circuits as a side effect of genome evolution.
about
Network evolution of body plansEvolution of networks for body plan patterning; interplay of modularity, robustness and evolvabilityMechanisms of mutational robustness in transcriptional regulationEnzyme Sequestration as a Tuning Point in Controlling Response Dynamics of Signalling NetworksEngineering and Biology: Counsel for a Continued RelationshipDe novo evolution of complex, global and hierarchical gene regulatory mechanismsEvolution of evolvability in gene regulatory networksA philosophical evaluation of adaptationism as a heuristic strategy.What determines the assembly of transcriptional network motifs in Escherichia coli?Specialized or flexible feed-forward loop motifs: a question of topology.Evolvability of feed-forward loop architecture biases its abundance in transcription networks.Genome-wide transcription factor binding: beyond direct target regulation.Hybrid T-helper cells: stabilizing the moderate center in a polarized system.Lessons from the modular organization of the transcriptional regulatory network of Bacillus subtilis.In search of the biological significance of modular structures in protein networksMaking sense of transcription networksFunction does not follow form in gene regulatory circuitsNeutral forces acting on intragenomic variability shape the Escherichia coli regulatory network topology.Protein-DNA binding dynamics predict transcriptional response to nutrients in archaea.Modelling the evolution of transcription factor binding preferences in complex eukaryotes.Cellular automata simulation of topological effects on the dynamics of feed-forward motifsFrom evidence to inference: probing the evolution of protein interaction networksBioJazz: in silico evolution of cellular networks with unbounded complexity using rule-based modeling.Functional architecture of Escherichia coli: new insights provided by a natural decomposition approach.Coevolution of gene families in prokaryotes.Toward a classification of isodynamic feed-forward motifs.An NADPH-Oxidase/Polyamine Oxidase Feedback Loop Controls Oxidative Burst Under Salinity.Wiring for independence: positive feedback motifs facilitate individuation of traits in development and evolution.A new model for investigating the evolution of transcription control networks.Organization of feed-forward loop motifs reveals architectural principles in natural and engineered networks.
P2860
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P2860
Feed-forward loop circuits as a side effect of genome evolution.
description
2006 nî lūn-bûn
@nan
2006 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Feed-forward loop circuits as a side effect of genome evolution.
@ast
Feed-forward loop circuits as a side effect of genome evolution.
@en
Feed-forward loop circuits as a side effect of genome evolution.
@nl
type
label
Feed-forward loop circuits as a side effect of genome evolution.
@ast
Feed-forward loop circuits as a side effect of genome evolution.
@en
Feed-forward loop circuits as a side effect of genome evolution.
@nl
prefLabel
Feed-forward loop circuits as a side effect of genome evolution.
@ast
Feed-forward loop circuits as a side effect of genome evolution.
@en
Feed-forward loop circuits as a side effect of genome evolution.
@nl
P356
P1476
Feed-forward loop circuits as a side effect of genome evolution.
@en
P2093
Otto X Cordero
P304
P356
10.1093/MOLBEV/MSL060
P577
2006-07-12T00:00:00Z