about
Mutation rules and the evolution of sparseness and modularity in biological systemsEvolution under fluctuating environments explains observed robustness in metabolic networksThe emergence of modularity in biological systemsDual-phase evolution in complex adaptive systemsUnderstanding complexity in the human brain.Environmental variability and modularity of bacterial metabolic networksEmergence and maintenance of functional modules in signaling pathways.Evolution of complex modular biological networks.Molecular and cellular approaches for the detection of protein-protein interactions: latest techniques and current limitations.An analytically solvable model for rapid evolution of modular structure.Rapid transition towards the Division of Labor via evolution of developmental plasticityDissecting spatio-temporal protein networks driving human heart development and related disorders.Spontaneous evolution of modularity and network motifsSimulated evolution of protein-protein interaction networks with realistic topology.Morphological change in machines accelerates the evolution of robust behavior.The non-random brain: efficiency, economy, and complex dynamicsDoes habitat variability really promote metabolic network modularity?Protein structural modularity and robustness are associated with evolvability.Toward a population genetic framework of developmental evolution: the costs, limits, and consequences of phenotypic plasticityEvolution of bow-tie architectures in biology.Quasispecies theory for evolution of modularity.Development of modularity in the neural activity of children's brainsVarying environments can speed up evolutionEvolutionary origins of invasive populations.CyTRANSFINDER: a Cytoscape 3.3 plugin for three-component (TF, gene, miRNA) signal transduction pathway construction.How evolution learns to generalise: Using the principles of learning theory to understand the evolution of developmental organisation.Gene module level analysis: identification to networks and dynamics.Extinctions in heterogeneous environments and the evolution of modularityTesting the hypothesis that biological modularity is shaped by adaptation: Xylem in the Bursera simaruba clade of tropical trees.Evolutionary Connectionism: Algorithmic Principles Underlying the Evolution of Biological Organisation in Evo-Devo, Evo-Eco and Evolutionary Transitions.Emergent adaptive behaviour of GRN-controlled simulated robots in a changing environment.The evolution of phenotypic correlations and "developmental memory".Spontaneous emergence of modularity in cellular networksBioJazz: in silico evolution of cellular networks with unbounded complexity using rule-based modeling.Computing the Extended Synthesis: Mapping the Dynamics and Conceptual Structure of the Evolvability Research Front.Metabolic network modularity arising from simple growth processes.Understanding the emergence of modularity in neural systems.Turning snails into slugs: induced body plan changes and formation of an internal shell.Noise and the evolution of neural network modularity.Software systems as complex networks: structure, function, and evolvability of software collaboration graphs.
P2860
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P2860
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
2002年论文
@zh
2002年论文
@zh-cn
name
On the origin of modular variation.
@en
type
label
On the origin of modular variation.
@en
prefLabel
On the origin of modular variation.
@en
P2093
P2860
P1433
P1476
On the origin of modular variation.
@en
P2093
Hod Lipson
Jordan B Pollack
P2860
P304
P356
10.1111/J.0014-3820.2002.TB01466.X
P577
2002-08-01T00:00:00Z