Dynamics of gene expression in an artificial genome

Author

Willadsen, Kai ; Wiles, Janet

Author_Institution

Sch. of Inf. Technol. & Electr. Eng., Queensland Univ., Brisbane, Qld., Australia

Volume

1

fYear

2003

fDate

8-12 Dec. 2003

Firstpage

185

Abstract

Complex systems techniques provide a powerful tool to study the emergent properties of networks of interacting genes. In this study we extract models of genetic regulatory networks from an artificial genome, represented by a sequence of nucleotides, and analyse how variations in the connectivity and degree of inhibition of the extracted networks affects the resulting classes of behaviours. For low connectivity systems were found to be very stable. Only with higher connectivity was a significant occurrence of chaos found. Most interestingly, the peak in occurrence of chaos occurs perched on the edge of a phase transition in the occurrence of attractors.

Keywords

artificial life; chaos; evolutionary computation; genetics; artificial genome; attractors; chaos; complex systems; gene expression dynamics; gene interaction; genetic regulatory networks; low connectivity systems; network properties; nucleotide sequence; phase transition; Bioinformatics; Biological system modeling; Chaos; Data mining; Gene expression; Genetics; Genomics; Grounding; Information technology; Intelligent networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Evolutionary Computation, 2003. CEC '03. The 2003 Congress on

Print_ISBN

0-7803-7804-0

Type

conf

DOI

10.1109/CEC.2003.1299573

Filename

1299573