Modularity and evolutionary constraints in a baculovirus gene regulatory network

The structure of regulatory networks remains an open question in our understanding of complex biological systems. Interactions during complete viral life cycles present unique opportunities to understand how host-parasite network take shape and behave. The Anticarsia gemmatalis multiple nucleopolyhe...

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Bibliographic Details
Published in:BMC systems biology 2013-09, Vol.7 (1), p.87-87, Article 87
Main Authors: Oliveira, Juliana Velasco, de Brito, Anderson Fernandes, Braconi, Carla Torres, de Melo Freire, Caio CĂ©sar, Iamarino, Atila, de Andrade Zanotto, Paolo Marinho
Format: Article
Language:English
Subjects:
Analysis
Animals
Anticarsia gemmatalis
Baculoviridae - genetics
Baculoviridae - physiology
Baculoviruses
Biological diversity
Cell Line
Conserved Sequence
Deoxyribonucleic acid
DNA
DNA biosynthesis
DNA replication
Enzymes
Evolution, Molecular
Experiments
Gene expression
Gene Regulatory Networks
Genes, Viral - genetics
Genetic aspects
Genetic diversity
Genetic transcription
Genomes
Genomics
Infections
Kinetics
Lepidoptera - virology
Microbiology
Pathology, Cellular
Phylogeny
Physiological aspects
Promoter Regions, Genetic - genetics
Regulation
Transcription, Genetic
Transcriptome
Viruses
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Summary:The structure of regulatory networks remains an open question in our understanding of complex biological systems. Interactions during complete viral life cycles present unique opportunities to understand how host-parasite network take shape and behave. The Anticarsia gemmatalis multiple nucleopolyhedrovirus (AgMNPV) is a large double-stranded DNA virus, whose genome may encode for 152 open reading frames (ORFs). Here we present the analysis of the ordered cascade of the AgMNPV gene expression. We observed an earlier onset of the expression than previously reported for other baculoviruses, especially for genes involved in DNA replication. Most ORFs were expressed at higher levels in a more permissive host cell line. Genes with more than one copy in the genome had distinct expression profiles, which could indicate the acquisition of new functionalities. The transcription gene regulatory network (GRN) for 149 ORFs had a modular topology comprising five communities of highly interconnected nodes that separated key genes that are functionally related on different communities, possibly maximizing redundancy and GRN robustness by compartmentalization of important functions. Core conserved functions showed expression synchronicity, distinct GRN features and significantly less genetic diversity, consistent with evolutionary constraints imposed in key elements of biological systems. This reduced genetic diversity also had a positive correlation with the importance of the gene in our estimated GRN, supporting a relationship between phylogenetic data of baculovirus genes and network features inferred from expression data. We also observed that gene arrangement in overlapping transcripts was conserved among related baculoviruses, suggesting a principle of genome organization. Albeit with a reduced number of nodes (149), the AgMNPV GRN had a topology and key characteristics similar to those observed in complex cellular organisms, which indicates that modularity may be a general feature of biological gene regulatory networks.
ISSN:1752-0509
1752-0509
DOI:10.1186/1752-0509-7-87