RT Journal Article
SR Electronic
T1 Topological features of gene regulatory networks predict patterns of natural diversity in environmental response
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 080804
DO 10.1101/080804
A1 David L. Des Marais
A1 Rafael F. Guerrero
A1 Jesse R. Lasky
A1 Samuel V. Scarpino
YR 2016
UL http://biorxiv.org/content/early/2016/10/13/080804.abstract
AB Molecular interactions affect the evolution of complex traits. For instance, adaptation may be constrained by pleiotropic or epistatic effects, both of which will be reflected in the structure of molecular interaction networks. To date, empirical studies investigating the role of molecular interactions in phenotypic evolution have been idiosyncratic, offering no clear patterns. Here, we investigated the network topology of genes putatively involved in local adaptation to two abiotic stressors—drought and cold—in Arabidopsis thaliana. Our findings suggest that the gene-interaction topologies for both cold and drought stress response are non-random, with genes that show genetic variation in drought response (GxE) being significantly more peripheral and cold response genes being significantly more central than genes not involved in either response. We suggest that the observed topologies reflect different constraints on the genetic pathways involved in the assayed phenotypes. The approach presented here may inform predictive models linking genetic variation in molecular signaling networks with phenotypic variation, specifically traits involved in environmental response.