Gene regulatory network plasticity predates a switch in function of a conserved transcription regulator
Saccharomyces cerevisiae Proteins
Transcription, Genetic
QH301-705.5
Science
Regulon
regulatory network
03 medical and health sciences
C. albicans
Gene Regulatory Networks
Biology (General)
0303 health sciences
S. stipitis
Q
R
Fungi
C. lusitaniae
K. lactis
Spores, Fungal
Biological Evolution
DNA-Binding Proteins
Genomics and Evolutionary Biology
Biofilms
Medicine
P. pastoris
Transcription Factors
DOI:
10.7554/elife.23250
Publication Date:
2017-03-22T14:08:43Z
AUTHORS (3)
ABSTRACT
The rewiring of gene regulatory networks can generate phenotypic novelty. It remains an open question, however, how the large number of connections needed to form a novel network arise over evolutionary time. Here, we address this question using the network controlled by the fungal transcription regulator Ndt80. This conserved protein has undergone a dramatic switch in function—from an ancestral role regulating sporulation to a derived role regulating biofilm formation. This switch in function corresponded to a large-scale rewiring of the genes regulated by Ndt80. However, we demonstrate that the Ndt80-target gene connections were undergoing extensive rewiring prior to the switch in Ndt80’s regulatory function. We propose that extensive drift in the Ndt80 regulon allowed for the exploration of alternative network structures without a loss of ancestral function, thereby facilitating the formation of a network with a new function.
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CITATIONS (51)
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