Add to ORKGWe examine how different transcriptional network structures can evolve from an ancestral network. By characterizing how the ancestral mode of gene regulation for genes specific to a-type cells in yeast species evolved from an activating paradigm to a repressing one, we show that regulatory protein modularity, conversion of one cis-regulatory sequence to another, distribution of binding energy among protein-protein and protein-DNA interactions, and exploitation of ancestral network features all contribute to the evolution of a novel regulatory mode. The formation of this derived mode of regulation did not disrupt the ancestral mode and thereby created a hybrid regulatory state where both means of transcription regulation (ancestral and deriv...
Requirements for gene regulation vary widely both within and among species. Some genes are constitut...
Transcriptional regulatory networks play a central role in optimizing cell survival. How DNA binding...
We have determined how most of the transcriptional regulators encoded in the eukaryote Saccharomyces...
SummaryHow do gene regulatory networks evolve? A new study in yeasts shows that cis- and trans-regul...
Transcription regulatory networks are an important source of evolutionary novelty. My thesis work d...
The mystery of how diverse life forms evolved has captivated scientists for over 150 years. It has b...
Life often diversifies through changes in gene expression patterns. These patterns evolve via change...
The gradual rewiring of transcriptional circuits over evolutionary timescales is a major source of t...
A central challenge to post-genomic biology is to elucidate the cellular networks that underlie biol...
<div><p>The evolution of transcriptional regulatory networks has thus far mostly been studied at the...
Transcriptional regulatory networks take part in the regulation of essentially every aspect of an or...
Evolutionary rewiring of regulatory networks is an important source of diversity among species. Prev...
The immense diversity of life is astounding. Yet this variety is in stark contrast with life’s genet...
dynamics of these networks across organisms, which would reveal Of the several steps at which the fl...
The mapping of biomolecular interactions reveals that the function of most biological components dep...
Requirements for gene regulation vary widely both within and among species. Some genes are constitut...
Transcriptional regulatory networks play a central role in optimizing cell survival. How DNA binding...
We have determined how most of the transcriptional regulators encoded in the eukaryote Saccharomyces...
SummaryHow do gene regulatory networks evolve? A new study in yeasts shows that cis- and trans-regul...
Transcription regulatory networks are an important source of evolutionary novelty. My thesis work d...
The mystery of how diverse life forms evolved has captivated scientists for over 150 years. It has b...
Life often diversifies through changes in gene expression patterns. These patterns evolve via change...
The gradual rewiring of transcriptional circuits over evolutionary timescales is a major source of t...
A central challenge to post-genomic biology is to elucidate the cellular networks that underlie biol...
<div><p>The evolution of transcriptional regulatory networks has thus far mostly been studied at the...
Transcriptional regulatory networks take part in the regulation of essentially every aspect of an or...
Evolutionary rewiring of regulatory networks is an important source of diversity among species. Prev...
The immense diversity of life is astounding. Yet this variety is in stark contrast with life’s genet...
dynamics of these networks across organisms, which would reveal Of the several steps at which the fl...
The mapping of biomolecular interactions reveals that the function of most biological components dep...
Requirements for gene regulation vary widely both within and among species. Some genes are constitut...
Transcriptional regulatory networks play a central role in optimizing cell survival. How DNA binding...
We have determined how most of the transcriptional regulators encoded in the eukaryote Saccharomyces...