Transcription factor expression levels and environmental signals constrain transcription factor innovation

Abstract: Evolutionary innovation of transcription factors frequently drives phenotypic diversification and adaptation to environmental change. Transcription factors can gain or lose connections to target genes, resulting in novel regulatory responses and phenotypes. However the frequency of functional adaptation varies between different regulators, even when they are closely related. To identify factors influencing propensity for innovation, we utilise a Pseudomonas fluore… Show more

“…This allows us to conclude that increasing expression of ntrC and PFLU1132 in the presence of their first-step kinase mutations granted stronger motility phenotypes, facilitating their rewiring. The expression level of a transcription factor can therefore significantly impact its propensity for rewiring, and more highly expressed transcription factor may be expected to engage in non-canonical regulatory interactions more readily [ 51 ].…”

Evolutionary innovation through transcription factor rewiring in microbes is shaped by levels of transcription factor activity, expression, and existing connectivity

“…This allows us to conclude that increasing expression of ntrC and PFLU1132 in the presence of their first-step kinase mutations granted stronger motility phenotypes, facilitating their rewiring. The expression level of a transcription factor can therefore significantly impact its propensity for rewiring, and more highly expressed transcription factor may be expected to engage in non-canonical regulatory interactions more readily [ 51 ].…”

Evolutionary innovation through transcription factor rewiring in microbes is shaped by levels of transcription factor activity, expression, and existing connectivity