Salgado, HeladiaMartínez-Antonio, AgustinoJanga, Sarath Chandra2015-04-302015-04-302007-07Salgado, H., Martínez-Antonio, A., & Janga, S. C. (2007). Conservation of transcriptional sensing systems in prokaryotes: a perspective from Escherichia coli. FEBS letters, 581(18), 3499-3506, doi:10.1016/j.febslet.2007.06.059.https://hdl.handle.net/1805/6285The activity of transcription factors is usually governed by allosteric physicochemical signals or metabolites, which are in turn produced in the cell or obtained from the environment by the activity of the products of effector genes. Previously, we identified a collection of more than 110 transcription factors and their corresponding effector genes in Escherichia coli K-12. Here, we introduce the notion of “triferog”, which relates to the identification of orthologous transcription factors and effector genes across genomes and show that transcriptional sensing systems known in E. coli are poorly conserved beyond Salmonella. We also find that enzymes that act as effector genes for the production of endogenous effector metabolites are more conserved than their corresponding effector genes encoding for transport and two-component systems for sensing exogenous signals. Finally, we observe that on an evolutionary scale enzymes are more conserved than their respective TFs, suggesting a homogenous cellular metabolism across genomes and the conservation of transcriptional control of critical cellular processes like DNA replication by a common endogenous signal. We hypothesize that extensive variation in the domain architecture of TFs and changes in endogenous conditions at large phylogenetic distances could be the major contributing factors for the observed differential conservation of TFs and their corresponding effector genes encoding for enzymes, causing variations in transcriptional responses across organisms.en-UStranscriptional regulationtranscriptional sensing systemscellular signalingconservationConservation of transcriptional sensing systems in prokaryotes: A perspective from Escherichia coliArticle