Open AccessThe Consequences of Base Pair Composition Biases for Regulatory Network Organization in Prokaryotes
Author(s) -
Otto X. Cordero,
Paulien Hogeweg
Publication year - 2009
Publication title -
molecular biology and evolution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.637
H-Index - 218
eISSN - 1537-1719
pISSN - 0737-4038
DOI - 10.1093/molbev/msp132
Subject(s) - gc content , biology , cytosine , genome , guanine , intergenic region , genetics , bacterial genome size , dna , base pair , composition (language) , genome size , noncoding dna , transcription (linguistics) , gene , nucleotide , linguistics , philosophy
Given the dramatic variation in guanine-cytosine (GC) content observed in prokaryotes, from approximately 20% to approximately 75% GC, one wonders if these extreme biases in base pair composition affect the evolution of transcription factor-binding sites (BS). This letter shows that, along the wide range of GC content variation in bacteria, bacterial BS keep a high frequency of AT bases, roughly independently of the background (BG) base pair composition of intergenic regions. As a result, the equilibrium base pair frequencies of BS depart the most from those of BS DNA in GC-rich genomes. This not only implies a higher specificity but also a higher coding barrier for BS in GC-rich genomes. In accordance, we observe that the average percentage of divergently transcribed regions increases with the GC content of the genome, suggesting the use of a more efficient coding strategy.
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