MOTIVATION: Comparative genomics provides a powerful way to investigate regularities and differences observed at DNA level across species. Here we study the number and location of inverted repeats occurring in complete genomes of bacteria. Inverted repeats are compatible with the formation of hairpin structures in the messenger RNA. Some of these structures are known to be rho-independent intrinsic terminators. RESULTS: We investigate the number of inverted repeats observed in 37 complete genomes of bacteria. The number of inverted repeats observed is much higher than expected using Markovian models of DNA sequences in most of the eubacteria. By using the information annotated in the genomes we discover that in most of the eubacteria the inverted repeats of stem length longer than 8 nucleotides preferentially locate near the 3' end of the nearest coding regions. We also show that IRs characterized by large values of the stem length locate preferentially in short non-coding regions bounded by two 3' ends of convergent genes. By using the program TransTerm recently introduced to predict transcription terminators in bacterial genomes, we conclude that only a part of the observed inverted repeats fullfils the model requirements characterizing rho-independent termination in several genomes. AVAILABILITY: http://lagash.dft.unipa.it/IR.html
MOTIVATION: Comparative genomics provides a powerful way to investigate regularities and differences observed at DNA level across species. Here we study the number and location of inverted repeats occurring in complete genomes of bacteria. Inverted repeats are compatible with the formation of hairpin structures in the messenger RNA. Some of these structures are known to be rho-independent intrinsic terminators. RESULTS: We investigate the number of inverted repeats observed in 37 complete genomes of bacteria. The number of inverted repeats observed is much higher than expected using Markovian models of DNA sequences in most of the eubacteria. By using the information annotated in the genomes we discover that in most of the eubacteria the inverted repeats of stem length longer than 8 nucleotides preferentially locate near the 3' end of the nearest coding regions. We also show that IRs characterized by large values of the stem length locate preferentially in short non-coding regions bounded by two 3' ends of convergent genes. By using the program TransTerm recently introduced to predict transcription terminators in bacterial genomes, we conclude that only a part of the observed inverted repeats fullfils the model requirements characterizing rho-independent termination in several genomes. AVAILABILITY: http://lagash.dft.unipa.it/IR.html
Authors: Rhoda J Kinsella; David A Fitzpatrick; Christopher J Creevey; James O McInerney Journal: Proc Natl Acad Sci U S A Date: 2003-08-13 Impact factor: 11.205
Authors: Rose Ann Cattolico; Michael A Jacobs; Yang Zhou; Jean Chang; Melinda Duplessis; Terry Lybrand; John McKay; Han Chuan Ong; Elizabeth Sims; Gabrielle Rocap Journal: BMC Genomics Date: 2008-05-08 Impact factor: 3.969