TargetRNA: a tool for predicting targets of small RNA action in bacteria

Many small RNA (sRNA) genes in bacteria act as posttranscriptional regulators of target messenger RNAs. Here, we present TargetRNA, a web tool for predicting mRNA targets of sRNA action in bacteria. TargetRNA takes as input a genomic sequence that may correspond to an sRNA gene. TargetRNA then uses a dynamic programming algorithm to search each annotated message in a specified genome for mRNAs that evince basepair-binding potential to the input sRNA sequence. Based on the calculated basepair-binding potential of each message with the given sRNA regulator, TargetRNA outputs a ranked list of candidate mRNA targets along with the predicted basepairing interaction of each target to the sRNA. The predictive performance of TargetRNA has been validated experimentally in several bacterial organisms. TargetRNA is freely available at http://snowwhite.wellesley.edu/targetRNA.

[1]  M. Waldor,et al.  RNase E-dependent processing stabilizes MicX, a Vibrio cholerae sRNA , 2007, Molecular microbiology.

[2]  J. Vogel,et al.  Target identification of small noncoding RNAs in bacteria. , 2007, Current opinion in microbiology.

[3]  N. Rajewsky microRNA target predictions in animals , 2006, Nature Genetics.

[4]  B. Sahagan,et al.  A small, unstable RNA molecule of Escherichia coli: spot 42 RNA. I. Nucleotide sequence analysis. , 1979, Journal of molecular biology.

[5]  R. Russell,et al.  Principles of MicroRNA–Target Recognition , 2005, PLoS biology.

[6]  P. Valentin‐Hansen,et al.  MicroReview: The bacterial Sm‐like protein Hfq: a key player in RNA transactions , 2004, Molecular microbiology.

[7]  Tatiana A. Tatusova,et al.  Entrez Gene: gene-centered information at NCBI , 2004, Nucleic Acids Res..

[8]  P. Valentin‐Hansen,et al.  Spot 42 RNA mediates discoordinate expression of the E. coli galactose operon. , 2002, Genes & development.

[9]  L. Lim,et al.  MicroRNA targeting specificity in mammals: determinants beyond seed pairing. , 2007, Molecular cell.

[10]  M S Waterman,et al.  Identification of common molecular subsequences. , 1981, Journal of molecular biology.

[11]  B. Sahagan,et al.  A small, unstable RNA molecule of Escherichia coli: spot 42 RNA: I. Nucleotide sequence analysis☆ , 1979 .

[12]  B. Ganem RNA world , 1987, Nature.

[13]  Jonathan Livny,et al.  Identification of small RNAs in diverse bacterial species. , 2007, Current opinion in microbiology.

[14]  R. Giegerich,et al.  Fast and effective prediction of microRNA/target duplexes. , 2004, RNA.

[15]  N. Majdalani,et al.  Regulation and mode of action of the second small RNA activator of RpoS translation, RprA , 2002, Molecular microbiology.

[16]  N. Majdalani,et al.  DsrA RNA regulates translation of RpoS message by an anti-antisense mechanism, independent of its action as an antisilencer of transcription. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[17]  J. Vogel,et al.  A small RNA regulates multiple ABC transporter mRNAs by targeting C/A-rich elements inside and upstream of ribosome-binding sites. , 2007, Genes & development.

[18]  G. Storz,et al.  The Escherichia coli OxyS regulatory RNA represses fhlA translation by blocking ribosome binding , 1998, The EMBO journal.

[19]  K. Gunsalus,et al.  Combinatorial microRNA target predictions , 2005, Nature Genetics.

[20]  L. Argaman,et al.  fhlA repression by OxyS RNA: kissing complex formation at two sites results in a stable antisense-target RNA complex. , 2000, Journal of molecular biology.

[21]  G. Storz,et al.  Target prediction for small, noncoding RNAs in bacteria , 2006, Nucleic acids research.

[22]  Brian Tjaden,et al.  A Novel Fur- and Iron-Regulated Small RNA, NrrF, Is Required for Indirect Fur-Mediated Regulation of the sdhA and sdhC Genes in Neisseria meningitidis , 2007, Journal of bacteriology.

[23]  Pascale Cossart,et al.  Identification of new noncoding RNAs in Listeria monocytogenes and prediction of mRNA targets , 2007, Nucleic acids research.