Biocomputational prediction of small non-coding RNAs in Streptomyces
Background The first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the Streptomyces sRNAs, as well as the sRNAs in other genera of the Actinomyces group, have remained unstudied. This study was based on sequence conservation in int...
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| Published in | BMC genomics Vol. 9; no. 1; p. 217 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
BioMed Central
13.05.2008
BioMed Central Ltd BMC |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1471-2164 1471-2164 |
| DOI | 10.1186/1471-2164-9-217 |
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| Abstract | Background
The first systematic study of small non-coding RNAs (sRNA, ncRNA) in
Streptomyces
is presented. Except for a few exceptions, the
Streptomyces
sRNAs, as well as the sRNAs in other genera of the
Actinomyces
group, have remained unstudied. This study was based on sequence conservation in intergenic regions of
Streptomyces
, localization of transcription termination factors, and genomic arrangement of genes flanking the predicted sRNAs.
Results
Thirty-two potential sRNAs in
Streptomyces
were predicted. Of these, expression of 20 was detected by microarrays and RT-PCR. The prediction was validated by a structure based computational approach. Two predicted sRNAs were found to be terminated by transcription termination factors different from the Rho-independent terminators. One predicted sRNA was identified computationally with high probability as a
Streptomyces
6S RNA. Out of the 32 predicted sRNAs, 24 were found to be structurally dissimilar from known sRNAs.
Conclusion
Streptomyces
is the largest genus of
Actinomyces
, whose sRNAs have not been studied. The
Actinomyces
is a group of bacterial species with unique genomes and phenotypes. Therefore, in
Actinomyces
, new unique bacterial sRNAs may be identified. The sequence and structural dissimilarity of the predicted
Streptomyces
sRNAs demonstrated by this study serve as the first evidence of the uniqueness of
Actinomyces
sRNAs. |
|---|---|
| AbstractList | Abstract Background The first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the Streptomyces sRNAs, as well as the sRNAs in other genera of the Actinomyces group, have remained unstudied. This study was based on sequence conservation in intergenic regions of Streptomyces, localization of transcription termination factors, and genomic arrangement of genes flanking the predicted sRNAs. Results Thirty-two potential sRNAs in Streptomyces were predicted. Of these, expression of 20 was detected by microarrays and RT-PCR. The prediction was validated by a structure based computational approach. Two predicted sRNAs were found to be terminated by transcription termination factors different from the Rho-independent terminators. One predicted sRNA was identified computationally with high probability as a Streptomyces 6S RNA. Out of the 32 predicted sRNAs, 24 were found to be structurally dissimilar from known sRNAs. Conclusion Streptomyces is the largest genus of Actinomyces, whose sRNAs have not been studied. The Actinomyces is a group of bacterial species with unique genomes and phenotypes. Therefore, in Actinomyces, new unique bacterial sRNAs may be identified. The sequence and structural dissimilarity of the predicted Streptomyces sRNAs demonstrated by this study serve as the first evidence of the uniqueness of Actinomyces sRNAs. Background The first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the Streptomyces sRNAs, as well as the sRNAs in other genera of the Actinomyces group, have remained unstudied. This study was based on sequence conservation in intergenic regions of Streptomyces, localization of transcription termination factors, and genomic arrangement of genes flanking the predicted sRNAs. Results Thirty-two potential sRNAs in Streptomyces were predicted. Of these, expression of 20 was detected by microarrays and RT-PCR. The prediction was validated by a structure based computational approach. Two predicted sRNAs were found to be terminated by transcription termination factors different from the Rho-independent terminators. One predicted sRNA was identified computationally with high probability as a Streptomyces 6S RNA. Out of the 32 predicted sRNAs, 24 were found to be structurally dissimilar from known sRNAs. Conclusion Streptomyces is the largest genus of Actinomyces, whose sRNAs have not been studied. The Actinomyces is a group of bacterial species with unique genomes and phenotypes. Therefore, in Actinomyces, new unique bacterial sRNAs may be identified. The sequence and structural dissimilarity of the predicted Streptomyces sRNAs demonstrated by this study serve as the first evidence of the uniqueness of Actinomyces sRNAs. The first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the Streptomyces sRNAs, as well as the sRNAs in other genera of the Actinomyces group, have remained unstudied. This study was based on sequence conservation in intergenic regions of Streptomyces, localization of transcription termination factors, and genomic arrangement of genes flanking the predicted sRNAs.BACKGROUNDThe first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the Streptomyces sRNAs, as well as the sRNAs in other genera of the Actinomyces group, have remained unstudied. This study was based on sequence conservation in intergenic regions of Streptomyces, localization of transcription termination factors, and genomic arrangement of genes flanking the predicted sRNAs.Thirty-two potential sRNAs in Streptomyces were predicted. Of these, expression of 20 was detected by microarrays and RT-PCR. The prediction was validated by a structure based computational approach. Two predicted sRNAs were found to be terminated by transcription termination factors different from the Rho-independent terminators. One predicted sRNA was identified computationally with high probability as a Streptomyces 6S RNA. Out of the 32 predicted sRNAs, 24 were found to be structurally dissimilar from known sRNAs.RESULTSThirty-two potential sRNAs in Streptomyces were predicted. Of these, expression of 20 was detected by microarrays and RT-PCR. The prediction was validated by a structure based computational approach. Two predicted sRNAs were found to be terminated by transcription termination factors different from the Rho-independent terminators. One predicted sRNA was identified computationally with high probability as a Streptomyces 6S RNA. Out of the 32 predicted sRNAs, 24 were found to be structurally dissimilar from known sRNAs.Streptomyces is the largest genus of Actinomyces, whose sRNAs have not been studied. The Actinomyces is a group of bacterial species with unique genomes and phenotypes. Therefore, in Actinomyces, new unique bacterial sRNAs may be identified. The sequence and structural dissimilarity of the predicted Streptomyces sRNAs demonstrated by this study serve as the first evidence of the uniqueness of Actinomyces sRNAs.CONCLUSIONStreptomyces is the largest genus of Actinomyces, whose sRNAs have not been studied. The Actinomyces is a group of bacterial species with unique genomes and phenotypes. Therefore, in Actinomyces, new unique bacterial sRNAs may be identified. The sequence and structural dissimilarity of the predicted Streptomyces sRNAs demonstrated by this study serve as the first evidence of the uniqueness of Actinomyces sRNAs. Background The first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the Streptomyces sRNAs, as well as the sRNAs in other genera of the Actinomyces group, have remained unstudied. This study was based on sequence conservation in intergenic regions of Streptomyces , localization of transcription termination factors, and genomic arrangement of genes flanking the predicted sRNAs. Results Thirty-two potential sRNAs in Streptomyces were predicted. Of these, expression of 20 was detected by microarrays and RT-PCR. The prediction was validated by a structure based computational approach. Two predicted sRNAs were found to be terminated by transcription termination factors different from the Rho-independent terminators. One predicted sRNA was identified computationally with high probability as a Streptomyces 6S RNA. Out of the 32 predicted sRNAs, 24 were found to be structurally dissimilar from known sRNAs. Conclusion Streptomyces is the largest genus of Actinomyces , whose sRNAs have not been studied. The Actinomyces is a group of bacterial species with unique genomes and phenotypes. Therefore, in Actinomyces , new unique bacterial sRNAs may be identified. The sequence and structural dissimilarity of the predicted Streptomyces sRNAs demonstrated by this study serve as the first evidence of the uniqueness of Actinomyces sRNAs. The first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the Streptomyces sRNAs, as well as the sRNAs in other genera of the Actinomyces group, have remained unstudied. This study was based on sequence conservation in intergenic regions of Streptomyces, localization of transcription termination factors, and genomic arrangement of genes flanking the predicted sRNAs. Thirty-two potential sRNAs in Streptomyces were predicted. Of these, expression of 20 was detected by microarrays and RT-PCR. The prediction was validated by a structure based computational approach. Two predicted sRNAs were found to be terminated by transcription termination factors different from the Rho-independent terminators. One predicted sRNA was identified computationally with high probability as a Streptomyces 6S RNA. Out of the 32 predicted sRNAs, 24 were found to be structurally dissimilar from known sRNAs. Streptomyces is the largest genus of Actinomyces, whose sRNAs have not been studied. The Actinomyces is a group of bacterial species with unique genomes and phenotypes. Therefore, in Actinomyces, new unique bacterial sRNAs may be identified. The sequence and structural dissimilarity of the predicted Streptomyces sRNAs demonstrated by this study serve as the first evidence of the uniqueness of Actinomyces sRNAs. |
| Audience | Academic |
| Author | Vohradský, Jiří Mikulík, Karel Pánek, Josef Basler, Marek Bobek, Jan |
| AuthorAffiliation | 1 Laboratory of Bioinformatics, Institute of Microbiology, Academy of Sciences of the Czech Republic, Prague, Czech Republic |
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| Author_xml | – sequence: 1 givenname: Josef surname: Pánek fullname: Pánek, Josef email: panek@biomed.cas.cz organization: Laboratory of Bioinformatics, Institute of Microbiology, Academy of Sciences of the Czech Republic – sequence: 2 givenname: Jan surname: Bobek fullname: Bobek, Jan organization: Laboratory of Bioinformatics, Institute of Microbiology, Academy of Sciences of the Czech Republic – sequence: 3 givenname: Karel surname: Mikulík fullname: Mikulík, Karel organization: Laboratory of Bioinformatics, Institute of Microbiology, Academy of Sciences of the Czech Republic – sequence: 4 givenname: Marek surname: Basler fullname: Basler, Marek organization: Laboratory of Bioinformatics, Institute of Microbiology, Academy of Sciences of the Czech Republic – sequence: 5 givenname: Jiří surname: Vohradský fullname: Vohradský, Jiří organization: Laboratory of Bioinformatics, Institute of Microbiology, Academy of Sciences of the Czech Republic |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/18477385$$D View this record in MEDLINE/PubMed |
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| Keywords | sRNA Sequence Streptomyces Flank Gene Transcription Termination Genomic Arrangement |
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| Snippet | Background
The first systematic study of small non-coding RNAs (sRNA, ncRNA) in
Streptomyces
is presented. Except for a few exceptions, the
Streptomyces
sRNAs,... The first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the Streptomyces sRNAs, as well as... Background The first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the Streptomyces sRNAs,... Abstract Background The first systematic study of small non-coding RNAs (sRNA, ncRNA) in Streptomyces is presented. Except for a few exceptions, the... |
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| SubjectTerms | Actinomyces Algorithms Animal Genetics and Genomics Base Sequence Biomedical and Life Sciences Computational Biology DNA, Intergenic Genetic aspects Genome, Bacterial Identification and classification Life Sciences Microarrays Microbial Genetics and Genomics Models, Molecular Nucleic Acid Conformation Oligonucleotide Array Sequence Analysis Plant Genetics and Genomics Proteomics Research Article Reverse Transcriptase Polymerase Chain Reaction RNA RNA, Bacterial - chemistry RNA, Bacterial - genetics RNA, Untranslated - chemistry RNA, Untranslated - genetics Species Specificity Streptomyces Streptomyces - genetics Streptomyces coelicolor - genetics Terminator Regions, Genetic |
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| Title | Biocomputational prediction of small non-coding RNAs in Streptomyces |
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