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Primary transcriptome analysis reveals importance of IS elements for the shaping of the transcriptional landscape of Bordetella pertussis
F. Amman, A. D'Halluin, R. Antoine, L. Huot, I. Bibova, K. Keidel, S. Slupek, P. Bouquet, L. Coutte, S. Caboche, C. Locht, B. Vecerek, D. Hot,
Language English Country United States
Document type Journal Article, Research Support, Non-U.S. Gov't
Grant support
NV16-30782A
MZ0
CEP Register
Digital library NLK
Full text - Article
NLK
Free Medical Journals
from 2004 to 1 year ago
Freely Accessible Science Journals
from 2004
PubMed Central
from 2009 to 1 year ago
Europe PubMed Central
from 2009 to 1 year ago
- MeSH
- 3' Untranslated Regions MeSH
- 5' Untranslated Regions MeSH
- RNA, Bacterial genetics MeSH
- Bordetella pertussis genetics MeSH
- Transcription, Genetic * MeSH
- Genome, Bacterial genetics MeSH
- RNA, Messenger genetics MeSH
- RNA, Untranslated genetics MeSH
- Transcription Initiation Site MeSH
- Gene Expression Profiling * MeSH
- DNA Transposable Elements genetics MeSH
- High-Throughput Nucleotide Sequencing MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
Bordetella pertussis is the causative agent of whooping cough, a respiratory disease still considered as a major public health threat and for which recent re-emergence has been observed. Constant reshuffling of Bordetella pertussis genome organization was observed during evolution. These rearrangements are essentially mediated by Insertion Sequences (IS), a mobile genetic elements present in more than 230 copies in the genome, which are supposed to be one of the driving forces enabling the pathogen to escape from vaccine-induced immunity. Here we use high-throughput sequencing approaches (RNA-seq and differential RNA-seq), to decipher Bordetella pertussis transcriptome characteristics and to evaluate the impact of IS elements on transcriptome architecture. Transcriptional organization was determined by identification of transcription start sites and revealed also a large variety of non-coding RNAs including sRNAs, leaderless mRNAs or long 3' and 5'UTR including seven riboswitches. Unusual topological organizations, such as overlapping 5'- or 3'-extremities between oppositely orientated mRNA were also unveiled. The pivotal role of IS elements in the transcriptome architecture and their effect on the transcription of neighboring genes was examined. This effect is mediated by the introduction of IS harbored promoters or by emergence of hybrid promoters. This study revealed that in addition to their impact on genome rearrangements, most of the IS also impact on the expression of their flanking genes. Furthermore, the transcripts produced by IS are strain-specific due to the strain to strain variation in IS copy number and genomic context.
c Institute of Microbiology of the ASCR
Laboratory of post transcriptional control of gene expression Prague Czech Republic
References provided by Crossref.org
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- $a Bordetella pertussis is the causative agent of whooping cough, a respiratory disease still considered as a major public health threat and for which recent re-emergence has been observed. Constant reshuffling of Bordetella pertussis genome organization was observed during evolution. These rearrangements are essentially mediated by Insertion Sequences (IS), a mobile genetic elements present in more than 230 copies in the genome, which are supposed to be one of the driving forces enabling the pathogen to escape from vaccine-induced immunity. Here we use high-throughput sequencing approaches (RNA-seq and differential RNA-seq), to decipher Bordetella pertussis transcriptome characteristics and to evaluate the impact of IS elements on transcriptome architecture. Transcriptional organization was determined by identification of transcription start sites and revealed also a large variety of non-coding RNAs including sRNAs, leaderless mRNAs or long 3' and 5'UTR including seven riboswitches. Unusual topological organizations, such as overlapping 5'- or 3'-extremities between oppositely orientated mRNA were also unveiled. The pivotal role of IS elements in the transcriptome architecture and their effect on the transcription of neighboring genes was examined. This effect is mediated by the introduction of IS harbored promoters or by emergence of hybrid promoters. This study revealed that in addition to their impact on genome rearrangements, most of the IS also impact on the expression of their flanking genes. Furthermore, the transcripts produced by IS are strain-specific due to the strain to strain variation in IS copy number and genomic context.
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