Toledo Arana, Alejandro
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Toledo Arana
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Alejandro
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Instituto de Agrobiotecnología (IdAB)
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Publication Open Access Genome-wide antisense transcription drives mRNA processing in bacteria(National Academy of Sciences, 2011) Lasa Uzcudun, Íñigo; Toledo Arana, Alejandro; Dobin, Alexander; Villanueva San Martín, Maite; Ruiz de los Mozos Aliaga, Igor; Vergara Irigaray, Marta; Segura, Víctor; Fagegaltier, Delphine; Penadés, José R.; Valle Turrillas, Jaione; Solano Goñi, Cristina; Gingeras, Thomas R.; IdAB. Instituto de Agrobiotecnología / Agrobioteknologiako InstitutuaRNA deep sequencing technologies are revealing unexpected levels of complexity in bacterial transcriptomes with the discovery of abundant noncoding RNAs, antisense RNAs, long 5′ and 3′ untranslated regions, and alternative operon structures. Here, by applying deep RNA sequencing to both the long and short RNA fractions (<50 nucleotides) obtained from the major human pathogen Staphylococcus aureus, we have detected a collection of short RNAs that is generated genome-wide through the digestion of overlapping sense/antisense transcripts by RNase III endoribonuclease. At least 75% of sense RNAs from annotated genes are subject to this mechanism of antisense processing. Removal of RNase III activity reduces the amount of short RNAs and is accompanied by the accumulation of discrete antisense transcripts. These results suggest the production of pervasive but hidden antisense transcription used to process sense transcripts by means of creating double-stranded substrates. This process of RNase III-mediated digestion of overlapping transcripts can be observed in several evolutionarily diverse Gram-positive bacteria and is capable of providing a unique genome-wide posttranscriptional mechanism to adjust mRNA levels.Publication Open Access An effort to make sense of antisense transcription in bacteria(Taylor & Francis, 2012) Lasa Uzcudun, Íñigo; Toledo Arana, Alejandro; Gingeras, Thomas R.; IdAB. Instituto de Agrobiotecnología / Agrobioteknologiako InstitutuaAnalysis of bacterial transcriptomes have shown the existence of a genome-wide process of overlapping transcription due to the presence of antisense RNAs, as well as mRNAs that overlapped in their entire length or in some portion of the 5′- and 3′-UTR regions. The biological advantages of such overlapping transcription are unclear but may play important regulatory roles at the level of transcription, RNA stability and translation. In a recent report, the human pathogen Staphylococcus aureus is observed to generate genome-wide overlapping transcription in the same bacterial cells leading to a collection of short RNA fragments generated by the endoribonuclease III, RNase III. This processing appears most prominently in Gram-positive bacteria. The implications of both the use of pervasive overlapping transcription and the processing of these double stranded templates into short RNAs are explored and the consequences discussed.