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A Conserved Histophilus somni 23S Intervening Sequence Yields Functional, Fragmented 23S rRNA

Histophilus somni is a Gram-negative bacterial organism that acts as an opportunistic pathogen and is a fastidious member of the Pasteurellaceae family associated with diseases of respiratory, reproductive, cardiac, and other tissues of ruminants. We identified an intervening sequence (IVS) embedded...

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Autores principales: Harhay, Gregory P., Harhay, Dayna M., Brader, Kerry D., Smith, Timothy P. L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8635145/
https://www.ncbi.nlm.nih.gov/pubmed/34851158
http://dx.doi.org/10.1128/Spectrum.01431-21
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author Harhay, Gregory P.
Harhay, Dayna M.
Brader, Kerry D.
Smith, Timothy P. L.
author_facet Harhay, Gregory P.
Harhay, Dayna M.
Brader, Kerry D.
Smith, Timothy P. L.
author_sort Harhay, Gregory P.
collection PubMed
description Histophilus somni is a Gram-negative bacterial organism that acts as an opportunistic pathogen and is a fastidious member of the Pasteurellaceae family associated with diseases of respiratory, reproductive, cardiac, and other tissues of ruminants. We identified an intervening sequence (IVS) embedded in all five copies of the 23S rRNA gene in the closed genome sequence of the H. somni isolate USDA-ARS-USMARC-63250 that may play an important role in affecting the biology of the organism. Sequencing the RNA from this isolate shows that most of the IVS is cleaved from the transcript, resulting in independent fragments of this structural rRNA that remain functional within the bacterial ribosome. The IVS lies between positions 1170 and 1278 bp of the 3,017-bp gene and exhibits self-complementarity between its 5′ and 3′ ends that predicts a stem-loop structure interrupting helix-45 in the transcribed 23S rRNA. Excision removes a 94-nucleotide (nt) stem-loop structure that displays an unusual 1-nt 3′ end overhang instead of the more typical 2-nt overhang commonly observed at the ends of other excised IVS stem-loops. A comparison with genomes of other H. somni isolates indicates that this IVS is highly conserved, with 31 of 32 complete genomes having similar interruptions of canonical 23S rRNA genes. The potential biological effects of either the released IVS or the fragmentation of the functional 23S rRNA are unknown, but fragmentation may enhance rRNA degradation in ways that contribute to the regulation of gene expression. IMPORTANCE The genome biology underlying H. somni virulence, pathogenicity, environmental adaptability, and broad tissue tropism is understood poorly. We identified a novel H. somni 109-nt IVS stem-loop structure, of which the central portion is excised from the 23S rRNA transcript, resulting in the fragmentation of this rRNA in the H. somni isolate USDA-ARS-USMARC-63250 and the release of a 94-nt structured RNA of unknown function. We determined that this peculiar rRNA biology is widespread among sequenced H. somni isolates, suggesting it has importance to organism biology. The fragmented 23S rRNA molecules remain functional in the ribosome, given that the isolate grows in culture. The structured excised portion of the IVS, presumably due to the action of the endoribonuclease III, has an unusual 1-nt 3′ end overhang. This newly discovered H. somni 23S rRNA fragmentation may enhance rRNA degradation providing a previously unrecognized avenue for regulating H. somni biological processes.
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spelling pubmed-86351452021-12-06 A Conserved Histophilus somni 23S Intervening Sequence Yields Functional, Fragmented 23S rRNA Harhay, Gregory P. Harhay, Dayna M. Brader, Kerry D. Smith, Timothy P. L. Microbiol Spectr Research Article Histophilus somni is a Gram-negative bacterial organism that acts as an opportunistic pathogen and is a fastidious member of the Pasteurellaceae family associated with diseases of respiratory, reproductive, cardiac, and other tissues of ruminants. We identified an intervening sequence (IVS) embedded in all five copies of the 23S rRNA gene in the closed genome sequence of the H. somni isolate USDA-ARS-USMARC-63250 that may play an important role in affecting the biology of the organism. Sequencing the RNA from this isolate shows that most of the IVS is cleaved from the transcript, resulting in independent fragments of this structural rRNA that remain functional within the bacterial ribosome. The IVS lies between positions 1170 and 1278 bp of the 3,017-bp gene and exhibits self-complementarity between its 5′ and 3′ ends that predicts a stem-loop structure interrupting helix-45 in the transcribed 23S rRNA. Excision removes a 94-nucleotide (nt) stem-loop structure that displays an unusual 1-nt 3′ end overhang instead of the more typical 2-nt overhang commonly observed at the ends of other excised IVS stem-loops. A comparison with genomes of other H. somni isolates indicates that this IVS is highly conserved, with 31 of 32 complete genomes having similar interruptions of canonical 23S rRNA genes. The potential biological effects of either the released IVS or the fragmentation of the functional 23S rRNA are unknown, but fragmentation may enhance rRNA degradation in ways that contribute to the regulation of gene expression. IMPORTANCE The genome biology underlying H. somni virulence, pathogenicity, environmental adaptability, and broad tissue tropism is understood poorly. We identified a novel H. somni 109-nt IVS stem-loop structure, of which the central portion is excised from the 23S rRNA transcript, resulting in the fragmentation of this rRNA in the H. somni isolate USDA-ARS-USMARC-63250 and the release of a 94-nt structured RNA of unknown function. We determined that this peculiar rRNA biology is widespread among sequenced H. somni isolates, suggesting it has importance to organism biology. The fragmented 23S rRNA molecules remain functional in the ribosome, given that the isolate grows in culture. The structured excised portion of the IVS, presumably due to the action of the endoribonuclease III, has an unusual 1-nt 3′ end overhang. This newly discovered H. somni 23S rRNA fragmentation may enhance rRNA degradation providing a previously unrecognized avenue for regulating H. somni biological processes. American Society for Microbiology 2021-12-01 /pmc/articles/PMC8635145/ /pubmed/34851158 http://dx.doi.org/10.1128/Spectrum.01431-21 Text en https://doi.org/10.1128/AuthorWarrantyLicense.v1This is a work of the U.S. Government and is not subject to copyright protection in the United States. Foreign copyrights may apply.
spellingShingle Research Article
Harhay, Gregory P.
Harhay, Dayna M.
Brader, Kerry D.
Smith, Timothy P. L.
A Conserved Histophilus somni 23S Intervening Sequence Yields Functional, Fragmented 23S rRNA
title A Conserved Histophilus somni 23S Intervening Sequence Yields Functional, Fragmented 23S rRNA
title_full A Conserved Histophilus somni 23S Intervening Sequence Yields Functional, Fragmented 23S rRNA
title_fullStr A Conserved Histophilus somni 23S Intervening Sequence Yields Functional, Fragmented 23S rRNA
title_full_unstemmed A Conserved Histophilus somni 23S Intervening Sequence Yields Functional, Fragmented 23S rRNA
title_short A Conserved Histophilus somni 23S Intervening Sequence Yields Functional, Fragmented 23S rRNA
title_sort conserved histophilus somni 23s intervening sequence yields functional, fragmented 23s rrna
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8635145/
https://www.ncbi.nlm.nih.gov/pubmed/34851158
http://dx.doi.org/10.1128/Spectrum.01431-21
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