Pathogenomics insights for understanding Pasteurella multocida adaptation

•P. multocida can infect a wide range of hosts and cause different diseases.•P. multocida presents genomic flexibility in host adaptation and pathogenesis.•SNPs have roles in population diversification and niche adaptation.•Integration of genomic data is essential for elucidating evolution of P. mul...

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Published inInternational journal of medical microbiology Vol. 310; no. 4; p. 151417
Main Authors Hurtado, Raquel, Maturrano, Lenin, Azevedo, Vasco, Aburjaile, Flávia
Format Journal Article
LanguageEnglish
Published Germany Elsevier GmbH 01.05.2020
Elsevier
Subjects
Adaptation
Evolution
Genomics
Mobile genetic elements
Virulence
Evolution
Genomics
Virulence
Mobile genetic elements
Adaptation
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Abstract •P. multocida can infect a wide range of hosts and cause different diseases.•P. multocida presents genomic flexibility in host adaptation and pathogenesis.•SNPs have roles in population diversification and niche adaptation.•Integration of genomic data is essential for elucidating evolution of P. multocida. Pasteurella multocida is an important veterinary pathogen able to infect a wide range of animals in a broad spectrum of diseases. P. multocida is a complex microorganism in relation to its genomic flexibility, host adaptation and pathogenesis. Epidemiological analysis based on multilocus sequence typing, serotyping, genotyping, association with virulence genes and single nucleotide polymorphisms (SNPs), enables assessment of intraspecies diversity, phylogenetic and strain-specific relationships associated with host predilection or disease. A high number of sequenced genomes provides us a more accurate genomic and epidemiological interpretation to determine whether certain lineages can infect a host or produce disease. Comparative genomic analysis and pan-genomic approaches have revealed a flexible genome for hosting mobile genetic elements (MGEs) and therefore significant variation in gene content. Moreover, it was possible to find lineage-specific MGEs from the same niche, showing acquisition probably due to an evolutionary convergence event or to a genetic group with infective capacity. Furthermore, diversification selection analysis exhibits proteins exposed on the surface subject to selection pressures with an interstrain heterogeneity related to their ability to adapt. This article is the first review describing the genomic relationship to elucidate the diversity and evolution of P. multocida.
AbstractList Pasteurella multocida is an important veterinary pathogen able to infect a wide range of animals in a broad spectrum of diseases. P. multocida is a complex microorganism in relation to its genomic flexibility, host adaptation and pathogenesis. Epidemiological analysis based on multilocus sequence typing, serotyping, genotyping, association with virulence genes and single nucleotide polymorphisms (SNPs), enables assessment of intraspecies diversity, phylogenetic and strain-specific relationships associated with host predilection or disease. A high number of sequenced genomes provides us a more accurate genomic and epidemiological interpretation to determine whether certain lineages can infect a host or produce disease. Comparative genomic analysis and pan-genomic approaches have revealed a flexible genome for hosting mobile genetic elements (MGEs) and therefore significant variation in gene content. Moreover, it was possible to find lineage-specific MGEs from the same niche, showing acquisition probably due to an evolutionary convergence event or to a genetic group with infective capacity. Furthermore, diversification selection analysis exhibits proteins exposed on the surface subject to selection pressures with an interstrain heterogeneity related to their ability to adapt. This article is the first review describing the genomic relationship to elucidate the diversity and evolution of P. multocida.
•P. multocida can infect a wide range of hosts and cause different diseases.•P. multocida presents genomic flexibility in host adaptation and pathogenesis.•SNPs have roles in population diversification and niche adaptation.•Integration of genomic data is essential for elucidating evolution of P. multocida. Pasteurella multocida is an important veterinary pathogen able to infect a wide range of animals in a broad spectrum of diseases. P. multocida is a complex microorganism in relation to its genomic flexibility, host adaptation and pathogenesis. Epidemiological analysis based on multilocus sequence typing, serotyping, genotyping, association with virulence genes and single nucleotide polymorphisms (SNPs), enables assessment of intraspecies diversity, phylogenetic and strain-specific relationships associated with host predilection or disease. A high number of sequenced genomes provides us a more accurate genomic and epidemiological interpretation to determine whether certain lineages can infect a host or produce disease. Comparative genomic analysis and pan-genomic approaches have revealed a flexible genome for hosting mobile genetic elements (MGEs) and therefore significant variation in gene content. Moreover, it was possible to find lineage-specific MGEs from the same niche, showing acquisition probably due to an evolutionary convergence event or to a genetic group with infective capacity. Furthermore, diversification selection analysis exhibits proteins exposed on the surface subject to selection pressures with an interstrain heterogeneity related to their ability to adapt. This article is the first review describing the genomic relationship to elucidate the diversity and evolution of P. multocida.
Pasteurella multocida is an important veterinary pathogen able to infect a wide range of animals in a broad spectrum of diseases. P. multocida is a complex microorganism in relation to its genomic flexibility, host adaptation and pathogenesis. Epidemiological analysis based on multilocus sequence typing, serotyping, genotyping, association with virulence genes and single nucleotide polymorphisms (SNPs), enables assessment of intraspecies diversity, phylogenetic and strain-specific relationships associated with host predilection or disease. A high number of sequenced genomes provides us a more accurate genomic and epidemiological interpretation to determine whether certain lineages can infect a host or produce disease. Comparative genomic analysis and pan-genomic approaches have revealed a flexible genome for hosting mobile genetic elements (MGEs) and therefore significant variation in gene content. Moreover, it was possible to find lineage-specific MGEs from the same niche, showing acquisition probably due to an evolutionary convergence event or to a genetic group with infective capacity. Furthermore, diversification selection analysis exhibits proteins exposed on the surface subject to selection pressures with an interstrain heterogeneity related to their ability to adapt. This article is the first review describing the genomic relationship to elucidate the diversity and evolution of P. multocida.Pasteurella multocida is an important veterinary pathogen able to infect a wide range of animals in a broad spectrum of diseases. P. multocida is a complex microorganism in relation to its genomic flexibility, host adaptation and pathogenesis. Epidemiological analysis based on multilocus sequence typing, serotyping, genotyping, association with virulence genes and single nucleotide polymorphisms (SNPs), enables assessment of intraspecies diversity, phylogenetic and strain-specific relationships associated with host predilection or disease. A high number of sequenced genomes provides us a more accurate genomic and epidemiological interpretation to determine whether certain lineages can infect a host or produce disease. Comparative genomic analysis and pan-genomic approaches have revealed a flexible genome for hosting mobile genetic elements (MGEs) and therefore significant variation in gene content. Moreover, it was possible to find lineage-specific MGEs from the same niche, showing acquisition probably due to an evolutionary convergence event or to a genetic group with infective capacity. Furthermore, diversification selection analysis exhibits proteins exposed on the surface subject to selection pressures with an interstrain heterogeneity related to their ability to adapt. This article is the first review describing the genomic relationship to elucidate the diversity and evolution of P. multocida.
ArticleNumber 151417
Author Hurtado, Raquel
Maturrano, Lenin
Aburjaile, Flávia
Azevedo, Vasco
Author_xml – sequence: 1
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  surname: Hurtado
  fullname: Hurtado, Raquel
  organization: Laboratory of Cellular and Molecular Genetics, Federal University of Minas Gerais, Belo Horizonte, 31270-901, Minas Gerais, Brazil
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  givenname: Lenin
  surname: Maturrano
  fullname: Maturrano, Lenin
  organization: Laboratory of Molecular Biology and Genetics, Veterinary Medicine Faculty, San Marcos University, Lima, Peru
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  givenname: Vasco
  surname: Azevedo
  fullname: Azevedo, Vasco
  organization: Laboratory of Cellular and Molecular Genetics, Federal University of Minas Gerais, Belo Horizonte, 31270-901, Minas Gerais, Brazil
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  givenname: Flávia
  surname: Aburjaile
  fullname: Aburjaile, Flávia
  email: faburjaile@gmail.com, flavia.aburjaile@ufpe.br
  organization: Laboratory of Cellular and Molecular Genetics, Federal University of Minas Gerais, Belo Horizonte, 31270-901, Minas Gerais, Brazil
BackLink https://www.ncbi.nlm.nih.gov/pubmed/32276876$$D View this record in MEDLINE/PubMed
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Issue 4
Keywords Evolution
Genomics
Virulence
Mobile genetic elements
Adaptation
Language English
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Snippet •P. multocida can infect a wide range of hosts and cause different diseases.•P. multocida presents genomic flexibility in host adaptation and...
Pasteurella multocida is an important veterinary pathogen able to infect a wide range of animals in a broad spectrum of diseases. P. multocida is a complex...
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SubjectTerms Adaptation
Evolution
Genomics
Mobile genetic elements
Virulence
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Title Pathogenomics insights for understanding Pasteurella multocida adaptation
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