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dc.rights.licenseReconocimiento 4.0 Internacional. (CC BY)es
dc.contributor.authorIraola, Gregorioes
dc.contributor.authorSpangenberg, Lucíaes
dc.contributor.authorLopes Bastos, Brunoes
dc.contributor.authorGraña, Martínes
dc.contributor.authorVasconcelos, Larissaes
dc.contributor.authorAlmeida, Áureaes
dc.contributor.authorGreif, Gonzaloes
dc.contributor.authorRobello, Carloses
dc.contributor.authorRistow, Paulaes
dc.contributor.authorNaya, Hugoes
dc.date.accessioned2019-10-28T16:39:27Z-
dc.date.available2019-10-28T16:39:27Z-
dc.date.issued2016-
dc.identifier.urihttp://hdl.handle.net/20.500.12381/182-
dc.description.abstractThe genus Leptospira is composed of pathogenic and saprophytic spirochetes. Pathogenic Leptospira is the etiological agent of leptospirosis, a globally spread neglected disease. A key ecological feature of some pathogenic species is their ability to survive both within and outside the host. For most leptospires, the ability to persist outside the host is associated with biofilm formation, a most important bacterial strategy to face and overcome hostile environmental conditions. The architecture and biochemistry of leptospiral biofilms are rather well understood; however, the genetic program underpinning biofilm formation remains mostly unknown. In this work, we used the saprophyte Leptospira biflexa as a model organism to assess over- and underrepresented transcripts during the biofilm state, using transcriptome sequencing (RNA-seq) technology. Our results showed that some basal biological processes like DNA replication and cell division are downregulated in the mature biofilm. Additionally, we identified significant expression reprogramming for genes involved in motility, sugar/lipid metabolism, and iron scavenging, as well as for outer membrane-encoding genes. A careful manual annotation process allowed us to assign molecular functions to many previously uncharacterized genes that are probably involved in biofilm metabolism. We also provided evidence for the presence of small regulatory RNAs in this species. Finally, coexpression networks were reconstructed to pinpoint functionally related gene clusters that may explain how biofilm maintenance is regulated. Beyond elucidating some genetic aspects of biofilm formation, this work reveals a number of pathways whose functional dissection may impact our understanding of leptospiral biology, in particular how these organisms adapt to environmental changes.es
dc.description.sponsorshipAgencia Nacional de Investigación e Innovaciónes
dc.format.extent16 p.es
dc.language.isoenges
dc.publisherAmerican Society for Microbiologyes
dc.rightsAcceso abiertoes
dc.sourcemSphere. 2016, 1(2):e00042-16es
dc.subjectTranscriptomees
dc.subjectLeptospiraes
dc.subjectBiofilmes
dc.titleTranscriptome Sequencing Reveals Wide Expression Reprogramming of Basal and Unknown Genes in Leptospira biflexa Biofilmses
dc.typeArtículoes
dc.subject.aniiCiencias Naturales y Exactases
dc.subject.aniiCiencias Biológicases
dc.subject.aniiBiología Celular, Microbiologíaes
dc.identifier.aniiFCE_2_2011_1_7179es
dc.type.versionPublicadoes
dc.identifier.doihttp://dx.doi.org/10.1128/mSphere.00042-16-
dc.anii.institucionresponsableInstitut Pasteur de Montevideoes
Aparece en las colecciones: Institut Pasteur de Montevideo

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