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dc.contributor.authorHolmes, David S. [Univ Mayor, Fac Ciencias, Ctr Genom & Bioinformat, Santiago, Chile]es_CL
dc.contributor.authorJorquera, Roddyes_CL
dc.contributor.authorGonzález, Carolinaes_CL
dc.contributor.authorClausen, Philipes_CL
dc.contributor.authorPetersen, Bentes_CL
dc.date.accessioned2020-04-08T14:11:55Z
dc.date.accessioned2020-04-13T18:12:53Z
dc.date.available2020-04-08T14:11:55Z
dc.date.available2020-04-13T18:12:53Z
dc.date.issued2018es_CL
dc.identifier.citationJorquera, R., González, C., Clausen, P., Petersen, B., & Holmes, D. S. (2018). Improved ontology for eukaryotic single-exon coding sequences in biological databases. Database, 2018.es_CL
dc.identifier.issn1758-0463es_CL
dc.identifier.urihttps://doi.org/10.1093/database/bay089es_CL
dc.identifier.urihttp://repositorio.umayor.cl/xmlui/handle/sibum/6279
dc.description.abstractEfficient extraction of knowledge from biological data requires the development of structured vocabularies to unambiguously define biological terms. This paper proposes descriptions and definitions to disambiguate the term 'single-exon gene'. Eukaryotic Single-Exon Genes (SEGs) have been defined as genes that do not have introns in their protein coding sequences. They have been studied not only to determine their origin and evolution but also because their expression has been linked to several types of human cancer and neurological/developmental disorders and many exhibit tissuespecific transcription. Unfortunately, the term 'SEGs' is rife with ambiguity, leading to biological misinterpretations. In the classic definition, no distinction is made between SEGs that harbor introns in their untranslated regions (UTRs) versus those without. This distinction is important to make because the presence of introns in UTRs affects transcriptional regulation and post-transcriptional processing of the mRNA. In addition, recent whole-transcriptome shotgun sequencing has led to the discovery of many examples of single-exon mRNAs that arise from alternative splicing of multi-exon genes, these single-exon isoforms are being confused with SEGs despite their clearly different origin. The increasing expansion of RNA-seq datasets makes it imperative to distinguish the different SEG types before annotation errors become indelibly propagated in biological databases. This paper develops a structured vocabulary for their disambiguation, allowing a major reassessment of their evolutionary trajectories, regulation, RNA processing and transport, and provides the opportunity to improve the detection of gene associations with disorders including cancers, neurological and developmental diseases.es_CL
dc.description.sponsorshipFondecytComision Nacional de Investigacion Cientifica y Tecnologica (CONICYT)CONICYT FONDECYT [1090451, 1130683, 1181717]; BasalComision Nacional de Investigacion Cientifica y Tecnologica (CONICYT)CONICYT PIA/BASAL [AFB 170004]es_CL
dc.description.sponsorshipFondecyt (1090451, 1130683, 1181717) and Basal (AFB 170004).es_CL
dc.language.isoenes_CL
dc.publisherOXFORD UNIV PRESSes_CL
dc.rightsAttribution-NonCommercial-NoDerivs 3.0 Chile
dc.sourceDatabase, SEP 2018.
dc.subjectMathematical & Computational Biologyes_CL
dc.titleImproved ontology for eukaryotic single-exon coding sequences in biological databaseses_CL
dc.typeArtículoes_CL
umayor.facultadCIENCIASes_CL
umayor.politicas.sherpa/romeoDOAJ Gold, Green Publishedes_CL
umayor.indexadoWOS:000445468700002es_CL
umayor.indexadoPMID: 30239665es_CL
dc.identifier.doiDOI: 10.1093/database/bay089es_CL]
umayor.indicadores.wos-(cuartil)SIN CUARTILes_CL
umayor.indicadores.scopus-(scimago-sjr)SIN ÍNDICE Hes_CL


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