Isolation and characterization of transposable elements in chiropteran genomes
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2024 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Texto Completo: | https://hdl.handle.net/10348/12691 |
Resumo: | Long before the revolution of sequencing projects, it was well-known that genomes are not exclusively composed of single-copy sequences. However, for a long time, the repetitive portion of genomes was viewed as "junk DNA", without any biological function. Nonetheless, the advancements of scientific research have made possible to understand that the impact of the repetitive portion, and especially of transposable elements (TEs), extends far beyond their existence in genomes, being involved in the remodelling of genomic architecture and regulation of gene expression, among other functions. The order Chiroptera comprises around 20% of extant mammals and is characterised by a high variety of species, resulting from its great morphological and karyotypical diversity. Furthermore, chiropterans have peculiar traits that make them particularly interesting from an evolutionary point of view, including an extensive and diverse repertoire of TEs. The LINE-1 family is currently recognised as the most abundant class of TEs in mammalian genomes, similarly to SINEs, which also have a preponderant presence in these genomes. Although their presence is less pronounced, Helitrons have already been found in bat genomes, with an apparently restricted distribution to the Vespertilionidae family. In the present work, three families of TEs – L1, Ves (retrotransposons) and Hel-1 (transposon) – were isolated and characterised molecularly and cytogenetically in the genomes of three chiropteran species from Mainland Portugal – Myotis escalerai (MES), Myotis daubentonii (MDA) (Vespertilionidae), and Rhinolophus euryale (REU) (Rhinolophidae). To this end, a multidisciplinary approach was outlined, in which the physical and in silico mapping of the isolated TEs were conducted for the first time. Concurrently, the karyotype of REU was also organised for the first time in the course of this dissertation. The results obtained revealed that, contrarily to previous evidence, Hel-1 and Ves are not exclusive to vespertilionids, having been detected for the first time in a species from another family, the Rhinolophus studied in this work. In addition, the physical mapping revealed a species-specific distribution pattern of TEs in the genomes of the analysed species, which suggests their potential involvement in the diversification of genomes and, consequently, in the evolution of species. The pericentromeric accumulation of L1 observed in MDA may be indicative of the association between TEs and satellite DNA sequences. On the other hand, the accumulation at subtelomeric regions and on the Y chromosome points to a possible role for TEs in the heterochromatisation and/or inactivation of certain genomic regions or may result from the action of selective processes towards the elimination of insertions that occur in gene- rich regions. Finally, TEs may also be involved in the regulation of gene expression, since most of the insertions analysed in this study are orientated in the sense of transcription. |
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Isolation and characterization of transposable elements in chiropteran genomesTransposable elementsbatsgenomes’ evolutiongenetic variabilityphysical and in silico mappingLong before the revolution of sequencing projects, it was well-known that genomes are not exclusively composed of single-copy sequences. However, for a long time, the repetitive portion of genomes was viewed as "junk DNA", without any biological function. Nonetheless, the advancements of scientific research have made possible to understand that the impact of the repetitive portion, and especially of transposable elements (TEs), extends far beyond their existence in genomes, being involved in the remodelling of genomic architecture and regulation of gene expression, among other functions. The order Chiroptera comprises around 20% of extant mammals and is characterised by a high variety of species, resulting from its great morphological and karyotypical diversity. Furthermore, chiropterans have peculiar traits that make them particularly interesting from an evolutionary point of view, including an extensive and diverse repertoire of TEs. The LINE-1 family is currently recognised as the most abundant class of TEs in mammalian genomes, similarly to SINEs, which also have a preponderant presence in these genomes. Although their presence is less pronounced, Helitrons have already been found in bat genomes, with an apparently restricted distribution to the Vespertilionidae family. In the present work, three families of TEs – L1, Ves (retrotransposons) and Hel-1 (transposon) – were isolated and characterised molecularly and cytogenetically in the genomes of three chiropteran species from Mainland Portugal – Myotis escalerai (MES), Myotis daubentonii (MDA) (Vespertilionidae), and Rhinolophus euryale (REU) (Rhinolophidae). To this end, a multidisciplinary approach was outlined, in which the physical and in silico mapping of the isolated TEs were conducted for the first time. Concurrently, the karyotype of REU was also organised for the first time in the course of this dissertation. The results obtained revealed that, contrarily to previous evidence, Hel-1 and Ves are not exclusive to vespertilionids, having been detected for the first time in a species from another family, the Rhinolophus studied in this work. In addition, the physical mapping revealed a species-specific distribution pattern of TEs in the genomes of the analysed species, which suggests their potential involvement in the diversification of genomes and, consequently, in the evolution of species. The pericentromeric accumulation of L1 observed in MDA may be indicative of the association between TEs and satellite DNA sequences. On the other hand, the accumulation at subtelomeric regions and on the Y chromosome points to a possible role for TEs in the heterochromatisation and/or inactivation of certain genomic regions or may result from the action of selective processes towards the elimination of insertions that occur in gene- rich regions. Finally, TEs may also be involved in the regulation of gene expression, since most of the insertions analysed in this study are orientated in the sense of transcription.Muito antes da revolução dos projetos de sequenciação, era já sabido que os genomas não são exclusivamente constituídos por sequências de cópia única. Contudo, e durante muito tempo, a porção repetitiva dos genomas foi encarada como “junk DNA”, não lhe sendo atribuída qualquer função biológica. No entanto, os avanços da investigação científica têm permitido compreender que o impacto da porção repetitiva, e em particular dos elementos transponíveis (TEs), se estende muito para além da sua existência nos genomas, tendo sido implicados na remodelação da arquitetura genómica e na regulação da expressão génica, entre outras funções. A ordem Chiroptera compreende cerca de 20% dos mamíferos extantes, sendo caraterizada por uma elevada variedade de espécies, resultante da sua grande diversidade morfológica e cariotípica. Além disso, os quirópteros possuem traços peculiares que os tornam particularmente interessantes do ponto de vista evolutivo, entre os quais um extenso e diverso repertório de TEs. A família LINE-1 é atualmente reconhecida como a classe de TEs mais abundante nos genomas dos mamíferos, à semelhança dos SINEs, que também apresentam uma presença preponderante nestes genomas. Ainda que a sua presença tenha menor expressão, os Helitrons foram já reportados em genomas de morcegos, com uma distribuição aparentemente restrita à família Vespertilionidae. No presente trabalho procedeu-se ao isolamento e caraterização molecular e citogenética de três famílias de TEs – L1, Ves (retrotransposões) e Hel-1 (transposão) – nos genomas de três espécies de quirópteros de Portugal Continental – Myotis escalerai (MES), Myotis daubentonii (MDA) (Vespertilionidae) e Rhinolophus euryale (REU) (Rhinolophidae). Para isso, foi delineada uma abordagem multidisciplinar, na qual foi realizado, pela primeira vez, o mapeamento físico e in silico dos TEs isolados. Em paralelo, também o cariótipo de REU foi organizado, pela primeira vez, no decorrer desta dissertação. Os resultados obtidos revelaram que, contrariamente às evidências anteriores, Hel-1 e Ves não são exclusivos dos vespertilionídeos, tendo sido detetados, pela primeira vez, numa espécie de outra família, o Rhinolophus estudado neste trabalho. Adicionalmente, o mapeamento físico revelou um padrão de distribuição de TEs espécie-específico nos genomas das espécies analisadas, o que sugere o seu potencial envolvimento na diversificação dos genomas e por conseguinte, na evolução das espécies. A acumulação pericentromérica de L1 observada em MDA pode ser indicativa da associação entre TEs e sequências de DNA satélite. Por outro lado, a acumulação em regiões subteloméricas e no cromossoma Y aponta para um possível papel dos TEs na heterocromatização e/ou inativação de determinadas regiões genómicas, ou pode resultar da ação dos processos seletivos no sentido da eliminação de inserções que ocorram em regiões ricas em genes. Por fim, os TEs poderão também estar implicados na regulação da expressão génica, uma vez que a maioria das inserções analisadas neste trabalho se encontram orientadas no sentido da transcrição. Os resultados obtidos no mapeamento in silico permitiram validar os resultados obtidos no mapeamento físico, oferecendo suporte às hipóteses estabelecidas e reforçando a importância da combinação de técnicas citogenéticas e bioinformáticas no estudo da distribuição e impacto dos TEs no genoma dos Chiroptera e dos mamíferos, em geral.2024-07-12T11:15:32Z2027-04-19T00:00:00Z2024-04-19T00:00:00Z2024-04-192024-05-13info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfapplication/pdfapplication/pdfhttps://hdl.handle.net/10348/12691engCastro, Francisca Manuela Teixeira Fernandes deinfo:eu-repo/semantics/embargoedAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2025-03-30T03:02:48Zoai:repositorio.utad.pt:10348/12691Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-28T18:37:45.704824Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
Isolation and characterization of transposable elements in chiropteran genomes |
| title |
Isolation and characterization of transposable elements in chiropteran genomes |
| spellingShingle |
Isolation and characterization of transposable elements in chiropteran genomes Castro, Francisca Manuela Teixeira Fernandes de Transposable elements bats genomes’ evolution genetic variability physical and in silico mapping |
| title_short |
Isolation and characterization of transposable elements in chiropteran genomes |
| title_full |
Isolation and characterization of transposable elements in chiropteran genomes |
| title_fullStr |
Isolation and characterization of transposable elements in chiropteran genomes |
| title_full_unstemmed |
Isolation and characterization of transposable elements in chiropteran genomes |
| title_sort |
Isolation and characterization of transposable elements in chiropteran genomes |
| author |
Castro, Francisca Manuela Teixeira Fernandes de |
| author_facet |
Castro, Francisca Manuela Teixeira Fernandes de |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Castro, Francisca Manuela Teixeira Fernandes de |
| dc.subject.por.fl_str_mv |
Transposable elements bats genomes’ evolution genetic variability physical and in silico mapping |
| topic |
Transposable elements bats genomes’ evolution genetic variability physical and in silico mapping |
| description |
Long before the revolution of sequencing projects, it was well-known that genomes are not exclusively composed of single-copy sequences. However, for a long time, the repetitive portion of genomes was viewed as "junk DNA", without any biological function. Nonetheless, the advancements of scientific research have made possible to understand that the impact of the repetitive portion, and especially of transposable elements (TEs), extends far beyond their existence in genomes, being involved in the remodelling of genomic architecture and regulation of gene expression, among other functions. The order Chiroptera comprises around 20% of extant mammals and is characterised by a high variety of species, resulting from its great morphological and karyotypical diversity. Furthermore, chiropterans have peculiar traits that make them particularly interesting from an evolutionary point of view, including an extensive and diverse repertoire of TEs. The LINE-1 family is currently recognised as the most abundant class of TEs in mammalian genomes, similarly to SINEs, which also have a preponderant presence in these genomes. Although their presence is less pronounced, Helitrons have already been found in bat genomes, with an apparently restricted distribution to the Vespertilionidae family. In the present work, three families of TEs – L1, Ves (retrotransposons) and Hel-1 (transposon) – were isolated and characterised molecularly and cytogenetically in the genomes of three chiropteran species from Mainland Portugal – Myotis escalerai (MES), Myotis daubentonii (MDA) (Vespertilionidae), and Rhinolophus euryale (REU) (Rhinolophidae). To this end, a multidisciplinary approach was outlined, in which the physical and in silico mapping of the isolated TEs were conducted for the first time. Concurrently, the karyotype of REU was also organised for the first time in the course of this dissertation. The results obtained revealed that, contrarily to previous evidence, Hel-1 and Ves are not exclusive to vespertilionids, having been detected for the first time in a species from another family, the Rhinolophus studied in this work. In addition, the physical mapping revealed a species-specific distribution pattern of TEs in the genomes of the analysed species, which suggests their potential involvement in the diversification of genomes and, consequently, in the evolution of species. The pericentromeric accumulation of L1 observed in MDA may be indicative of the association between TEs and satellite DNA sequences. On the other hand, the accumulation at subtelomeric regions and on the Y chromosome points to a possible role for TEs in the heterochromatisation and/or inactivation of certain genomic regions or may result from the action of selective processes towards the elimination of insertions that occur in gene- rich regions. Finally, TEs may also be involved in the regulation of gene expression, since most of the insertions analysed in this study are orientated in the sense of transcription. |
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2024 |
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2024-07-12T11:15:32Z 2024-04-19T00:00:00Z 2024-04-19 2024-05-13 2027-04-19T00:00:00Z |
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