Mitochondrial genome analysis in Passiflora

Detalhes bibliográficos
Autor(a) principal: Abregu Olarte, Wendy Teresa
Data de Publicação: 2023
Tipo de documento: Dissertação
Idioma: eng
Título da fonte: Biblioteca Digital de Teses e Dissertações da USP
Texto Completo: https://www.teses.usp.br/teses/disponiveis/11/11137/tde-06122023-180741/
Resumo: The genus Passiflora comprises approximately 525 species that represent a vast morphological diversity which serves as the basis for taxonomic classification into subgenera and sections. However, genomic studies are still emerging. Some initiatives have been developed to unravel the nuclear and organellar genome structure of some Passiflora species. So far, it can be said that plastid genomes (cpDNA) are better documented. Nevertheless, there is a lack of information on the mitochondrial genome (mtDNA), which should allow complementing evolutionary studies on the genus. Plant mtDNA shows remarkable variability in terms of genome size and structure, attributed to repetitive DNA sequences involved in homologous recombination and intracellular gene transfer (IGT). Regardless, despite its variability plant, mtDNA does not contain a large repertoire of genes. Instead, it maintains essential genes related to oxidative phosphorylation where the electron transport chain occurs. Our research group initially documented the mtDNA of P. organensis (subgenus Decaloba). In the present study, a hybrid assembly approach using short and long reads generated from Illumina and Oxford Nanopore technologies was employed to unravel the mtDNA of three Passiflora species: P. haematostigma (subgenus Astrophea), P. alata, and P. edulis (subgenus Passiflora). Our aim was to produce new genomic resources and generate knowledge that may be useful in evolutionary approaches to the genus. Despite our efforts, we were unable to capture a single circular molecule representing the \"master circle\". For P. haematostigma, three circular sequences with lengths of 275,820, 162,684, and 110,306 bp were identified. In contrast with P. edulis and P. alata, a single sequence with lengths of 737,209 and 693,479 bp, were respectively identified. These mtDNA genomes contain a conserved set of 32 protein-coding genes and 3 rRNA genes in the three species, accompanied by a variable number of tRNA genes ranging from 25 to 34. Interestingly, plastidial DNA insertion sites were observed in P. organensis and all three Passiflora species, ranging from ∽3 to ∽5%, highlighting the influence of IGT events on mtDNA size variation. These remarkable results on the structural and functional arrangement of Astrophea, Passiflora, and Decaloba mtDNAs suggest that further studies should be conducted to understand the possible relationship between the organization of mitochondrial genomes and the evolutionary patterns of the genus.
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spelling Mitochondrial genome analysis in PassifloraAnálise de genomas mitocondriais em PassifloraConteúdo do genomaEstrutura do genomaGene transferGenome contenteGenome structureHybrid assemblyMalpighialesMalpighialesMontagem híbridaTransferência de genesThe genus Passiflora comprises approximately 525 species that represent a vast morphological diversity which serves as the basis for taxonomic classification into subgenera and sections. However, genomic studies are still emerging. Some initiatives have been developed to unravel the nuclear and organellar genome structure of some Passiflora species. So far, it can be said that plastid genomes (cpDNA) are better documented. Nevertheless, there is a lack of information on the mitochondrial genome (mtDNA), which should allow complementing evolutionary studies on the genus. Plant mtDNA shows remarkable variability in terms of genome size and structure, attributed to repetitive DNA sequences involved in homologous recombination and intracellular gene transfer (IGT). Regardless, despite its variability plant, mtDNA does not contain a large repertoire of genes. Instead, it maintains essential genes related to oxidative phosphorylation where the electron transport chain occurs. Our research group initially documented the mtDNA of P. organensis (subgenus Decaloba). In the present study, a hybrid assembly approach using short and long reads generated from Illumina and Oxford Nanopore technologies was employed to unravel the mtDNA of three Passiflora species: P. haematostigma (subgenus Astrophea), P. alata, and P. edulis (subgenus Passiflora). Our aim was to produce new genomic resources and generate knowledge that may be useful in evolutionary approaches to the genus. Despite our efforts, we were unable to capture a single circular molecule representing the \"master circle\". For P. haematostigma, three circular sequences with lengths of 275,820, 162,684, and 110,306 bp were identified. In contrast with P. edulis and P. alata, a single sequence with lengths of 737,209 and 693,479 bp, were respectively identified. These mtDNA genomes contain a conserved set of 32 protein-coding genes and 3 rRNA genes in the three species, accompanied by a variable number of tRNA genes ranging from 25 to 34. Interestingly, plastidial DNA insertion sites were observed in P. organensis and all three Passiflora species, ranging from ∽3 to ∽5%, highlighting the influence of IGT events on mtDNA size variation. These remarkable results on the structural and functional arrangement of Astrophea, Passiflora, and Decaloba mtDNAs suggest that further studies should be conducted to understand the possible relationship between the organization of mitochondrial genomes and the evolutionary patterns of the genus.O gênero Passiflora compreende aproximadamente 525 espécies que apresentam uma grande diversidade morfológica a qual serve de base para a classificação taxonômica em subgêneros e seções. Porém, estudos genômicos ainda são incipientes. Foram desenvolvidas algumas iniciativas para desvendar a estrutura do genoma nuclear e organelar de parte das espécies de Passiflora. Pode-se dizer que, até agora, somente os genomas plastidiais (cpDNA) estão mais bem documentados. No entanto, existe uma falta de informação sobre o genoma mitocondrial (mtDNA), o que deve permitir complementar os estudos evolutivos sobre o gênero. O mtDNA das plantas apresenta uma variabilidade notável em termos de tamanho e estrutura do genoma, atribuída a sequências repetitivas de DNA envolvidas na recombinação homóloga e na transferência intracelular de genes (IGT). No entanto, apesar da sua variabilidade, o mtDNA das plantas não contém um grande repertório de genes. Em vez disso, mantém genes essenciais relacionados à fosforilação oxidativa onde ocorre a cadeia de transporte de elétrons. O nosso grupo de investigação documentou inicialmente o mtDNA de P. organensis (subgênero Decaloba). No presente estudo, foi empregada uma abordagem de montagem híbrida usando leituras curtas e longas geradas a partir das tecnologias Illumina e Oxford Nanopore para desvendar o mtDNA de três espécies de Passiflora: P. haematostigma (subgênero Astrophea), P. alata e P. edulis (subgênero Passiflora). O nosso objetivo foi produzir novos recursos genômicos e gerar conhecimento que possa ser útil em estudos evolutivos sobre o gênero. Apesar dos nossos esforços, não foi possível capturar uma única molécula circular que representasse o \"círculo mestre\". Para P. haematostigma, foram identificadas três sequências circulares com comprimentos de 275.820, 162.684 e 110.306 pb. Em contraste, para P. edulis e P. alata, uma única sequência com comprimento de 737.209 e 693.479 pb, respectivamente, foram identificadas. Estes genomas de mtDNA contêm um conjunto conservado de 32 genes codificadores de proteínas e 3 genes de rRNA nas três espécies, acompanhados por um número variável de genes de tRNA, entre 25 e 34. Curiosamente, foram observados sítios de inserção de DNA plastidial em P. organensis e nas três espécies de Passiflora, variando de ∽3 a ∽5%, destacando a influência dos eventos IGT na variação do tamanho do mtDNA. Estes resultados notáveis sobre o arranjo estrutural e funcional dos mtDNAs de Astrophea, Passiflora e Decaloba sugerem que novos estudos sejam conduzidos visando entender a possível relação entre a organização dos genomas mitocondriais e os padrões evolutivos do gênero.Biblioteca Digitais de Teses e Dissertações da USPVieira, Maria Lucia CarneiroAbregu Olarte, Wendy Teresa 2023-09-27info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttps://www.teses.usp.br/teses/disponiveis/11/11137/tde-06122023-180741/reponame:Biblioteca Digital de Teses e Dissertações da USPinstname:Universidade de São Paulo (USP)instacron:USPReter o conteúdo por motivos de patente, publicação e/ou direitos autoriais.info:eu-repo/semantics/openAccesseng2023-12-18T17:56:02Zoai:teses.usp.br:tde-06122023-180741Biblioteca Digital de Teses e Dissertaçõeshttp://www.teses.usp.br/PUBhttp://www.teses.usp.br/cgi-bin/mtd2br.plvirginia@if.usp.br|| atendimento@aguia.usp.br||virginia@if.usp.bropendoar:27212023-12-18T17:56:02Biblioteca Digital de Teses e Dissertações da USP - Universidade de São Paulo (USP)false
dc.title.none.fl_str_mv Mitochondrial genome analysis in Passiflora
Análise de genomas mitocondriais em Passiflora
title Mitochondrial genome analysis in Passiflora
spellingShingle Mitochondrial genome analysis in Passiflora
Abregu Olarte, Wendy Teresa
Conteúdo do genoma
Estrutura do genoma
Gene transfer
Genome contente
Genome structure
Hybrid assembly
Malpighiales
Malpighiales
Montagem híbrida
Transferência de genes
title_short Mitochondrial genome analysis in Passiflora
title_full Mitochondrial genome analysis in Passiflora
title_fullStr Mitochondrial genome analysis in Passiflora
title_full_unstemmed Mitochondrial genome analysis in Passiflora
title_sort Mitochondrial genome analysis in Passiflora
author Abregu Olarte, Wendy Teresa
author_facet Abregu Olarte, Wendy Teresa
author_role author
dc.contributor.none.fl_str_mv Vieira, Maria Lucia Carneiro
dc.contributor.author.fl_str_mv Abregu Olarte, Wendy Teresa
dc.subject.por.fl_str_mv Conteúdo do genoma
Estrutura do genoma
Gene transfer
Genome contente
Genome structure
Hybrid assembly
Malpighiales
Malpighiales
Montagem híbrida
Transferência de genes
topic Conteúdo do genoma
Estrutura do genoma
Gene transfer
Genome contente
Genome structure
Hybrid assembly
Malpighiales
Malpighiales
Montagem híbrida
Transferência de genes
description The genus Passiflora comprises approximately 525 species that represent a vast morphological diversity which serves as the basis for taxonomic classification into subgenera and sections. However, genomic studies are still emerging. Some initiatives have been developed to unravel the nuclear and organellar genome structure of some Passiflora species. So far, it can be said that plastid genomes (cpDNA) are better documented. Nevertheless, there is a lack of information on the mitochondrial genome (mtDNA), which should allow complementing evolutionary studies on the genus. Plant mtDNA shows remarkable variability in terms of genome size and structure, attributed to repetitive DNA sequences involved in homologous recombination and intracellular gene transfer (IGT). Regardless, despite its variability plant, mtDNA does not contain a large repertoire of genes. Instead, it maintains essential genes related to oxidative phosphorylation where the electron transport chain occurs. Our research group initially documented the mtDNA of P. organensis (subgenus Decaloba). In the present study, a hybrid assembly approach using short and long reads generated from Illumina and Oxford Nanopore technologies was employed to unravel the mtDNA of three Passiflora species: P. haematostigma (subgenus Astrophea), P. alata, and P. edulis (subgenus Passiflora). Our aim was to produce new genomic resources and generate knowledge that may be useful in evolutionary approaches to the genus. Despite our efforts, we were unable to capture a single circular molecule representing the \"master circle\". For P. haematostigma, three circular sequences with lengths of 275,820, 162,684, and 110,306 bp were identified. In contrast with P. edulis and P. alata, a single sequence with lengths of 737,209 and 693,479 bp, were respectively identified. These mtDNA genomes contain a conserved set of 32 protein-coding genes and 3 rRNA genes in the three species, accompanied by a variable number of tRNA genes ranging from 25 to 34. Interestingly, plastidial DNA insertion sites were observed in P. organensis and all three Passiflora species, ranging from ∽3 to ∽5%, highlighting the influence of IGT events on mtDNA size variation. These remarkable results on the structural and functional arrangement of Astrophea, Passiflora, and Decaloba mtDNAs suggest that further studies should be conducted to understand the possible relationship between the organization of mitochondrial genomes and the evolutionary patterns of the genus.
publishDate 2023
dc.date.none.fl_str_mv 2023-09-27
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
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format masterThesis
status_str publishedVersion
dc.identifier.uri.fl_str_mv https://www.teses.usp.br/teses/disponiveis/11/11137/tde-06122023-180741/
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dc.language.iso.fl_str_mv eng
language eng
dc.relation.none.fl_str_mv
dc.rights.driver.fl_str_mv Reter o conteúdo por motivos de patente, publicação e/ou direitos autoriais.
info:eu-repo/semantics/openAccess
rights_invalid_str_mv Reter o conteúdo por motivos de patente, publicação e/ou direitos autoriais.
eu_rights_str_mv openAccess
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dc.publisher.none.fl_str_mv Biblioteca Digitais de Teses e Dissertações da USP
publisher.none.fl_str_mv Biblioteca Digitais de Teses e Dissertações da USP
dc.source.none.fl_str_mv
reponame:Biblioteca Digital de Teses e Dissertações da USP
instname:Universidade de São Paulo (USP)
instacron:USP
instname_str Universidade de São Paulo (USP)
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institution USP
reponame_str Biblioteca Digital de Teses e Dissertações da USP
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repository.mail.fl_str_mv virginia@if.usp.br|| atendimento@aguia.usp.br||virginia@if.usp.br
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