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A tripartite group II intron in mitochondria of an angiosperm plant | Molecular Genetics and Genomics
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In mitochondria of flowering plants the nad5 open reading frame is assembled from five exons via two conventional cis-splicing and two trans-splicing events. Trans-splicing between exons c and d in wheat, petunia and Arabidopsis involves a bipartite group II intron structure, while in Oenothera a large portion of intron domains I–IV is missing from the major genomic locus. This intron region has been lost downstream of exon c and is now found in a distant genomic region. Intragenomic recombination across an 11 nucleotide sequence has separated these intron parts, which now have to be reassembled from three independent RNA precursors. This organisation coexists with highly substoichiometric copy numbers of the bipartite intron arrangement, consistent with an evolutionary origin of the tripartite intron by genomic disruption.
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Keywords {🔍}
article, intron, plant, access, privacy, cookies, content, group, information, publish, search, mitochondria, open, mitochondrial, data, log, journal, research, molecular, genetics, tripartite, knoop, altwasser, brennicke, plants, transsplicing, genomic, related, discover, springer, optional, analysis, personal, parties, policy, find, track, general, mgg, angiosperm, cite, explore, exons, arabidopsis, bipartite, oenothera, region, sequence, rna, institution,
Topics {✒️}
month download article/chapter trans-splicing events mitochondrial genome angiosperm plant conventional cis-splicing trans-splicing post-transcriptional splicing related subjects related paralogues finds privacy choices/manage cookies article molecular bipartite intron arrangement full article pdf widespread intron retention arabidopsis involves european economic area scope submit manuscript independent rna precursors check access nascent rna contributes albert-einstein-allee 11 instant access conditions privacy policy major genomic locus distant genomic region accepting optional cookies mitochondrial genomes journal finder publish oenothera tripartite intron flowering plants 28 august 1996 / accepted article log intron region privacy policy personal data intron domains intron parts intron mobility article cite 11 nucleotide sequence books a article knoop optional cookies information manage preferences subscription content similar content data protection genomic disruption
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headline:A tripartite group II intron in mitochondria of an angiosperm plant
description: In mitochondria of flowering plants the nad5 open reading frame is assembled from five exons via two conventional cis-splicing and two trans-splicing events. Trans-splicing between exons c and d in wheat, petunia and Arabidopsis involves a bipartite group II intron structure, while in Oenothera a large portion of intron domains I–IV is missing from the major genomic locus. This intron region has been lost downstream of exon c and is now found in a distant genomic region. Intragenomic recombination across an 11 nucleotide sequence has separated these intron parts, which now have to be reassembled from three independent RNA precursors. This organisation coexists with highly substoichiometric copy numbers of the bipartite intron arrangement, consistent with an evolutionary origin of the tripartite intron by genomic disruption.
datePublished:
dateModified:
pageStart:269
pageEnd:276
sameAs:https://doi.org/10.1007/s004380050497
keywords:
Key words Group II introns
Plant mitochondria
Arabidopsis
Oenothera
Trans-splicing
Plant Genetics and Genomics
Human Genetics
Microbial Genetics and Genomics
Animal Genetics and Genomics
Biochemistry
general
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0026-8925
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headline:A tripartite group II intron in mitochondria of an angiosperm plant
description: In mitochondria of flowering plants the nad5 open reading frame is assembled from five exons via two conventional cis-splicing and two trans-splicing events. Trans-splicing between exons c and d in wheat, petunia and Arabidopsis involves a bipartite group II intron structure, while in Oenothera a large portion of intron domains I–IV is missing from the major genomic locus. This intron region has been lost downstream of exon c and is now found in a distant genomic region. Intragenomic recombination across an 11 nucleotide sequence has separated these intron parts, which now have to be reassembled from three independent RNA precursors. This organisation coexists with highly substoichiometric copy numbers of the bipartite intron arrangement, consistent with an evolutionary origin of the tripartite intron by genomic disruption.
datePublished:
dateModified:
pageStart:269
pageEnd:276
sameAs:https://doi.org/10.1007/s004380050497
keywords:
Key words Group II introns
Plant mitochondria
Arabidopsis
Oenothera
Trans-splicing
Plant Genetics and Genomics
Human Genetics
Microbial Genetics and Genomics
Animal Genetics and Genomics
Biochemistry
general
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