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Keywords {🔍}

intron, article, cox, mitochondrial, plant, content, access, privacy, cookies, family, monocotyledonous, related, information, publish, search, molecular, plants, sequences, nuclear, ruscaceae, data, log, journal, research, genetics, genomics, loss, kudla, albertazzi, blazević, genes, evolution, families, found, group, open, discover, springer, optional, personal, parties, policy, find, track, utilization, construction, cite, hermann, bock, explore,

Topics {✒️}

article molecular genetics month download article/chapter plant organellar genes monocotyledonous plant families mitochondrial gene nad1 group ii intron privacy choices/manage cookies nuclear genome full article pdf conservative mitochondrial genes mitochondrial intron sequences european economic area scope submit manuscript phylogenetically conserved position cox2 coding region related paralogues finds albert-einstein-allee 11 conditions privacy policy molecular systematics accepting optional cookies evolution check access instant access main content log single monocot family mitochondrial cox2 journal finder publish related subjects cox2 intron 1 cox2 intron 2 article log nuclear intron privacy policy personal data information books a intron content article cite ruscaceae suggests article kudla optional cookies manage preferences cox2 locus species analyzed closely related spliceosomal intron intron mobility data protection genomics aims complementary genes

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         headline:Loss of the mitochondrial cox2 intron 1 in a family of monocotyledonous plants and utilization of mitochondrial intron sequences for the construction of a nuclear intron
         description: The intron content of plant organellar genes is a useful marker in molecular systematics and evolution. We have tested representatives of a wide range of monocotyledonous plant families for the presence of an intron (cox2 intron 1) in one of the most conservative mitochondrial genes, the cox2 locus. Almost all species analyzed were found to harbor a group II intron at a phylogenetically conserved position. The only exceptions were members of a single monocot family, the Ruscaceae: representatives of all genera in this family were found to lack cox2 intron 1, but instead harbor an intron in the 3′ portion of the cox2 coding region (cox2 intron 2). The presence of cox2 intron 1 in families of monocotyledonous plants that are closely related to the Ruscaceae suggests that loss of the intron is specific to this family and may have accompanied the evolutionary appearance of the Ruscaceae. Interestingly, sequences that are highly homologous to cox2 intron 2 are found in a nuclear intron in a lineage of monocotyledonous plants, suggesting that the originally mitochondrial group II intron sequence was transferred to the nuclear genome and reused there to build a spliceosomal intron.
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            cox2 Ruscaceae Intron Splicing Evolution Gene transfer
            Plant Genetics and Genomics
            Human Genetics
            Microbial Genetics and Genomics
            Animal Genetics and Genomics
            Biochemistry
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      headline:Loss of the mitochondrial cox2 intron 1 in a family of monocotyledonous plants and utilization of mitochondrial intron sequences for the construction of a nuclear intron
      description: The intron content of plant organellar genes is a useful marker in molecular systematics and evolution. We have tested representatives of a wide range of monocotyledonous plant families for the presence of an intron (cox2 intron 1) in one of the most conservative mitochondrial genes, the cox2 locus. Almost all species analyzed were found to harbor a group II intron at a phylogenetically conserved position. The only exceptions were members of a single monocot family, the Ruscaceae: representatives of all genera in this family were found to lack cox2 intron 1, but instead harbor an intron in the 3′ portion of the cox2 coding region (cox2 intron 2). The presence of cox2 intron 1 in families of monocotyledonous plants that are closely related to the Ruscaceae suggests that loss of the intron is specific to this family and may have accompanied the evolutionary appearance of the Ruscaceae. Interestingly, sequences that are highly homologous to cox2 intron 2 are found in a nuclear intron in a lineage of monocotyledonous plants, suggesting that the originally mitochondrial group II intron sequence was transferred to the nuclear genome and reused there to build a spliceosomal intron.
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         Plant Genetics and Genomics
         Human Genetics
         Microbial Genetics and Genomics
         Animal Genetics and Genomics
         Biochemistry
         general
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