sg:pub.10.1007/bf00318475 - Springer Nature SciGraph

Article Info

DATE

1992-02

AUTHORS

ABSTRACT

The Fo-ATPase subunit 6 gene (atp6) of rapeseed mitochondria has been isolated from both pol male-sterile and normal (fertile) cytoplasms in order to determine whether the rearrangements around the atp6 locus in pol male-sterile cytoplasm play a role in cytoplasmic male-sterility (cms). The pol cms and normal atp6 genes are identical and encode a 261-amino acid polypeptide. As a result of extensive rearrangement, a novel reading frame (pol-urf) was generated upstream of the atp6 gene only in pol cms mitochondria, which encoded 105 amino acids and might be co-transcribed with atp6. A 5'-portion of pol-urf shows sequence homology to the Oenothera ORFB gene associated with coxIII. A 5'-flanking region of the pol-urf also shows homology to that of ORF105 in Ogura cms radish mitochondria. These DNA rearrangements which give rise to pol-urf in the vicinity of the atp6 locus may be responsible for cms in rapeseed. More... »

PAGES

153-159

References to SciGraph publications

1987-11. The ATPase subunit 6 gene of tobacco mitochondria contains an unusual sequence in CURRENT GENETICS

1991-04. Molecular analyses of the CMS-inducing ‘Polima’ cytoplasm in Brassica napus L. in CURRENT GENETICS

1990-11. The cytochrome oxidase subunit III gene in sunflower mitochondria is cotranscribed with an open reading frame conserved in higher plants in CURRENT GENETICS

1972-10. Cytoplasmic male-sterility in oil-seed rape in HEREDITY

1988-12. Plant mitochondrial DNA evolved rapidly in structure, but slowly in sequence in JOURNAL OF MOLECULAR EVOLUTION

1990-10. A chimeric gene containing the 5′ portion of atp6 is associated with cytoplasmic male-sterility of rice in MOLECULAR GENETICS AND GENOMICS

1990-11. Characterization of radish mitochondrial atpA: influence of nuclear background on transcription of atpA-associated sequences and relationship with male sterility in PLANT MOLECULAR BIOLOGY

1984-02. Tripartite structure of the Brassica campestris mitochondrial genome in NATURE

Journal

TITLE

Current Genetics

ISSUE

VOLUME

Subjects

FOR: Genetics

FOR: Biological Sciences

MESH: Amino Acid Sequence

MESH: Base Sequence

MESH: Blotting, Southern

MESH: Brassica

MESH: Cloning, Molecular

MESH: Cytoplasm

MESH: Dna

MESH: Genes, Pol

MESH: Mitochondria

MESH: Molecular Sequence Data

MESH: Open Reading Frames

MESH: Proton-Translocating Atpases

MESH: Reproduction

MESH: Restriction Mapping

MESH: Sequence Alignment

MESH: Transcription, Genetic

Author Affiliations

National Institute of Agrobiological Sciences

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/bf00318475

DOI

http://dx.doi.org/10.1007/bf00318475

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1042935175

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/1533177

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51	″	schema:description	The Fo-ATPase subunit 6 gene (atp6) of rapeseed mitochondria has been isolated from both pol male-sterile and normal (fertile) cytoplasms in order to determine whether the rearrangements around the atp6 locus in pol male-sterile cytoplasm play a role in cytoplasmic male-sterility (cms). The pol cms and normal atp6 genes are identical and encode a 261-amino acid polypeptide. As a result of extensive rearrangement, a novel reading frame (pol-urf) was generated upstream of the atp6 gene only in pol cms mitochondria, which encoded 105 amino acids and might be co-transcribed with atp6. A 5'-portion of pol-urf shows sequence homology to the Oenothera ORFB gene associated with coxIII. A 5'-flanking region of the pol-urf also shows homology to that of ORF105 in Ogura cms radish mitochondria. These DNA rearrangements which give rise to pol-urf in the vicinity of the atp6 locus may be responsible for cms in rapeseed.
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