M. F. Conde scite author profile

Chloroplast and mitochondrial DNAs from six races of annual teosinte (Guatemala, Huehuetenango, Balsas, Central Plateau, Chalco, and Nobogame), perennial teosinte, and maize were compared and grouped by restriction endonuclease fragment analyses. Three groups of chloroplast DNAs were detected: ( i ) perennial teosinte and Guatemala; ( ii ) Balsas and Huehuetenango; and ( iii ) all other teosintes. Four groups of mitochondrial DNAs were separated: ( i ) perennial teosinte; ( ii ) Guatemala; ( iii ) Nobogame; and ( iv ) all other teosintes. Separation of the teosinte and maize organelle DNAs into five groups (Guatemala; perennial teosinte; Balsas and Huehuetenango; Central Plateau and Chalco; Nobogame and maize) approximated the biosystematic relationships of the taxa. It was suggested that the evolutions of the chloroplast and mitochondrial DNAs may be independent of each other, that variation of organelle DNA within a species complex of an organism may be the common condition, and that the DNAs of the organelle and nuclear systems evolve in reasonable harmony.

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Mitochondrial DNA variation in maize plants regenerated during tissue culture selection

Gengenbach

Connelly

Pring

et al. 1981

Theoret. Appl. Genetics

160

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Plants resistant to Helminthosporium maydis race T were obtained following selection for H. maydis pathotoxin resistance in tissue cultures of susceptible, Texas male-sterile (T) cytoplasm maize. The selected lines transmitted H. maydis resistance to their sexual progeny as an extranuclear trait. Of 167 resistant, regenerated plants, 97 were male fertile and 70 were classified male sterile for reasons that included abnormal plant, tassel, anther or pollen development. No progeny were obtained from these male-sterile, resistant plants. Male fertility and resistance to the Phyllosticta maydis pathotoxin that specifically affects T cytoplasm maize were co-transmitted with H. maydis resistance to progeny of male-fertile, resistant plants. These three traits previously were associated only with the normal (N) male-fertile cytoplasm condition in maize. Three generations of progeny testing provided no indication that the cytoplasmic association of male sterility and toxin susceptibility had been broken by this selection and regeneration procedure. Restriction endonuclease analysis of mitochondrial DNA (mtDNA) revealed that three selected, resistant lines had distinct mtDNA organization that distinguished them from each other, from T and from N cytoplasm maize. Restriction patterns of the selected resistant lines were similar to those from T cytoplasm mtDNA; these patterns had not been observed in any previous analyses of various sources of T cytoplasm. The mtDNA analyses indicated that the male-fertile, toxin-resistant lines did not originate from selection of N mitochondrial genomes coexisting previously with T genomes in the T cytoplasm line used for selection.

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Maternal inheritance of organelle DNA's in Zea mays-Zea perennis reciprocal crosses

Conde

Pring

Levings

1979

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M. F. Conde

Functioning and Variation of Cytoplasmic Genomes: Lessons from Cytoplasmic–Nuclear Interactions Affecting Male Fertility in Plants

Cytoplasmic Reversion of cms-S in Maize: Association with a Transpositional Event

Organelle DNA variation and systematic relationships in the genus Zea : Teosinte

Mitochondrial DNA variation in maize plants regenerated during tissue culture selection

Maternal inheritance of organelle DNA's in Zea mays-Zea perennis reciprocal crosses

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