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KMID : 0613819980080010008
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Journal of Life Science
1998 Volume.8 No. 1 p.8 ~ p.13
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Identification of mitochondrial mutant (NADH-dehydrogenase) using PCR method and regeneration of mutants from Zea mays
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Abstract
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The maize mitochondrial mutant (NCS2) is derived from homologous recombination between genes encoding NADH dehydrogenase subunit 4 and subunit 6. Plants from mitochondria mutants exhibited severe related growth and development including dwarfism and striping on the leaves. Aborted embryos from NCS2 mutants have been rescued and cultured on the N6 medium supplemented with 2,4-D 1 mg/l. Most calli from NCS2 aborted embryos showed slow growing pattern at first stage. However, upon continuous culturing them on the medium, those were segregated into mutant and normal callus lines. These segregations could be detected by using PCR method with three primers. Such segregation seems to be resulted from the preferential growth of normal cells over the mutant cells on the normal culture condition. Therefore, this method can be used for determining rate of indirect cytoplasmic segregation by estimating amplified band intensities. When NCS2 mutant callus lines cultured on regeneration medium, no adventitious shoot induction was observed. However, callus lines with more mitochondria induced adventitious shoots. These studies suggest that mitochondria NADH-dehydrogenase for electron transport in the inner membrane of mitochondria is essential for the differentiation and development of plants.
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