Molecular and Genetic Characterization of Mu Transposable Elements in Zea Mays: Behavior in Callus Culture and Regenerated Plants

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Active Mutator lines of maize (Zea mays L.) have a high mutation rate and contain multiple hypomethylated 1.4-kb and 1.7-kb Mu transposable elements. Correlated with the inactivation of the Mutator system, these Mu elements cease to transpose and become more methylated. To determine whether the shock of tissue culture can affect Mutator activities, F(1) progenies of outcrosses between active or inactive Mutator stocks and inbred line Al88 were used to initiate embryogenic callus cultures. HinfI restriction digestion of genomic DNA isolated from 3-5-month-old cultures demonstrated that there is a very good correlation between the modification state of Mu elements in the cultures and the Mutator parent. Despite the dedifferentiation and rapid proliferation characteristic of tissue culture, the Mutator activity state is relatively stable during an extended tissue culture period. Cultures established from inactive Mutator lines were not reactivated; cultures established from active lines maintained a high Mu copy number, and most Mu elements remained unmodified. In contrast, weakly active Mutator parents gave rise to cultures in which Mu element modification could switch between low and high methylation during the culture period. Evidence for transposition was investigated with EcoRI digestion of genomic DNA isolated at different times during culture. The appearance of novel Mu-hybridizing fragments and a strong background hybridization are interpreted as evidence that transposition events occur during culture. Plants regenerated from such active cultures transmitted Mutator activity to their progeny.

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