Summary
The bz2-mu1 allele contains a 1.4 kb Mu element insertion in the open reading frame of the bronze-2 locus. This insertion suppresses gene activity. In an active Mutator line, however, the bz2-mu1 allele shows high somatic instability resulting in numerous purple spots of full gene activity against a beige background in the aleurone tissue of the kernel; restoration of gene activity results from excision of the Mu element. In contrast, in plants with an inactive Mutator system, uniformly bronze kernels are found, and the Mu element at bz2-mu1 is stabilized. Accompanying a loss of somatic instability, this Mu element, as well as the Mu elements elsewhere in the genome, have an increased level of DNA modification. Spontaneous reactivation of somatic instability in inactive Mutator lines rarely occurs; however, reactivation can be induced with gamma irradiation. Reactivated plants regain both the spotted kernel phenotype indicative of element excision from the bz2-mu1 reporter allele and diagnostic restriction sites within the Mu elements indicative of a hypomethylated state. The reactivated plants transmit these characters to their progeny. These data support the hypothesis that “genomic shock” can elicit cryptic transposable element activities in maize. Possible mechanisms for inactivation and reactivation of the Mutator transposable element system are also discussed.
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Communicated by H. Saedler
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Walbot, V. Reactivation of the Mutator transposable element system following gamma irradiation of seed. Mol Gen Genet 212, 259–264 (1988). https://doi.org/10.1007/BF00334694
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DOI: https://doi.org/10.1007/BF00334694