Genetic analysis of B-Peru, a regulatory gene in maize.

Abstract

The B locus in maize is required for the accumulation of anthocyanin pigments. Numerous B alleles have been described: each determines a particular pattern of pigment synthesis with respect to the tissues that are pigmented and the time during development that pigment synthesis begins. We report here a genetic analysis of one B allele, B-Peru, which regulates synthesis of pigments in both kernel and plant tissues. We used stocks with active Mutator transposable elements to produce eight mutations in B-Peru. All eight alter pigment synthesis in all the kernel and plant tissues pigmented by B-Peru, suggesting that each mutation has disrupted a region of the gene required for expression in all tissues. Six of the mutations cause a colorless phenotype, while two cause a reduction in pigment in both kernel and plant tissues. Four of the mutations are unstable, and four are stable upon self-pollination. Multiple independent revertants were isolated from each unstable allele. DNA blot analysis demonstrated that all eight mutants are the result of insertions within an approximately 5-kb region that encodes the B-Peru transcript. One of the four unstable alleles contains a Mu element, Mu1.7. Two others contain insertions related to the Spm family of transposable elements. Thus, our Mutator stocks also contained active transposable elements from the unrelated Spm family. Our experiments suggest that the B-Peru allele is not complex, but contains a single coding region that regulates pigment synthesis in multiple tissues.