Gene conversion within regulatory sequences generates maize r alleles with altered gene expression.

The maize r locus encodes a transcription factor that regulates the developmental expression of the plant pigment anthocyanin. In an unusual example of gene regulatory diversity, the R-sc (Sc, strong seed color) and the R-p (P, plant color) alleles of r have nonoverlapping tissue specificity and nonhomologous 5' flanking sequences. Heterozygotes between wild-type P and Sc mutants with Ds6 transposable element inserts (r-sc:m::Ds6 or sc:m) produce colored seed derivatives (Sc+) during meiotic recombination. The sc:m alleles with Ds6 insertion in 3' regions of r produce crossover Sc+ derivatives. sc:m alleles with Ds6 elements inserted in 5' regions produce rare Sc+ derivatives borne on nonrecombinant chromosomes. Among 52 such noncrossover Sc+ derivatives, 18 are indistinguishable from the Sc progenitor in phenotype and DNA sequence [Scp(+) alleles]. The remaining 34 derivatives have strong Sc+ expression, including darkly pigmented aleurone, scutellum, coleoptile, and scutellar node [Scp(e) alleles]. The coleoptile and scutellar node phenotypes are unique from either progenitor but are similar to those of some naturally occurring r alleles. Both classes of Sc+ derivatives are explained by gene conversion between the promoter region of Sc:124 and a homologous region located proximal to P. The recombinational intermediate formed between sc:m alleles and P results in deletion of the Ds6 element alone or both Ds6 and a nearby unrelated transposable element-like sequence.