The maize regulatory gene B-Peru contains a DNA rearrangement that specifies tissue-specific expression through both positive and negative promoter elements.

The B-Peru allele of the maize b regulatory gene is unusual relative to most b alleles in that it is expressed in the aleurone layer of the seed. It is also expressed in a subset of plant vegetative tissues. Transgenic maize plants containing the B-Peru gene with the first 710 bases of upstream sequence conferred the same levels of aleurone expression as nontransgenic B-Peru plants, but no pigment was made in vegetative tissues. Transient transformation assays in aleurone tissue localized the aleurone-specific promoter to the first 176 bases of the B-Peru upstream region and identified two critically important regions within this fragment. Mutation of either region alone reduced expression greater than fivefold. Surprisingly, the double mutation actually increased expression to twice the native promoter level. Our results suggest that these two critical sequences, which lie close together in the promoter, may form a negative regulatory element. Several lines of evidence suggest that the B-Peru promoter arose through the translocation of an existing aleurone-specific promoter to the b locus. Immediately upstream of the aleurone-specific promoter elements and in the opposite orientation to the b coding sequence is a pseudogene sequence with strong similarity to a known class of proteins. Our findings that novel aleurone-specific promoter sequences of the B-Peru transcription factor are found adjacent to part of another gene in a small insertion are quite unexpected and have interesting evolutionary implications.