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doi:10.1534/genetics.106.066134
A more recent version of this article appeared on March 1, 2007.
REGULAR RESEARCH PAPERS |
Epigenetic modifications of distinct sequences of the p1 regulatory gene specify tissue-specific expression patterns in maize
Rajandeep S Sekhon 1, Thomas Peterson 2 and Surinder Chopra 1*
1 Pennsylvania State University
2 Iowa State University
* To whom correspondence should be addressed. E-mail: sic3{at}psu.edu.
Submitted on September 20, 2006
Revised on November 13, 2006
Accepted on 5 December 2006
Tandemly repeated endogenous genes are common in plants, but their transcriptional regulation is not well characterized. In maize, the P1-wr allele of pericarp color1 is composed of multiple copies arranged in a head to tail fashion. P1-wr confers a white kernel pericarp and red cob glume pigment phenotype which is stably inherited over generations. To understand the molecular mechanisms that regulate tissue-specific expression of P1-wr, we have characterized P1-wr*, a spontaneous loss-of-function epimutation that shows a white kernel pericarp and white cob glume phenotype. As compared to its progenitor P1-wr, the P1-wr* is hypermethylated in exon 1 and intron 2 regions. In the presence of the epigenetic modifier Ufo1 (Unstable factor for orange 1), P1-wr* plants exhibit a range of cob glume pigmentation whereas pericarps remain colorless. In these plants, the level of cob pigmentation directly correlates with the degree of DNA demethylation in the intron 2 region of p1. Further, genomic bisulfite sequencing indicates that a 168 bp region of intron 2 is significantly hypomethylated in both CG and CNG context in P1-wr* Ufo1 plants. Interestingly, P1-wr* Ufo1 plants did not show any methylation change in a distal enhancer region that has previously been implicated in Ufo1-induced gain of pericarp pigmentation of the P1-wr allele. These results suggest that distinct regulatory sequences in the P1-wr promoter and intron 2 regions can undergo independent epigenetic modifications to generate tissue-specific expression patterns.
Key Words: DNA methylation, Epiallele, Intron, Myb, Tissue-specific
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