Developmental Patterns of Chromatin Structure and DNA Methylation Responsible for Epigenetic Expression of a Maize Regulatory Gene

Developmental Patterns of Chromatin Structure and DNA Methylation Responsible for Epigenetic Expression of a Maize Regulatory Gene

Owen A. Hoekenga^a, Michael G. Muszynski^a, and Karen C. Cone^a
^a Division of Biological Sciences, University of Missouri, Columbia, Missouri 65211

Corresponding author: Karen C. Cone, 101 Tucker Hall, University of Missouri, Columbia, MO 65211., conek{at}missouri.edu (E-mail)

Communicating editor: V. SUNDARESAN

Epigenetic regulatory mechanisms heritably alter patterns ofgene expression without changes in DNA sequence. Epigeneticstates are often correlated with developmentally imposed alterationsin genomic DNA methylation and local chromatin structure. Pl-Blotchedis a stable epigenetic allele of the maize anthocyanin regulatorygene, purple plant1(pl). Pl-Blotched plants display a variegatedpattern of pigmentation that contrasts sharply with the uniformlydark purple pigmentation of plants carrying the dominant Pl-Rhoadesallele. Previously, we showed that the lower level of pigmentationin Pl-Blotched is correlated with lower pl mRNA levels and increasedDNA methylation at some sites. To explore how DNA methylation,chromatin structure, and developmental stage might contributeto the expression of Pl-Blotched, we used methylation-sensitiverestriction enzymes and DNaseI sensitivity assays to comparethe methylation status and chromatin structure of Pl-Blotchedand Pl-Rhoades at different stages in development. Both allelesexhibit developmentally sensitive changes in methylation. InPl-Blotched, methylation of two diagnostic HpaII/MspI sitesincreases progressively, coincident with the juvenile-to-adulttransition in growth. In seedlings, the chromatin encompassingthe coding region of the gene is less sensitive to DNaseI digestionin Pl-Blotched than in Pl-Rhoades. Developmental maturationfrom seedling to adult is accompanied by expansion of this closedchromatin domain to include the promoter and downstream flankingsequences. We provide evidence to show that chromatin structure,rather than DNA methylation, is the primary epigenetic determinantfor the phenotypic differences between Pl-Blotched and Pl-Rhoades.

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