Paramutation Alters Regulatory Control of the Maize pl Locus

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Paramutation Alters Regulatory Control of the Maize pl Locus

Jay B. Hollick^a, Garth I. Patterson^a, Ingrid M. Asmundsson^a, and Vicki L. Chandler^b
^a Institute of Molecular Biology, University of Oregon, Eugene, Oregon 97403-1229
^b Department of Plant Sciences, University of Arizona, Tucson, Arizona 85721

Corresponding author: Vicki L. Chandler, Department of Plant Sciences, 303 Forbes Hall, University of Arizona, Tucson, AZ 85721., chandler{at}ag.arizona.edu (E-mail)

Communicating editor: J. A. BIRCHLER

The maize purple plant (pl) locus encodes a transcription factorrequired for anthocyanin pigment synthesis in vegetative andfloral tissues. The strongly expressed Pl-Rhoades (Pl-Rh) alleleis unstable, spontaneously changing to weaker expression states(Pl') at low frequencies and exclusively changing to Pl' inPl'/Pl-Rh heterozygotes. The weakly expressed Pl' state is mitoticallyand meiotically stable, yet reversible. This type of allele-dependent,heritable alteration of gene control is called paramutation.Expression studies herein demonstrate that visible differencesin anthocyanin pigment levels mirror pl RNA abundance and thatpl paramutation is associated with reduced transcription ofthe pl gene. This transcriptional alteration is accompaniedby acquisition of light-dependent regulation. Restriction endonucleasemapping indicates that these changes in pl gene regulation arenot associated with detectable DNA alterations or with extensivechanges in cytosine methylation patterns. Genetic tests showthat Pl-Blotched (Pl-Bh), a structurally similar pl allele encodingan identical pl RNA and PL protein, does not participate inpl paramutation. This result suggests that if cis-acting sequencesare required for pl paramutation they are distinct from theprotein coding and immediately adjacent regions. A model isdiscussed in which pl paramutation results in heritable changesof chromatin structure that fundamentally alter regulatory interactionsoccurring during plant development.

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