Structural Features and Methylation Patterns Associated With Paramutation at the r1 Locus of Zea mays

Structural Features and Methylation Patterns Associated With Paramutation at the r1 Locus of Zea mays

Elsbeth L. Walker^a and Tadas Panavas^a
^a Biology Department, University of Massachusetts, Amherst, Massachusetts 01003

Corresponding author: Elsbeth L. Walker, Biology Department, 611 N. Pleasant St., University of Massachusetts, Amherst, MA 01003., ewalker{at}bio.umass.edu (E-mail)

Communicating editor: J. A. BIRCHLER

In paramutation, two alleles of a gene interact and, duringthe interaction, one of them becomes epigenetically silenced.The various paramutation systems that have been studied to dateexhibit intriguing differences in the physical complexity ofthe loci involved. B and Pl alleles that participate in paramutationare simple, single genes, while the R haplotypes that participatein paramutation contain multiple gene copies and often includerearrangements. The number and arrangement of the sequencesin particular complex R haplotypes have been correlated withparamutation behavior. Here, the physical structures of 28 additionalhaplotypes of R were examined. A specific set of physical featuresis associated with paramutability (the ability to be silenced).However, no physical features were strongly correlated withparamutagenicity (the ability to cause silencing) or neutrality(the inability to participate in paramutation). Instead, paramutagenichaplotypes were distinguished by high levels of cytosine methylationover certain regions of the genes while neutral haplotypes weredistinguished by lack of C-methylation over these regions. Thesefindings suggest that paramutability of r1 is determined bythe genetic structure of particular haplotypes, while paramutagenicityis determined by the epigenetic state.

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