Genetic Analyses of Endoreduplication in Zea mays Endosperm: Evidence of Sporophytic and Zygotic Maternal Control

Genetic Analyses of Endoreduplication in Zea mays Endosperm: Evidence of Sporophytic and Zygotic Maternal Control

Brian P. Dilkes^a, Ricardo A. Dante^a, Cintia Coelho^a, and Brian A. Larkins^a
^a Department of Plant Sciences, University of Arizona, Tucson, Arizona 85721

Corresponding author: Brian A. Larkins, Rm. 303, Department of Plant Science, University of Arizona, Tucson, AZ 85721., larkins{at}ag.arizona.edu (E-mail)

Communicating editor: J. A. BIRCHLER

Flow cytometry was used to assess the variability of endoreduplicationin endosperms of maize inbred lines. Little variation was foundbetween midwestern dent types, and high levels of endoreduplicationwere observed in popcorns. Endoreduplication is different betweeninbred lines by 13–18 days after pollination, and flowcytometric analysis of ploidy level was feasible until 20 DAP.To study the genetic regulation of endoreduplication, four inbredswere crossed to B73 and developing endosperms from both parental,reciprocal F₁, and backcross generations were subjected to flowcytometric analysis. Three measurements of endoreduplicationwere calculated from these data and analyzed as quantitativegenetic traits. Multiple models of trait inheritance were consideredincluding triploid, diploid, sporophytic maternal, and maternaland paternal zygotic nuclear inheritance. Maternal zygotic effects,often considered a form of parental imprinting, and maternalsporophytic effects were detected. To test the feasibility ofintrogressing a high endoreduplication phenotype into a midwesterndent inbred line, a backcross population was generated fromB73 x Sg18. Parental and progeny endoreduplication levels werecompared and heritabilities assessed. The heritabilities calculatedfrom these data generally agree with the values calculated inthe larger crossing experiments.

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