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Water deficit in developing endosperm of maize: cell division and nuclear DMA endoreduplication
Authors:T. S. ARTLIP  J. T. MADISON  T. L. SETTER
Affiliation:Department of Soil, Crop and Atmospheric Sciences, Cornell University, 5/7 Bradfield Hall, Ithaca, NY 14853, USA;U.S. Plant Soil and Nutrition Laboratory, U.S. Department of Agriculture, Agricultural Research Service, Ithaca, NY 14853, USA
Abstract:Water deficit severely decreases maize (Zea mays L.) kernel growth; the effect is most pronounced in apical regions of ears. The capacity for accumulation of storage material in endosperms is thought to he partially determined by the extent of cell division and endoreduplication (post-mitotic nuclear DNA synthesis). To gain a better understanding of the regulatory mechanisms involved, we have examined the effect of water deficit on cellular development during the post-fertilization period. Greenhouse-grown maize was subjected to water-limited treatments during rapid cell division [from 1 to 10days after pollination (DAP)] or rapid endoreduplication (9 to 15 DAP). The number of nuclei and the nuclear DNA content were determined with flow cytometry. Water deficit from 1 to 10 DAP substantially decreased the rate of endosperm cell division in apical-region kernels, but had little effect on middle-region endosperms. Rewatcring did not allow cell division to recover in apical-region endosperms. Water deficit from 9 to 15 DAP also decreased cell division in apical-region endosperms. Endoreduplication was not affected by the late treatment in either region of the car, but was inhibited by the early treatment in the apical region. In particular, the proportion of nuclei entering higher DN A-content size classes was reduced. We conclude that cell division is highly responsive to water deficit, whereas endoreduplication is less so. We also conclude that the reduced proportion of nuclei entering higher DNA-content size classes during endoreduplication is indicative of multiple control points in the mitotic and endoreduplication cycles.
Keywords:Zea mays L.    Poaceae    cell division    drought    endopolyploidy    endoreduplication    maize    water deficit
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