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Genetics, Vol 147, 1339-1350, Copyright © 1997
INVESTIGATIONS |
New Insights Into the Role of the Maize ameiotic1 Locus
I. Golubovskaya, N. Avalkina and W. F. Sheridan
N. I. Vavilov Research Institute of Plant Industry, St. Petersburg, Russia
In maize the am1-1 mutant allele results in both the male and female meiocytes undergoing mitosis in place of the meiotic divisions. A second mutant allele am1-praI enables both the male and female meiocytes to proceed to the early zygotene stage of meiotic prophase I before being blocked. Here we report on three new alleles that allow all male meiocytes to undergo mitosis but in female meiocytes approximately one quarter (am1-2), one half (am1-485), or all (am1-489) of them are blocked at an abnormal interphase stage. Previous analysis has shown that am1-praI is dominant to am1-1 in male meiocytes. Cytological analysis of heteroallelic combinations in female meiocytes now indicates a dominance relationship of am1-praI > am1-1 > am1-2/am1-485 > am1-489. The evidence provided by the female phenotypes of the new mutant alleles suggest that, whereas the normal am1 allele is required for the meiocytes to proceed through meiosis, a partially functional allele may be required for their diversion into a mitotic division. The partial or complete blockage of mitosis in female meiocytes carrying the new am1 alleles rules out the possibility that the mitotic division of mutant meiocytes reflects a simple default pathway for cells that cannot initiate meiosis. This locus may have a dual function.
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