Interaction Between Maternal Effect and Zygotic Effect Mutations During Maize Seed Development

Interaction Between Maternal Effect and Zygotic Effect Mutations During Maize Seed Development

Matthew M. S. Evans^a and Jerry L. Kermicle^a
^a Laboratory of Genetics, University of Wisconsin, Madison, Wisconsin 53706

Corresponding author: Matthew M. S. Evans, Laboratory of Genetics, 445 Henry Mall, University of Wisconsin, Madison, WI 53706., mmevans{at}facstaff.wisc.edu (E-mail)

Communicating editor: J. A. BIRCHLER

Double fertilization of the embryo sac by the two sperm cellsof a pollen grain initiates seed development. Proper developmentof the seed depends not only on the action of genes from theresulting embryo and endosperm, but also on maternal genes actingat two stages. Mutations with both sporophytic maternal effectsand gametophytic maternal effects have been identified. A newmaternal effect mutation in maize, maternal effect lethal1 (mel1),causes the production of defective seed from mutant female gametophytes.It shows reduced pollen transmission, suggesting a requirementin the male gametophyte, but has no paternal effect on seeddevelopment. Interestingly, the defective kernel phenotype ofmel1 is conditioned only in seeds that inherit mel1 maternallyand are homozygous for the recessive allele (endogenous to theW22 inbred line) of either of two genes, sporophyte enhancerof mel1 (snm1) or snm2, suggesting redundancy between maternallyand zygotically required genes. Both mel1 and snm1 map to theshort arm of chromosome 2, and snm2 maps to the long arm ofchromosome 10. The mode of action of mel1 and the relationshipbetween mel1 and snm1 and snm2 are discussed.

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