When genomes collide: aberrant seed development following maize interploidy crosses

Background and Aims: The results of wide- or interploidy crosses in angiosperms areunpredictable and often lead to seed abortion. The consequencesof reciprocal interploidy crosses have been explored in maizein detail, focusing on alterations to tissue domains in themaize endosperm, and changes in endosperm-specific gene expression. Methods: Following reciprocal interploidy crosses between diploid andtetraploid maize lines, development of endosperm domains wasstudied using GUS reporter lines, and gene expression in resultingkernels was investigated using semi-quantitative RT-PCR on endospermsisolated at different stages of development. Key Results: Reciprocal interploidy crosses result in very small, largelyinfertile seeds with defective endosperms. Seeds with maternalgenomic excess are smaller than those with paternal genomicexcess, their endosperms cellularize earlier and they accumulatesignificant quantities of starch. Endosperms from the reciprocalcross undergo an extended period of cell proliferation, andaccumulate little starch. Analysis of reporter lines and geneexpression studies confirm that functional domains of the endospermare severely disrupted, and are modified differently accordingto the direction of the interploidy cross. Conclusions: Interploidy crosses affect factors which regulate the balancebetween cell proliferation and cell differentiation within theendosperm. In particular, unbalanced crosses in maize affecttransfer cell differentiation, and lead to the temporal deregulationof the ontogenic programme of endosperm development.