Embryo and Endosperm Function and Failure inSolanumSpecies and Hybrids

doi:10.1006/anbo.1998.0695

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Annals of Botany 82: 445-453, 1998
© 1998 Annals of Botany Company

Embryo and Endosperm Function and Failure inSolanumSpecies and Hybrids

RICHARD N. LESTER and JUNG HOON KANG

School of Biological Sciences, University of Birmingham, B15 2TT, UK Genetic Resources Division, Agricultural Biotechnology Institute, Suweon, 414-707, Korea

February 6, 1998 ; April 16, 1998 . May 27, 1998 .

Although the importance of the endosperm as a food store inmany angiosperm seeds is well known, its significance duringearly embryogenesis has been neglected. In many interspecifichybrids, and in some other situations, embryos do not developfully and abort. It has often been stated that this is causedby the endosperm failing to conduct sufficient nutrients tothe embryo, but seldom has it been suggested that the endospermactively controls most of the early stages of morphogenesisof the embryo. Information gleaned from a broad survey of theliterature, combined with additional evidence presented here,obtained fromSolanum incanumand interspecific hybrids, indicatethat the endosperm is dynamic and very active in regulatingearly embryo development. This requires highly integrated geneticcontrol of rapidly changing metabolism in the endosperm. Ininterspecific hybrids, lack of coordination may cause unbalancedproduction of growth regulating substances by the endospermand hence abortion of the embryo, or even unregulated productionof nucleases and proteases resulting firstly in autolysis ofthe endosperm and then digestion of the embryo. The endospermmay thus serve to detect inappropriate hybridization of speciesor ploidy levels and so prevent waste of resources by producingseeds that would result in sterile hybrids or unthrifty subsequentgenerations. This discriminatory function of the endosperm hasdiminished during evolution and domestication of the crop plantSolanummelongenaL.Copyright 1998 Annals of Botany Company

Solanum, embryo morphogenesis, endosperm, hybrid, seed development.

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