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GrainGenes Reference Report: JPY-158-439

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Reference	JPY-158-439
Title	Genetic control mechanisms regulating the initiation of germination
Journal	Journal of Plant Physiology
Year	2001
Volume	158
Pages	439-445
Author	Holdsworth M [ Show all 9 ]
Abstract	Summary: Genetic analysis of the transition from embryogenesis to germination has shown that these processes are under strict sequential, mutually exclusive, control. Understanding the regulation of this phase transition should provide important approaches to new technologies that can be used to improve seed quality traits in crop plants. The developmental disorder pre-harvest sprouting (PHS) in cereals and pre-germination of seeds in the pods of oilseed rape are significant agronomic problems, that occur when seeds develop under cool moist environmental conditions. Phenotypically, pre-germination of seeds on the mother plant is similar to the severe maize and Arabidopsis mutations viviparous1 (vp1), and abscisic acid insensitive3 (abi3). The corresponding loci encode homologous transcription factors that simultaneously activate embryo maturation and repress germination. We have analysed gene expression programmes in wheat embryos under conditions that induce PHS, and have analysed in detail the structure and expression of wheat Vp1 homeologues. These analyses show that both maturation and germination genes are expressed simultaneously in embryos grown under cool moist conditions, and that the majority of VP1 transcripts expressed in the cytoplasm during normal embryo maturation are not correctly spliced. These results suggest that under perturbed environmental conditions wheat may not express enough functional VP1 activity to repress germination. This hypothesis is currently being tested using transgenic approaches. Repression of germination by ABI3 and other loci in Arabidopsis indicates that these factors interact with loci that enhance germination potential. Using a novel genetic screen to search for regulators of germination, we have identified the COMATOSE (CTS) locus. Genetic and physiological analyses show that CTS regulates germination potential by enhancing after ripening, sensitivity to gibberellins and pre-chilling, and by repressing the activities of loci that activate embryo maturation
Keyword	[ Hide all but 1 of 57 ] abi3 gene abscisic acid after ripening arabidopsis arabidopsis thaliana comatose crop plants cytoplasm dormancy embryo embryogenesis environmental gene gene expression genetic analysis genetic control germination gibberellin hexaploid wheat hypothesis interact late embryo development late embryogenesis leafy cotyledon1 loci locus maize maturation mechanism mutation oilseed rape ph phase pods pre-harvest sprouting quality quality traits rape regulation regulator repression ripening search seed seed maturation seed quality sensitivity sprouting structure transcript transcription transcription factor transgenic transition viviparous-1 vivparous-1 wheat embryos

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