Spatiotemporal regulation of gene expression plays an important role in developmental timing in plants and animals. FUSCA3 regulates the transition between different phases of development by acting as a link between different hormonal pathways in Arabidopsis. However, the mechanisms governing its spatiotemporal expression patterns are poorly understood. Here, we show that FUS3 is expressed in the chalaza and funiculus of the mature ovule and seed, but is repressed in the embryo sac, integuments and endosperm. FUS3 repression requires class I BASIC PENTACYSTEINE (BPC) proteins, which directly bind to the FUS3 locus and restrict its expression pattern. During vegetative and reproductive development, derepression of FUS3 in bpc1/2 or pML1:FUS3 misexpression lines results in dwarf plants carrying defective flowers and aborted ovules. Post-fertilization, ectopic FUS3 expression in the endosperm increases endosperm nuclei proliferation and seed size and delays or arrests embryo development. These phenotypes are rescued in bpc1/2 fus3-3. Lastly, class I BPCs interact with FIS-PRC2 (FERTILIZATION-INDEPENDENT SEED-Polycomb Repressive Complex 2), which represses FUS3 in the endosperm. We propose that BPC1/2 promotes the transition from reproductive to seed development by repressing FUS3 in ovule integuments. After fertilization, BPC1/2 and FIS-PRC2 repress FUS3 in the endosperm to coordinate endosperm and embryo growth.
Spatiotemporal restriction of FUSCA3 expression by class I BPC promotes ovule development and coordinates embryo and endosperm growth / J. Wu, R. Petrella, S. Dowhanik, V. Gregis, S. Gazzarrini. - (2019 Apr 19). [10.1101/612408]
Spatiotemporal restriction of FUSCA3 expression by class I BPC promotes ovule development and coordinates embryo and endosperm growth
R. PetrellaSecondo
;V. GregisPenultimo
;
2019
Abstract
Spatiotemporal regulation of gene expression plays an important role in developmental timing in plants and animals. FUSCA3 regulates the transition between different phases of development by acting as a link between different hormonal pathways in Arabidopsis. However, the mechanisms governing its spatiotemporal expression patterns are poorly understood. Here, we show that FUS3 is expressed in the chalaza and funiculus of the mature ovule and seed, but is repressed in the embryo sac, integuments and endosperm. FUS3 repression requires class I BASIC PENTACYSTEINE (BPC) proteins, which directly bind to the FUS3 locus and restrict its expression pattern. During vegetative and reproductive development, derepression of FUS3 in bpc1/2 or pML1:FUS3 misexpression lines results in dwarf plants carrying defective flowers and aborted ovules. Post-fertilization, ectopic FUS3 expression in the endosperm increases endosperm nuclei proliferation and seed size and delays or arrests embryo development. These phenotypes are rescued in bpc1/2 fus3-3. Lastly, class I BPCs interact with FIS-PRC2 (FERTILIZATION-INDEPENDENT SEED-Polycomb Repressive Complex 2), which represses FUS3 in the endosperm. We propose that BPC1/2 promotes the transition from reproductive to seed development by repressing FUS3 in ovule integuments. After fertilization, BPC1/2 and FIS-PRC2 repress FUS3 in the endosperm to coordinate endosperm and embryo growth.File | Dimensione | Formato | |
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