Abstract
Excessive gibberellin (GA) signalling, mediated through the DELLA proteins, has a negative impact on plant fertility. Loss of DELLA activity in the monocot rice (Oryza sativa) causes complete male sterility, but not in the dicot model Arabidopsis (Arabidopsis thaliana) ecotype Landsberg erecta (Ler), in which DELLA function has been studied most extensively, leading to the assumption that DELLA activity is not essential for Arabidopsis pollen development. A novel DELLA fertility phenotype was identified in the Columbia (Col-0) ecotype that necessitates re-evaluation of the general conclusions drawn from Ler. Fertility phenotypes were compared between the Col-0 and Ler ecotypes under conditions of chemical and genetic GA overdose, including mutants in both ecotypes lacking the DELLA paralogues REPRESSOR OF ga1-3 (RGA) and GA INSENSITIVE (GAI). Ler displays a less severe fertility phenotype than Col-0 under GA treatment. Col-0 rga gai mutants, in contrast with the equivalent Ler phenotype, were entirely male sterile, caused by post-meiotic defects in pollen development, which were rescued by the reintroduction of DELLA into either the tapetum or developing pollen. We conclude that DELLA activity is essential for Arabidopsis pollen development. Differences between the fertility responses of Col-0 and Ler might be caused by differences in downstream signalling pathways or altered DELLA expression.
Highlights
The phytohormone gibberellin (GA) regulates stamen development in numerous flowering plants (Pharis & King, 1985)
DELLA-dependent transcriptional regulation is mediated through protein–protein interactions with multiple classes of transcription factors, the first described example of this being the sequestration of PHYTOCHROME INTERACTING FACTOR (PIF)3 and PIF4 to inhibit hypocotyl elongation during photomorphogenesis
We report the creation of a novel rga gai lossof-function mutant in the Col-0 ecotype, rga-28 gai-td1, which display complete male sterility, contrary to the phenotype of Landsberg erecta (Ler) DELLA mutants
Summary
The phytohormone gibberellin (GA) regulates stamen development in numerous flowering plants (Pharis & King, 1985). GA signalling in rice anthers acts through the transcription factor OsGAMYB (Aya et al, 2009), with downstream targets regulating tapetum secretory functions and programmed cell death (PCD). GA signalling acts through the degradation of DELLA proteins (reviewed in Harberd et al, 2009; Ueguchi-Tanaka & Matsuoka, 2010; Sun, 2010), a class of transcriptional regulators belonging to the GRAS (for GA INSENSITIVE (GAI), REPRESSOR OF ga (RGA) and SCARECROW (SCR)) superfamily (Pysh et al, 1999) that otherwise inhibit GA-dependent changes in the expression of downstream target genes (Cao et al, 2006; Zentella et al, 2007; Hou et al, 2008). DELLA-dependent transcriptional regulation is mediated through protein–protein interactions with multiple classes of transcription factors, the first described example of this being the sequestration of PHYTOCHROME INTERACTING FACTOR (PIF) and PIF4 to inhibit hypocotyl elongation during photomorphogenesis (de Lucas et al, 2008; Feng et al, 2008)
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