Radi Abeer, Lange Theo, Niki Tomoya, Koshioka Masaji, Lange Maria João Pimenta
Institut für Pflanzenbiologie der Technischen Universität Braunschweig, D-38106 Braunschweig, Germany.
Plant Physiol. 2006 Feb;140(2):528-36. doi: 10.1104/pp.105.073668. Epub 2005 Dec 29.
Immature pumpkin (Cucurbita maxima) seeds contain gibberellin (GA) oxidases with unique catalytic properties resulting in GAs of unknown function for plant growth and development. Overexpression of pumpkin GA 7-oxidase (CmGA7ox) in Arabidopsis (Arabidopsis thaliana) resulted in seedlings with elongated roots, taller plants that flower earlier with only a little increase in bioactive GA4 levels compared to control plants. In the same way, overexpression of the pumpkin GA 3-oxidase1 (CmGA3ox1) resulted in a GA overdose phenotype with increased levels of endogenous GA4. This indicates that, in Arabidopsis, 7-oxidation and 3-oxidation are rate-limiting steps in GA plant hormone biosynthesis that control plant development. With an opposite effect, overexpression of pumpkin seed-specific GA 20-oxidase1 (CmGA20ox1) in Arabidopsis resulted in dwarfed plants that flower late with reduced levels of GA4 and increased levels of physiological inactive GA17 and GA25 and unexpected GA34 levels. Severe dwarfed plants were obtained by overexpression of the pumpkin GA 2-oxidase1 (CmGA2ox1) in Arabidopsis. This dramatic change in phenotype was accompanied by a considerable decrease in the levels of bioactive GA4 and an increase in the corresponding inactivation product GA34 in comparison to control plants. In this study, we demonstrate the potential of four pumpkin GA oxidase-encoding genes to modulate the GA plant hormone pool and alter plant stature and development.
未成熟的南瓜(笋瓜)种子含有具有独特催化特性的赤霉素(GA)氧化酶,可产生对植物生长和发育具有未知功能的赤霉素。在拟南芥中过表达南瓜GA 7-氧化酶(CmGA7ox),导致幼苗的根伸长,植株更高,开花更早,与对照植物相比,生物活性GA4水平仅略有增加。同样,南瓜GA 3-氧化酶1(CmGA3ox1)的过表达导致GA过量表型,内源性GA4水平增加。这表明,在拟南芥中,7-氧化和3-氧化是控制植物发育的GA植物激素生物合成中的限速步骤。与之相反,在拟南芥中过表达南瓜种子特异性GA 20-氧化酶1(CmGA20ox1),导致植株矮小,开花延迟,GA4水平降低,生理活性不高的GA17和GA25水平增加,且GA34水平出现意外变化。通过在拟南芥中过表达南瓜GA 2-氧化酶1(CmGA2ox1)获得了严重矮小的植株。与对照植物相比,这种显著的表型变化伴随着生物活性GA4水平的大幅下降以及相应失活产物GA34水平的增加。在本研究中,我们证明了四个南瓜GA氧化酶编码基因在调节GA植物激素库以及改变植株高度和发育方面的潜力。