Lange Theo, Kappler Jeannette, Fischer Andreas, Frisse Andrea, Padeffke Tania, Schmidtke Sabine, Lange Maria João Pimenta
Institut für Pflanzenbiologie der Technischen Universität Braunschweig, Germany.
Plant Physiol. 2005 Sep;139(1):213-23. doi: 10.1104/pp.105.064162. Epub 2005 Aug 26.
A gibberellin (GA) biosynthetic pathway was discovered operating in root tips of 7-d-old pumpkin (Cucurbita maxima) seedlings. Stepwise analysis of GA metabolism in cell-free systems revealed the conversion of GA(12)-aldehyde to bioactive GA(4) and inactive GA(34). Highest levels of endogenous GA(4) and GA(34) were found in hypocotyls and root tips of 3-d-old seedlings. cDNA molecules encoding two GA oxidases, CmGA20ox3 and CmGA3ox3, were isolated from root tips of 7-d-old LAB150978-treated seedlings. Recombinant CmGA20ox3 fusion protein converted GA(12) to GA(9), GA(24) to GA(9), GA(14) to GA(4), and, less efficiently, GA(53) to GA(20), and recombinant CmGA3ox3 protein oxidized GA(9) to GA(4). Transcript profiles were determined for four GA oxidase genes from pumpkin revealing relatively high transcript levels for CmGA7ox in shoot tips and cotyledons, for CmGA20ox3 in shoot tips and hypocotyls, and for CmGA3ox3 in hypocotyls and roots of 3-d-old seedlings. Transcripts of CmGA2ox1 were mainly found in roots of 7-d-old seedlings. In roots of 7-d-old seedlings, transcripts of CmGA7ox, CmGA20ox3, and CmGA3ox3 were localized in the cap and the rhizodermis by in situ hybridization. We conclude that hypocotyls and root tips are important sites of GA biosynthesis in the developing pumpkin seedling.
在7日龄南瓜(西葫芦)幼苗的根尖中发现了一条赤霉素(GA)生物合成途径。在无细胞体系中对GA代谢进行逐步分析,揭示了GA(12)-醛向生物活性GA(4)和无活性GA(34)的转化。在3日龄幼苗的下胚轴和根尖中发现了最高水平的内源性GA(4)和GA(34)。从7日龄LAB150978处理的幼苗根尖中分离出编码两种GA氧化酶CmGA20ox3和CmGA3ox3的cDNA分子。重组CmGA20ox3融合蛋白将GA(12)转化为GA(9)、GA(24)转化为GA(9)、GA(14)转化为GA(4),并且将GA(53)转化为GA(20)的效率较低,重组CmGA3ox3蛋白将GA(9)氧化为GA(4)。测定了南瓜中四个GA氧化酶基因的转录谱,结果显示,在茎尖和子叶中,CmGA7ox的转录水平相对较高;在茎尖和下胚轴中,CmGA20ox3的转录水平相对较高;在3日龄幼苗的下胚轴和根中,CmGA3ox3的转录水平相对较高。CmGA2ox1的转录本主要在7日龄幼苗的根中发现。通过原位杂交发现,在7日龄幼苗的根中,CmGA7ox、CmGA20ox3和CmGA3ox3的转录本定位在根冠和根表皮中。我们得出结论,下胚轴和根尖是发育中的南瓜幼苗中GA生物合成的重要部位。