摘要
文章论述了亦霉素(GA)的结构、生物合成及其主要的生理效应。通常情况下,使用赤霉素能抑制木本被子植物的开花,但具较大极性的赤霉素如GA_3能有效地促进杉,柏科树种开花;而极性较小的亦霉素如GA4和GA_7的混合物能促进松科开花。
The author summarizes gibberellin structure-function relationships and practical applications in forestry.First, the gibbcrellins are described as a group of diterpenoid acids, and its activity appears to be related to the degree of oxidation of the C-20 func tion irrespective of hydroxylation at C-3 and C-13. Hydroxylation to the C-3 and C-13 form (e. g. either GA1 or GA3) may be very important to obtain a highly biologically active GA in vegetative growth of the shoot.Secondly, gibberellin metabolism is derived from acetyl ccenzyme A and all CAs originate from a common pathway leading to GA12 aldehype.If we want to control flowering by adding exegencusly a /florigenic/ GA, we should have a knowledge of the endogenous GA and their metabolism. Then ,we can design experiments and treatments to 'synergize' of the exogenously applied GA.Finally, some metheds arc shown how to induce precocious flowering and how to enhance flowering in conifers. The extra flowering effect of applied GA4/7 is also synergized.
出处
《南京林业大学学报(自然科学版)》
CAS
CSCD
1989年第2期89-95,共7页
Journal of Nanjing Forestry University:Natural Sciences Edition
关键词
赤霉素
生长调节剂
植物
合成
功能
Gibberellin like substance
Biological activity
Woody plant
Flowering
