reproductive growth meaning in Chinese
生殖生长
Examples
- Soybean isoflavones accumulated mainly in seeds in reproductive growth period and isoflavones was transferred from leaves to seeds with the development of soybean seeds
在生殖生长时期,大豆异黄酮由营养器官(主要是叶片)向种子中积累。 - The reproductive yields are maximized by an instantaneous switch from vegetative to reproductive growth after a short period of vegetative growth
4种胡卢巴通过调节营养与繁殖生长的速度及资源分配,以积极适应多变的环境,在短的生长期内达到繁殖成功并使繁殖分配比率最大。 - Controlled growth chamber study showed that potted haden mango under 17 / 10 had prosperous reproductive growth , with expanding inflorescence branch , and gradually declined leaves on panicle
盆栽2年生海顿檬果在花期新梢叶腋之花序,于生长箱日夜温17 / 10之条件下,生殖生长渐趋旺盛,新梢上叶腋小花序渐渐扩张,叶片陆续脱落而转变成正常花序。 - Labeling tunel method . the cell ultrastructural changes were similar to apoptosis in animal cells : the apical meristemetic cells underwent the programmed cell death . this was first detected in the apex cells of apical meristem , while peripheral cells differentiated gradually into different parts of a floral bud . but all the cells in the floral bud were subjected to the pcd process before it developed into a complete flower . 140bp dna fragment was found to deposit in apical bud during the plant development . the most important role of caspase - 8 was detected by western blot , and the expression of the procaspase - 8 was time - related with the dna frgmentation and the transformation from vegetative to the reproductive growth . these results suggested that pcd was an active process during the differentiation of apical meristem , and the senescence observed in the apical bud was due to the pcd process
显微超微结构研究表明,短日照条件下豌豆顶芽的衰老过程是从营养生长锥向花芽的转化,而用dna原位末端标记tunel caspase - 8 western blot和140 bp dna片断积累的试验结果证明,转化为花芽的整个生长锥细胞发生了编程性死亡pcd ,而且其最顶端部分细胞首先发生pcd ,而顶端周围的分生组织细胞逐渐分化出花芽的各部分,但顶芽最后并没有发育成为完整的花,所有细胞就都发生pcd ,从而顶芽衰老。 - The change tendency of isoflavones content just liked that of pal activity . so pal activity could decide the synthesis of isoflavones in the growth of plant . in reproductive growth period , the activity of pal both in leaves and in seeds had the same tendency of increasing first , then decreasing , and reached highest level at 39th day after flowering
且随幼苗的逐渐成长,从幼苗期一壮苗期一盛花期这几个时期,叶片中的异黄酮和pal都是递增的,而茎中的异黄酮和pal则是递减,根中略有增加或减少,变化不明显。