1·At last, searched the cytology structure of grape adventitious bud.
同时对葡萄不定芽发生的细胞学结构进行了探索。
2·Stablepolyploid plants were obtained through the application of the adventitious bud technique.
同时采用不定芽技术对变异株进行稳定,获得了完全多倍体。
3·It also showed that adventitious bud could grow root and develop complete plants in the medium MS.
不定芽在MS培养基上可正常生根,发育成完整植株。
4·TDZ and CPPU had different effects on callus induction, adventitious bud propagation and seedlings growth.
TDZ和CPPU在愈伤组织的诱导、不定芽的分化及组培苗的生长等方面表现出不同的效果。
5·It was observed that the adventitious bud grew rapidly and new generation of adventitious buds emerged from them.
不定芽生长迅速,同时发现在不定芽上可以再形成新的不定芽。
6·Results showed that the immature stems are good explants of callus induction and adventitious bud differentiation;
盐桦愈伤组织高效诱导和不定芽分化的最适外植体为茎段;
7·Results There were significant difference in different length of adventitious bud, difference between the multiplication and radication of culture media.
结果不同高度的不定芽之间有显著差异,不同的增殖与生根培养基之间有显著差异。
8·For the multiplication and root development of the adventitious bud from leaf disc, hormone concentration and composition were also examined in this study.
另外,以叶片再生不定芽为试材,进行了不同激素组合对百合增殖和生根的研究。
9·At present, Agrobacterium mediated transformation of leaves are widely adopted in apples, and transgenic shoots were mainly obtained from adventitious bud regeneration.
目前,农杆菌介导法是苹果上应用的主要转化方法,叶片再生不定芽途径是被广泛应用的受体系统。
10·The result indicated that TDZ had effect on the adventitious buds induction of "Carbernet Sauvignon". Adventitious bud regenerating rate from leaf and petiole is 18.06% and 28.57%, respectively.
结果表明:TDZ对赤霞珠离体叶片、叶柄不定芽再生有诱导作用,对叶片、叶柄的最高诱导率分别为18.06%和28.57%;