1) Friable embryogenic callus
松散型胚性愈伤组织
2) friable embryogenic calli
松散性胚性愈伤组织
1.
Isolation and preliminary culture of protoplasts from the friable embryogenic calli derived from transgenic suspension cells in litchi;
荔枝转基因悬浮细胞再生松散性胚性愈伤组织的原生质体分离与初步培养
3) incompact callus
松散型愈伤组织
1.
The results showed that the immature leaves were good explants of callus inducing and shoot multiplication;the incompact callus inducing medium was MS+6-BA (2.
结果表明:西藏红景天嫩叶是诱导愈伤组织和芽的理想外植体;诱导松散型愈伤组织有两种培养基,分别是黑暗培养下MS+6-BA2。
2.
The results showed that the immature leaves were good explants of callus inducing and shoot multiplication; the incompact callus inducing medium was MS+6-BA 2.
结果表明:西藏红景天嫩叶是诱导愈伤组织和芽的理想外植体;诱导松散型愈伤组织有两种培养基,分别是黑暗培养下MS+6-BA 2。
4) embryogenic calli
胚性愈伤组织
1.
Cryopreservation of embryogenic calli by vitrification and plant regeneration via somatic embryogenesis in litchi;
玻璃化法超低温保存荔枝胚性愈伤组织及其植株再生
2.
The change of the chromosome number in the embryogenic calli and in the process of the somatic embryogenesis in litchi;
荔枝胚性愈伤组织及其体胚发生过程中染色体数目的变化
3.
After subculture of 2 years, embryogenic calli were observed on the somatic embryos.
经2年对初生胚的继代培养,获得胚性愈伤组织;胚性愈伤组织经体胚诱导、体胚成熟、体胚萌发3个过程的诱导后能够获得再生植株。
5) embryogenic callus
胚性愈伤组织
1.
Factors Affecting Induction of embryogenic callus of Larix gmelinii;
兴安落叶松胚性愈伤组织诱导影响因子的研究
2.
Establishment of gene transformation acceptor system of embryogenic callus in lily;
百合基因转化胚性愈伤组织受体系统的建立
3.
Study on induction of embryogenic callus and plant regeneration in maize;
玉米胚性愈伤组织诱导和植株再生研究
6) embryonic calli
胚性愈伤组织
1.
A lot of embryonic calli emerged after transferred the callus to MS medium with combination of 0.
5mg·L~(-1)NAA培养基上培养10周后诱导出大量胚性愈伤组织,结构较致密,浅黄色,表面有成团的紧密粘附在一起的小颗粒形态。
2.
8mg/L, induced embryonic calli in the .
试验表明,不同基因型对胚状体发生频率影响很大,接种材料不同会导致胚性愈伤组织形成上的差异,外源物质及植物激素种类、配比对胚状体诱导、分化起着重要作用。
3.
6×1015 ions/cm2 were irradiated into embryonic calli of Spartina patens.
6×1015ions/cm2的N+注入狐米草胚性愈伤组织。
补充资料:愈伤组织诱导
分子式:
CAS号:
性质:用外界条件刺激外植体组织,以改变其原有代谢方式,加强其合成代谢活动,迅速进行蛋白质和核酸物质的合成,开始为细胞分裂作准备。
CAS号:
性质:用外界条件刺激外植体组织,以改变其原有代谢方式,加强其合成代谢活动,迅速进行蛋白质和核酸物质的合成,开始为细胞分裂作准备。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条