胚轴

C（18）柱层析法提取大豆胚轴中异黄酮苷元

Extraction of Isoflavone Aglycones from Soybean Hypocotyl with C_ ( 18 ) Column Chromatography

适当浓度的BR也促进下胚轴形成根。

Proper concentration of BR also promoted rooting from the hypocotyl .

拟南芥复制因子C亚基3在黄化苗下胚轴伸长生长中的作用

Arabidopsis Replication Factor C Subunit 3 Plays a Role in Hypocotyl Elongation of Etiolated Seedling

花生种子萌发早期胚轴细胞DNA合成的特点

Analysis of the Character of the DNA Synthesis in Axis of Peanut Seeds During Early Germination

H2O2在黄瓜和绿豆下胚轴不定根形成中的作用

H_2O_2 Effect on Adventitious Root Organogenesis of Cucumber and Mung Bean Hypocotyls

以生长于两种不同MS培养基上的诸葛菜无菌苗下胚轴为外植体，研究不同外植体，不同激素组合对下胚轴高频率再生的影响效应。

Violaceus were cultured to study the effects of explant and hormone on the frequency of shoot regeneration .

加速老化还引起种子子叶与胚轴内ABA含量明显增加。

ABA contents of cotyledon and axis were increased dramatically .

山皂角胚轴POD活性随铅浓度的增加而降低。刺槐胚轴POD活性在200mg。

The activity of POD in Gleditsia japonica hypocotyls decreased as the Pb concentration increased ;

证明了上胚轴的伸长依赖于蛋白质和核酸的合成，尤其是依赖于mRNA的合成。

It was proved that epicotyl elongation of mung bean cutting depended on protein and nucleic acid synthesis , especially mRNA synthesis .

大豆胚轴中B类、E类和DDMP大豆皂甙的分离纯化

Isolation and Purification of Group B , Group E and DDMP-saponins from Soybean Hypocotyl

UV-B诱导的绿豆下胚轴原生质体收缩效应

UV-B Induced Shrinking of Protoplasts Isolated from Hypocotyl of Mung Bean Seedlings

镉Cd与UV-B复合胁迫影响大豆胚轴生长的生理调节机制研究

Studying on Effect of Cd in Combination with UV-B on Physiological Mechanism in Regulation of Soybean Epicotyl Growth

黑暗下，KT对下胚轴伸长的抑制与白光作用相似。

In darkness , KT showed a similar inhibition of hypocotyl elongation as under WL .

离体绿豆胚轴在吸胀过程中蛋白质合成与ATP水平及能荷值的关系

The relationship between protein synthesis , atp and adenylate energy charge in isolated mung bean axes during imbibition

ABA诱导毛酸浆下胚轴体细胞胚状结构的直接发生

ABA stimulated direct formation of embryo - like structures at globular stage from hypocotyls of Physalis pubescens

在苦瓜的愈伤组织生长过程中，不同外植体类型间的愈伤组织生长有极显著差异，ZT和KT对愈伤组织生长有显著作用，最适外植体是下胚轴。

The hypocotyl was the best explant for callus growth .

研究了SNP对绿豆下胚轴插条生根的影响。

Effect of SNP on rooting of hypocotyl cutting from mungbean seedling was investigated .

结果表明，在青菜种子萌发过程中，根系和下胚轴对Cu的响应要比种子萌发本身敏感，而根伸长较下胚轴生长更敏感；

The results showed that root elongation of the two cultivars of B.Chinensis were much more sensitive to Cu toxicity than hypocotyl growth and seed germination .

下胚轴，将外源双价基因导入番茄，获得了一批卡那霉素抗性苗，经PCR检测证明外源基因已经整合到番茄基因组中。

Dozens of kanamycin resistant tomato regenerating plants were obtained , and the PCR results indicated that the foreign genes were integrated into the tomato genome .

盐或低温胁迫对花生幼苗下胚轴ATP酶和质膜中PIP2含量的影响

Effects of salt and low temperature on ATPase activity and pip_2content in plasmalemma from peanut seedling hypocotyl

结果表明，UV-B辐射引起大豆上胚轴伸长减小；

The results show that UV-B radiation could decrease elongation of epicotyl and increase its diameters ;

红光、远红光、钙及IAA对绿豆下胚轴切段伸长的影响

Effects of Red Light , Far-Red Light , Calcium and IAA on the Segment Elongation of vigna radiata

5d幼胚胚芽、胚轴与胚根初步形成。

At 5 DAP the plumule , hypocotyl and radicle were formed .

并发现β亚基在三种类型品种的胚轴中有积累，B3亚基在毛鉴2和恩莱的发育早期出现，但都先后消失。

And found that there are accumulation of β subunit in 3 varieties embryonic axes and the B3 subunit appeared in varieties ( Maojian 2 and Enlai ) earlier development , but all disappeared later .

钙调素在IAA和6-BA诱导绿豆下胚轴原生质体膨大过程中的含量变化

Changes in content of calmodulin in IAA-and 6-BA-Induced swelling of protoplasts from Hypocotyl in etiolated mung bean seedlings

将胀果甘草的根、胚轴、子叶分别接种到含有不同激素组合的MS培养基上，在光照或黑暗下培养.将根接种到液体培养基中培养。

Root , hypocotyl and cotyledon of Glycyrrhiza inflata were cultured on MS medium containing different hormones in light or dark , and root was cultured in liquid medium .

对萌发和胚轴生长有促进效果；10mM的AOA（氨氧乙酸）刺激萌发，但抑制生长。

Conversely , AOA promoted germination and inhibited hypocotyl growth .

抗氧化剂对农杆菌介导的大豆下胚轴GUS基因瞬时表达的影响

The effects of antioxidants on the transient expression of GUS gene in Soybean Hypocotyls mediated by Agrobacterium tumefaciens

辣椒（CapsicumannuumL.）下胚轴离体培养的研究

Plant regeneration fron hypocotyl explants of chilli pepper ( capsicum annuum ) in vitro

利用根癌农杆菌介导，以下胚轴为外植体把ACC解氨酶基因转入青花菜栽培品种上海2号，获得了转基因再生植株。

ACC deaminase gene was successfully introduced into broccoli ( Brassica oleracea var. Italica ) by Agrobacterium tumefaciens mediated transformation .