1.
Study on Sensitivity of Cotyledon and Hypocotyl of Brassica napus L.to Hygromycin
油菜子叶及下胚轴对潮霉素敏感性研究
2.
Studies on the Component and Spectra Characterization of Thylakoid Membrane and the Relative Enzymes in the Cotyledon of Oilseed Rapes during Senescence;
油菜子叶衰老时相关酶类、类囊体膜组分与光谱特性的研究
3.
Effect of two-step culture and AgNO_3 on the shoot regeneration from cotyledon and hypocotyl explants in Brassica napus
二步培养和AgNO_3对甘蓝型油菜子叶和下胚轴芽再生的影响
4.
Studies on the Component and Spectra Characterization of Thylakoid Membrane and the Transcription of Photosynthesis Related Genes the Cotyledon of Oilseed Rapes during Dark-induced Senescence;
暗处理对油菜子叶类囊体膜组分、光谱特性和光合相关基因转录的影响
5.
Preliminary Study on Direct Infection of Rapeseed Leaves via Ascospores of Sclerotinia sclerotiorum
核盘菌子囊孢子直接侵染油菜叶片初步研究
6.
Glucosinolate and Their Relationship between Leaves and Seeds in Brassica Napus;
甘蓝型油菜叶片与种子硫苷相关性研究
7.
Beet tops are somewhat like spinach.
甜菜叶子有点像菠菜。
8.
Rape have established regeneration system of cotyledons, hypocotyls, protoplasts and microspore culture.
油菜已经建立了子叶、胚轴、原生质体及小孢子培养的再生体系。
9.
moth larva that eats foliage of beets and vegetables.
蛾子的幼虫,吃甜菜和蔬菜的叶子。
10.
lettuce, cabbage, etc leaves
苣、 洋白菜等的叶子
11.
a fungous leaf spot disease of the celery plant.
芹菜的叶子上出现斑点。
12.
The leaves of kale, used as a vegetable.
芥蓝菜羽衣甘蓝的叶子,用作蔬菜
13.
Dark green, leafy produce, like broccoli, is a good dietary source of folic acid.
深绿色叶子菜如花菜是不错的摄取叶酸的来源。
14.
Study on the Developmental Characters of Chloroplasts in a Yellow Type Mutant of Oilseed Rape Seedlings;
油菜黄化突变体叶绿体发育特性研究
15.
Studies on the Molecular Mechanism of Yellow-seeded Formation in Brassica Juncea;
芥菜型油菜黄籽形成的分子机理研究
16.
Vitamin A, for example, may come from fish oil, animal livers, egg yolk, butters, green and yellow vegetables.
如维生素A,它的来源包括鱼肝油、脏、黄、油、叶菜、色蔬菜等。
17.
A Brazilian feather-leaved palm(Orbignya barbosiana) having hard-shelled fruits whose seeds yield an edible vegetable oil.
巴西榈巴西羽叶棕榈(巴拉苏奥比尼亚棕奥比尼亚棕属)有硬壳果实,其种子能产生可食用菜油
18.
Mechanisms of Brassinosteroid Promotion on Tropisms and Root Development Through Regulating Polar Auxin Transport in Dicotyledonous Plants;
油菜素内酯调控生长素极性运输促进双子叶植物向性建成及根分化的机理研究