Simulation of Beta vulgaris climatic productivity and its planting climatic zoning in Heilongjiang Province 黑龙江省甜菜气候生产力模拟和种植气候区划
And according the sequence of FIE gene, designs a pair of primer, uses RT-PCR and colones the specific fragment of Beta vulgaris M14 FIE gene. 同时根据已发表的不同植物FIE基因序列的高度同源区,设计一对引物,以甜菜M14花蕾总RNA为模板进行RT&PCR扩增甜菜M14FIE特异片段。
The steady system of genetic transformation has been developed for sugarbeet ( Beta vulgaris), using Agrobacterium tumefaciens and obtains resistant shoot. 建立了稳定的以根癌农杆菌为介导的甜菜遗传转化体系,获得了抗性芽。
The Induction and Observation on Plants from Anthers of Beta Vulgaris 甜菜花粉植株的诱导及其观察
Zonation of Seedling of Beta vulgaris and Its Location of Fleshy Tap Root 甜菜幼苗的分区及其肥大直根的定位研究
Teratoma induction and gene transfer in Beta vulgaris 甜菜畸胎瘤诱导及基因转移
The sucrose changing law in beet ( beta vulgaris) and its distribution dynamic state in organs 甜菜体内蔗糖的变化规律及在各器官中的分配动态
Young Embryo Culture and Plantlet Regeneration of Beta vulgaris 甜菜幼胚培养和植株再生
Study on plastic Mulched Cultivation and Feeding Value of Fodder Sugar Beet ( Beta vulgaris) in Alpine Region 高寒地区饲用甜菜地膜覆盖栽培及其饲用价值评定的研究
Extraction and stability of red color agent in Beta vulgaris 红菾菜红色素的提取及其稳定性研究
We choose Beta vulgaris line M14 to be our experiment object, not only because Beta vulgaris are widely planted in China, what is more important, people obtained some precious subspecies in the long-term cultivating process, and accumulated plenty of genetic informations. 我们选择甜菜作为实验对象不仅仅因为甜菜在我国广泛栽培。具有可观的经济价值,更重要的是人们在甜菜的长期培育过程中获得了若干宝贵的亚种,积累了人量遗传信息。