芸薹属
- 网络brassica
-
芸薹属A,B和C基因组之间关系研究进展
Development of Relationship Between A , B and C Genomes in Brassica genera
-
甘蓝型油菜附加系与芸薹属A基因组杂交F1的获得与鉴定
Production and Identification of F_1 Hybrids between Rape-radish Addition Line and Brassica rapa
-
十字花科芸薹属5种植物对Pb的吸收和富集
Uptake and accumulation of lead by five plants from colewort of Cruciferae
-
芸薹属B基因组高分子量文库可以为其细胞学标记的建立及遗传图谱与物理图谱整合提供便利。
Genomic library with high-molecular weight inserts is a powerful tool for establishing cytological markers and integrating genetic and physical maps .
-
自交不亲和基因座位(Slocus)是由多个基因组成的复杂区域,称之为S多基因家族,其大多数成员分布于芸薹属的整个染色体组。
Most members of S _multigene family dispersed in Brassica genome .
-
芸薹属内含子长度多态性和EST单核苷酸多态性研究
Studies on Intron Length Polymorphism and EST Single Nucleotide Polymorphism in Brassica
-
利用SSR分子标记分析和农艺性状鉴定对上海地区的61份芸薹属蔬菜进行了遗传多样性评价。
Genetic diversity of 61 samples was estimated by SSR markers and agronomic traits .
-
芸薹属ANR(BAN)基因家族RNA干扰载体的构建
Construction of RNAi Vector of Brassica ANR ( BAN ) Gene Family
-
此外,本图谱还定位了230个芸薹属作物中已发表的公共SSR标记,作为锚定标记。
In addition , we have mapped 230 public SSRs of Brassica crops as anchored marker . 2 .
-
十字花科芸薹属植物具有较强的重金属吸收能力,容易受到Cd、Pb等重金属的污染。
It has been reported that plants belonging to cruciferae genus Brassica are high heavy metal accumulator and could be easily polluted by heavy metals such as Cd and Pb .
-
本文对分别在芸薹属作物与向日葵中开发的SRAP、TRAP标记系统的基本原理与分析程序进行介绍。
The principle and protocol of SRAP and TRAP , which were developed in Brassica and Helianthus crops firstly , are introduced in the paper .
-
现在已经开发了许多芸薹属物种SSR标记,但并不是每个SSR标记有同等的价值,而且每次应用时必须进行筛选。
Numerous SSR markers have been developed in Brassica crops , but not every SSR marker has an equal value , they must be tested individually for each application .
-
Ogura胞质芸薹属作物雄性不育系的应用现状及前景
Application and Prospect of Male Sterility Lines with Ogura Cytoplasm in Brassica
-
结球甘蓝(BrassicaoleraceaVar.capitata)简称甘蓝,属于十字花科芸薹属,原产于地中海沿岸,是世界上广泛种植的一种重要蔬菜作物。
Cabbage ( Brassica oleracea var. capitata ) is a worldwide vegetable crop belonging to the Brassica of family Cruciferae , and it originates from the Mediterranean Coast .
-
本实验还说明通过SSR分子标记技术与农艺性状鉴定相结合,综合评价芸薹属蔬菜的遗传多样性比采用单一的方法更加准确有效。
The study ended with indication that analysis of the genetic diversity of vegetable plants based on both SSR markers and agronomic traits was more efficient and exact than that based on either one .
-
转化CaMV基因Ⅵ芸薹属蔬菜植株抗病性鉴定及其遗传分析
Diagnosis and Genetic Analysis of Resistance to Cauliflower Mosaic Virus in Brassica Crops Which Was Transformed with CaMV Gene VI
-
芥菜(BrassciajunceaCoss.)是十字花科(Cruciferae)芸薹属(Basrscia)蔬菜作物,在我国栽培历史悠久。
Mustard ( Brasscia juncea Coss . ) is an important vegetable crop with a long cultivation history in China .
-
用BLAST进行同源性分析发现它们编码的核苷酸序列与一些芸薹属作物、拟南芥、大豆、花生等核基因组部分序列、耐热相关蛋白mRNA序列以及一些假基因和假定蛋白mRNA序列有较高同源性。
BLAST analysis of its nucleotide sequence found a high homology with the portion of nuclear genome of the other crops of Brassica rapra , Arabidopsis thaliana , Soybean and Peanut , heat shock associated protein mRNA , hypothetical protein mRNA and pseudo gene .
-
芸薹属作物油酸脱饱和酶基因(FAD2)拷贝数和序列变异分析
Sequence and Copy Number Variation of Oleate Desaturase Gene ( FAD2 ) in Brassica Species
-
MLPK的瞬间表达可以使乳突细胞具有拒绝自花花粉的能力。这表明MLPK是芸薹属自交不亲和信号传导反应中的一个积极调节者。
Transient expression of MLPK restores the ability of papilla cells to reject self-pollen , suggesting that MLPK is a positive mediator of Brassica SI signaling .
-
本论文通过dsRNA诊断技术对萝卜属和芸薹属种的种传隐潜性dsRNA病毒进行了调查,并建立了基于不同品种dsRNA多样性差异表征宿主群体遗传多样性的分子标记方法。
In this study , we have investigated these seed-borne cryptic viruses in Raphanus and Brassica crops using dsRNA diagnostic technique , and established a new method that characterize the population genetic diversity of Raphanus and Brassica crops based on their dsRNA diversity .
-
游离小孢子培养是芸薹属作物育种过程中的主要方法之一。
Isolated microspore culture is a main method in Brassica breeding .
-
芸薹属种子贮藏蛋白质亚基构成及亲缘关系分析
The analysis of constituents of protein subunits and relationship of Brassica
-
芸薹属自交不亲和基因的分子生物学及进化模式
Molecular Biology and Evolutionary Models of Self-incompatible Genes in Brassica Genus
-
芸薹属作物雄性不育研究进展
Advance in Genomics of Brassica Research on Male Sterile of Brassica
-
授粉条件对芸薹属作物种间杂交亲和性的影响
Effects of Pollination Conditions on Cross Compatibility Index between Brassica Crops
-
芸薹属植物雄性不育的发育生物学研究
Studies on male sterility of Brassica crops in terms of developmental biology
-
芸薹属蔬菜作物的遗传转化研究进展
The Progress of Genetic Transformation Research on Brassica Vegetable Crops
-
不同品种芸薹属蔬菜吸收累积镉的差异
Cadmium Uptake and Accumulation in Vegetable species in Brassica Cruciferae
-
芸薹属栽培种与近缘种的远缘杂交及进展
Advances in Wide Hybridizations between the Cultivated Brassica Species and Their Relatives