十字花科植物

Any of various plants in the mustard familyCruciferae or Brassicaceae,which includes the alyssum,candytuft,cabbage,radish,broccoli,and many weeds .

十字花科植物任一种十字花科植物，其包括有庭荠、伞形屈曲花、甘蓝、萝卜、花椰菜和许多杂草

Any of various plants in the mustard family Cruciferae or Brassicaceae,which includes the alyssum,candytuft,cabbage,radish,broccoli,and many weeds.

十字花科植物任一种十字花科植物，其包括有庭荠、伞形屈曲花、甘蓝、萝卜、花椰菜和许多杂草

Any of various plants in the mustard familyCruciferae or Brassicaceae,which includes the alyssum,candytuft,cabbage,radish,broccoli,and m any weeds.

十字花科植物任一种十字花科植物，其包括有庭荠、伞形屈曲花、甘蓝、萝卜、花椰菜和许多杂草

Wu39-1,Wu43-1 and Wu50-2 were used to develop a handy extraction method of mtDNA in crucifer s on the basis of the sucrose-bedding method of mtDNA extraction and by means of four combinations of different centrifugal forces,differential centrifugation,and composition adjustment and dosage increase of buffer solution A.

以十字花科植物芸芥 Eruca sativa 、白菜型油菜 Brassica rapa 和甘蓝型油菜 Brassica napus ：武39- 1、武4 3- 1、武5 0 - 2为试材，在蔗糖衬垫法分离纯化m t DNA方法优点的基础上，通过4组不同离心力配比，采用差速离心法、改变缓冲液A的成分以及增加缓冲液的用量，建立了一种简便提取十字花科植物mt DNA方法。

The results were as follows:(1) Seeds of 80 species or subspecies could be classified into two groups. Group Ⅰ included the seeds of Gramineae, Cyperaceae, Polygonaceae and Amaranthaceae, and Group Ⅱ included the seeds of Compositae, Euphorbiaceae, Brassicaceae and Umbelliferae.(2) Only FTIRs of the seeds of Brassicaceae were clustered together in the dendrogram,while those of the other families all appeared farraginous.(3) Among FTIRs of the 11 groups of the congeneric species,8 groups were clustered with other genus species, and 6 out of 7 groups of conspecific seeds appeared farraginous in the dendrogram.

结果表明：(1)80种草本植物的种子可以分成两类，第1类由禾本科、莎草科、蓼科和苋科植物的种子组成；第2类由菊科、大戟科、十字花科和伞形科植物的种子组成；(2)聚类图上，只有十字花科植物的种子能较好地与其他科的相区别；(3)在11组同属不同种植物中，有8组植物与亲缘关系不同的其他属的植物混在一起；在7组同种不同亚种或品种植物中，仅有1组植物被聚合在一起。

Group I included the seeds of Gramineae, Cyperaceae, Polygonaceae and Amaranthaceae, and Group II included the seeds of Compositae, Euphorbiaceae, Brassicaceae and Umbelliferae.(2) Only FTIRs of the seeds of Brassicaceae were clustered together in the dendrogram, while those of the other families all appeared farraginous.(3) Among FTIRs of the 11 groups of the congeneric species, 8 groups were clustered with other genus species, and 6 out of 7 groups of conspecific seeds appeared farraginous in the dendrogram.

结果表明：（1）80种草本植物的种子可以分成两类，第1类由禾本科、莎草科、蓼科和苋科植物的种子组成；第2类由菊科、大戟科、十字花科和伞形科植物的种子组成；（2）聚类图上，只有十字花科植物的种子能较好地与其他科的相区别；（3）在11组同属不同种植物中，有8组植物与亲缘关系不同的其他属的植物混在一起；在7组同种不同亚种或品种植物中，仅有1组植物被聚合在一起。

By using HPCE, we can provide evidence for solving some disputes in the classification of Brassicaceae and exploitation of new medicinal resources in Brassicaceae.

结论HPCE法可以为解决十字花科植物分类中出现的某些争议提供佐证，还可为十字花科药用植物资源开发提供科学依据。

Based on examinations of type specimens housed at PE, lectotypes for five names of Chinese taxa in Fagaceae, Papaveraceae, Capparidaceae and Cruciferae are here designated under Article 8.1, 9.9, 9.10 and 37.2, Recommendation 9A.2 and 9A.3 of the International Code of Botanical Nomenclature, because the types were respectively indicated by reference to a gathering that consists of more than one specimen, or more than one gathering were simultaneously designated, without indicating the type in the protologue.

摘要查阅保存于中国科学院植物研究所标本馆的壳斗科、罂粟科、山柑科和十字花科植物的模式标本时，发现有5个植物名称的模式均多于1份标本，或同时引证1号以上的标本而没指定模式，根据《国际植物命名法规》规则8.1、9.9、9.10和37.2，以及辅则9A.2和9A.3的精神，对这些名称做出后选模式指定。关键词壳斗科；罂粟科；山柑科；十字花科；后选模式

In order to direct the construction of plant germplasms by elucidating the relatives among plants at the level of gene, CYP86MF gene analogues from 11 species of 6 genera in Cuciferae were respectively obtained by PCR strategy using gene specific primers designed from conserved regions of CYP86MF gene reported. Sequence comparisonindicated that the similarities among the genes at nucleotide level were over 80%, and the similarities at amino acid level remained above 70%. The differences between the genes at nucleotide and amino acid level between species were 1.0%~ 5.7% and 2.6%~ 7.3% respectively, while those between genera 5.6%~ 22.5% and 7.3%~ 31.2%, respectively. Phylogenetic analysis showed that Brassica was closely related to Raphanus, followed by Rorippa Scop, Arabidopsis Heynh, Capsella Medic orderly, most distantly related to Orychophrogmus.

为了从分子水平阐明十字花科植物间的亲缘进化关系，给植物种质资源的创建提供理论依据，试验根据课题组已报道的CYP86MF基因编码的氨基酸保守区域设计特异引物，运用PCR技术分别从十字花科6个属11个物种中分离克隆到了CYP86MF基因的同源序列，经比较分析，结果表明：这些同源序列的相似性达80%以上，所推导的氨基酸序列相似性达70%以上，且两者种间差异分别为1.0%~ 5.7%和2.6%~ 7.3%，属间差异分别是5.6%~ 22.5%和7.3%~ 31.2%；由氨基酸序列构建的分子系统树可知，在亲缘进化关系上芸薹属与萝卜属较近，其他依次为蔊菜属、拟南芥属、荠菜属，而与诸葛菜属最远。

For people interested in lowering their risk of developing cancers by increasing cruciferous phytochemical intake, remember that the class of cruciferous vegetables is larger than most people think, and includes arugula, brussel sprouts, broccoli sprouts, bok choy, kale, and wasabi, among others. To your cancer-free health!

为有兴趣的人士，降低其可能发展成癌症增加十字花科植物化学摄入量，记得那类十字花科蔬菜是其规模甚至比多数人都认为，并且包括arugula ，布鲁塞尔豆芽，椰菜豆芽，韩国银行蔡，羽衣甘蓝，山葵等为了你的癌症-免费健康！

alyssum：十字花科的一年生植物

十字花科的一年生草本madwort | 十字花科的一年生植物alyssum | 十字花科植物crucifercruciferae

crucifer：十字花科植物

crown rot of onion 洋葱白绢病 | crucifer 十字花科植物 | cruciferous 有十字形的

crucifer：十字花科植物, 执十字架的人

crucibleless | 无坩埚的 | crucifer | 十字花科植物, 执十字架的人 | Cruciferae | 十字花科

feed crucifer：饲料用十字花科植物

feed crop of after crop 后浊料罪 | feed crucifer 饲料用十字花科植物 | feed crushing 饲料粉碎

Cruciferae：十字花科

十字花科(Cruciferae)植物是中国蔬菜作物中栽培面积最大的一类,在中国农业生产和人民生活中占有非常重要的地位,对十字花科植物种质资源的充分利用一直是人们努力的方向.但长期以来,对于十字花科族、属和种的划分存在很多问题和争议.随着分子生物学利生物信息学的发展,

cruciferous：十字花科的

十字花科;芸薹科;芸苔科 Cruciferae; Brassicaceae | 十字花科的 cruciferous | 十字花科植物 crucifers

Cruciferous plant：十字花科植物

小枕木 Crowntree | 十字花科植物 Cruciferous plant | X字花 Cruciform

oligophagous：寡食性

寡食性(oligophagous) 是以1个科或少数近缘科植物为食料,如菜粉蝶取食十字花科植物,棉大卷叶螟取食锦葵科植物等. 多食性(polyphgous) 是以多个科的植物为食料,如棉铃虫可取食茄科、豆科、十字花科、锦葵科等30个科200种以上的植物 昆虫的食性虽有其稳定性,

Plasmodiophora brassicae Woronin：十字花科植物根瘤病菌

甘蓝根瘤病菌属(黏) Plasmodiophora | 十字花科植物根瘤病菌 Plasmodiophora brassicae Woronin | 桑黏菌病菌(黏菌) Plasmodiophora mori Yendo

crucifers：十字花科植物

campestris(Xcc)为革兰氏阴性菌,能引起十字花科植物(crucifers)的黑腐病(black rot),使世界各国农业经济蒙受损失. Xcc在感染宿主过程中会分泌出多种胞外蛋白,其中多醣体除了与Xcc致病能力有关外,也是工业及食品加工业常用的生物胶之一,