| 1. | Application of isozyme technique in cruciferae crop breeding 同工酶技术在植物研究中的应用 |
| 2. | Progress of study on pest biological control of cruciferae vegitables 十字花科蔬菜害虫生物防治研究进展 |
| 3. | Insects in cruciferae greens amp; amp; it ' s comprehensive elimination measures 咸宁市小菜蛾的发生规律及防治方法 |
| 4. | Genetic and mapping analysis of arabidopsis thaliana male sterile mutant ms1502 cruciferae 1502的遗传及定位分析 |
| 5. | Larvicidal activity of the symbiotic bacterium xenorhabdus nematophilus hb310 against three species of cruciferae pests 310对3种十字花科蔬菜害虫杀虫活性的研究 |
| 6. | However , there have been many of ambiguities and divergences for the taxa of family , genus and species in cruciferae for a long time 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。 |
| 7. | In the end , the results in this article were compared to the its sequences of other species in cruciferae and their phylogenetic relations were discussed 本文还将所得的结果与已发表的部分十字花科其它属植物的its序列进行比较,探讨了该科植物系统发育情况。 |
| 8. | With the developments of molecular biology and bioinformatics , it is possible to elucidate the phylogenetic evolutionary relationship of cruciferae at the molecular level 随着分子生物学和生物信息学的发展,从分子水平阐明十字花科植物系统演化关系成为可能。 |
| 9. | In view of the fact that cruciferae crops not only account for the largest growing area of vegetable crops but also play an important role in agricultural activities and lives of people in china , it has been our objective that their germplasm resources were fully utilized 十字花科( cruciferae )植物是中国蔬菜作物中栽培面积最大的一类,在我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。 |
| 10. | Two primers , designed according to the conserved regions of ban gene in arabidopsis thaliana , were used to amplify the ban homologous fragments from the genomic dna of brassica napus , b . chinensisl , b . juncea , a . thaliana and other cultural plants of cruciferae . the very similar pcr fragments were obtained from all the amplifications , which implicated that ban may be a conserved gene existing widely in the genomes of cruciferae . pcr fragments were cloned and confirmed by restriction enzyme digestion 参照拟南芥( arabidopsisthaliana ) ban基因与cdna设计引物,对甘蓝型、白菜型、芥菜型油菜,拟南芥及其它十字花科栽培品种的基因组dna进行pcr扩增,均扩增出与拟南芥ban基因扩增片段大小极其相似的dna片段,提示ban可能广泛存在于十字花科植物中。 |