| 1. | Genetic control of flowering time in arabidopsis thaliana
拟南芥开花时间的分子遗传调控 |
| 2. | An improved method for indoor hydroponic culture of arabidopsis thaliana
拟南芥室内水培方法的改进 |
| 3. | Isolation and genetic analysis of arabidopsis mutants with low k tolerance
拟南芥耐低钾突变体的筛选及遗传分析 |
| 4. | 3 to understand hag1 function , we transformed it to arabidopsis plant
利用拟南芥转化系统分析了hag1的功能。 |
| 5. | Study on the response of various arabidopsis ecotypes to boron deficiency
不同拟南芥生态型对缺硼反应的初步研究 |
| 6. | 2 % , which is 9 . 8 % lower than lfy and flo ( 70 % )
2 ,这小于被子植物拟南芥lfy与金鱼草flo之间的同源性( 7 ) 。 |
| 7. | Athk1 gene regulates signal transduction of osmotic stress in arabidopsis thaliana
基因调节拟南芥渗透胁迫信号转导过程 |
| 8. | Subculture conditions and growth characteristics of arabidopsis suspension culture
拟南芥悬浮细胞生长特性及其继代培养条件 |
| 9. | Ca2 and calmodulin are involved in the expression of heat shock protein gene in arabidopsis
钙调素调节拟南芥热激基因的表达 |
| 10. | Cdpks are a multigene family and there are 34 cdpks in arabidopsis thaliana
Cdpks是一个多基因家族,其中拟南芥有34个cdpks 。 |
