Fan Hua-Min, Li Ming-Jie, Zheng Hong-Yan, Yang Yan-Hui, Gu Li, Wang Feng-Qing, Chen Xin-Jian, Zhang Zhong-Yi
School of Agronomy, He'nan Agricultural University, Zhengzhou 450002, China.
Zhongguo Zhong Yao Za Zhi. 2012 Oct;37(20):3029-35.
Based on previous study, authors used the suppression subtractive hybridization (SSH) technique to construct the forward and reverse subtractive cDNA libraries of consecutive monoulture Rehmannia glutinosa. Five genes related with consecutive monoculture problem of R. glutinosa were chosen from the each of two subtractive libraries. And their spatiotemporal expression was measured in order to explore the functions in consecutive monoculture problem of R. glutinosa.
Using the real-time quantitative PCR, we tested the relative expression values of the genes in different development stages and tissues of normal growth (one-year culturing) and consecutive monoculture (two-year culturing) R. glutinosa.
The five genes (calcium-dependent protein kinase, s-adenosyl-methionine synthetase, Aminocyclopropane-1-carboxylate oxidase, methyltransferase, calpain), which were chosen from the forward library had high expression in consecutive monoculture R. glutinosa, especially in root, and were hardly expression in normal growth R. glutinosa. On the contrary, the other five genes (RNA-dependent RNA polymerase, RNA replicase, DNA-directed RNA polymerase IIa, cyclin D, RNA binding protein) chosen from the reverse library had high expression in one-year R. glutinosa, but were down regulated or shut down in consecutive monoculture R. glutinosa.
The key genes, which regulate inessential metabolism parthway (such as cyclin D, DNA-directed RNA polymerase IIa), were restrained or shut down in consecutive monoculture R. glutinosa. Calcium and ethylene signaling might played key roles in the formation of consecutive monoculture problem, resulting in disturbing normal metabolic process and syndrome of disease in R. glutinosa appeared in turn.
基于前期研究,作者采用抑制性消减杂交(SSH)技术构建了地黄连作的正向和反向消减cDNA文库。从两个消减文库中各选取5个与地黄连作问题相关的基因,并检测其时空表达情况,以探究这些基因在地黄连作问题中的作用。
利用实时定量PCR技术,检测了正常生长(一年生)和连作(两年生)地黄不同发育阶段及组织中这些基因的相对表达量。
从正向文库中选取的5个基因(钙依赖蛋白激酶、S-腺苷甲硫氨酸合成酶、氨基环丙烷-1-羧酸氧化酶、甲基转移酶、钙蛋白酶)在连作地黄中高表达,尤其在根部,而在正常生长的地黄中几乎不表达。相反,从反向文库中选取的另外5个基因(RNA依赖的RNA聚合酶、RNA复制酶、DNA指导的RNA聚合酶IIa、细胞周期蛋白D、RNA结合蛋白)在一年生地黄中高表达,但在连作地黄中表达下调或关闭。
调控非必需代谢途径的关键基因(如细胞周期蛋白D、DNA指导的RNA聚合酶IIa)在连作地黄中受到抑制或关闭。钙和乙烯信号可能在连作障碍形成中起关键作用,进而扰乱地黄正常代谢过程,导致地黄病害症状相继出现。
