M. Umesha, C. Sunisha, T. Usharani, H. D. Sowmya, S. Sriram
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引用次数: 0
摘要
用ZmBgl和泛素两种不同启动子调控抗凋亡基因AtBAG4转染最受欢迎的香蕉cv Rasthali,提高其对Fusarium oxysporum f. sp. cubense Race 1 (FOC1)的耐病性。两种启动子驱动的基因表达差异表明,在标准生物测定系统下,泛素启动子下AtBAG4基因的强表达抑制了FOC1在转基因香蕉中的感染和传播过程。实时PCR分析显示,AtBAG4基因在两个启动子下的表达水平不同。很明显,ZmBgl驱动的AtBAG4导致叶片中较低的基因表达,这与对FOC1的抗性水平较低相关。在泛素启动子调控下,AtBAG4的组成表达显示出转基因转录增加,这与从幼苗期到营养活跃期对FOC1的耐受性增强直接相关。这项研究揭示了抗凋亡基因组成表达的重要性,在高度易感的品种Rasthali中,抗最可怕的FOC1耐受性增强。
Over expression of anti-apoptotic gene in banana cv Rasthali enhances resistance against Fusarium oxysporum f. sp. cubense Race 1
The most popular banana cv Rasthali was transformed with anti-apoptotic gene, AtBAG4 regulated with two different promoters viz., ZmBgl and ubiquitin to enhance the tolerance levels to Fusarium oxysporum f. sp. cubense Race 1 (FOC1). The differences in gene expression driven by two promoters revealed that stronger expression of AtBAG4 gene under the ubiquitin promoter suppressed the infection and spreading processes of FOC1 in transgenic banana under standard bioassay systems. Analysis using the real time PCR showed the varying levels of AtBAG4 gene expression under two promoters. It was evident that ZmBgl driven AtBAG4 lead to lower gene expression in leaves which correlated with lesser levels of resistance to FOC1. Constitutive expression of AtBAG4 under the control of ubiquitin promoter showed increased transgene transcripts which directly correlated with the enhanced tolerance against FOC1 from seedlings stage to active vegetative phases. This study reveals the importance of constitutive expression of anti-apoptotic gene showing enhanced tolerance against the most dreaded FOC1 in highly susceptible variety Rasthali.
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