这些结果将增强我们对于UPT和TAL因子介导的水稻和白叶枯病菌间相互作用的理解。
These findings will enhance our understanding of the molecular mechanism of the interaction of rice and Xoo via UPT boxes and TAL effectors.
同时,人工剪叶接种能引起叶组织内过氧化化物酶同工酶的变化,但变化的主要原因可能不是白叶枯病病菌的侵染所造成,而是剪叶对叶片的伤害所致。
Meanwhile, the inoculation treatment by clipping can cause he change of the peroxidase isozymes of the inoculated leaves, but it was the cut, not the pathogen, that resulted in the change.
但由于致病菌小种分化多,而且不断变异进化,寻找新的高抗广谱抗白叶枯病基因仍是热点研究领域。
But, for the reason of kinds of bacteria and variation, a new resistance gene with high resistance and broad-spectrum is still the hot spot researchers interested in.
但由于致病菌小种分化多,而且不断变异进化,寻找新的高抗广谱抗白叶枯病基因仍是热点研究领域。
But, for the reason of kinds of bacteria and variation, a new resistance gene with high resistance and broad-spectrum is still the hot spot researchers interested in.
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