Participation of Reactive Oxygen Species and Nitric Oxide in Defense of Wheat Carrying Sr25 Gene Against Stem Rust

IF 1 4区 生物学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Applied Biochemistry and Microbiology Pub Date : 2024-12-18 DOI:10.1134/S0003683824605298
V. V. Knaub, L. Ya. Plotnikova
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Abstract

The role of reactive oxygen species (ROS) and nitric oxide (NO) in the defense of Triticum aestivum L. (common wheat) against the rust fungus Puccinia graminis f. sp. tritici Erikss. and Henn. (Pgt) was studied using the example of the interaction between the resistant line of the cultivar Thatcher carrying the Sr25 gene from the tall wheatgrass Thinopyrum ponticum (TcSr25) and the susceptible cultivar Saratovskaya 29 (C29). The seedlings were treated with salicylic acid (SA) as an ROS inducer, verapamil as a Ca2+ channel inhibitor, sodium nitroprusside (NP) as a NO donor, and 2-phenyl-4,4,5,5-tetramethylimidazoline-1-oxyl 3-oxide (c-PTIO) as NO scavenger. Isolates with reaction 0 (immunity) and 1 (resistance with hypersensitive reaction, HR) were used to infect the seedlings. NO stimulated the growing tube orientation and the formation of the Pgt appressoria on the surface of resistant plants, as well as increased colony growth in susceptible plants if plants were treated one day before or simultaneously with infection. The generation of superoxide anion was the main cause of Pgt appressoria death on the stomata of resistant plants, while NO did not affect tissue penetration. ROS induced HR and accelerated the destruction of the cell cytoplasm, and NO contributed to the expansion of the necrosis zone in resistant plants.

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活性氧和一氧化氮参与携带 Sr25 基因的小麦对茎锈病的防御
研究人员以携带高麦草 Thinopyrum ponticum(TcSr25)Sr25 基因的 Thatcher 栽培品种抗性品系(TcSr25)为例,研究了活性氧(ROS)和一氧化氮(NO)在小麦(Triticum aestivum L.)抵御锈病真菌 Puccinia graminis f. sp.(和 Henn)的抗性品系(TcSr25)与易感栽培品种 Saratovskaya 29(C29)之间的相互作用进行了研究。用水杨酸(SA)(ROS 诱导剂)、维拉帕米(Ca2+ 通道抑制剂)、硝普钠(NP)(NO 供体)和 2-苯基-4,4,5,5-四甲基咪唑啉-1-氧 3-氧化物(c-PTIO)(NO 清除剂)处理幼苗。用反应 0(免疫)和反应 1(抗性与超敏反应,HR)的分离株感染幼苗。如果在感染前一天或同时对植物进行处理,NO 会刺激抗性植株表面的生长管定向和 Pgt 附属体的形成,并增加易感植株的菌落生长。超氧阴离子的产生是导致抗性植株气孔上的 Pgt 附属体死亡的主要原因,而 NO 并不影响组织穿透。ROS 可诱导 HR 并加速细胞胞质的破坏,而 NO 则有助于扩大抗性植株的坏死区。
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来源期刊
Applied Biochemistry and Microbiology
Applied Biochemistry and Microbiology 生物-生物工程与应用微生物
CiteScore
1.70
自引率
12.50%
发文量
75
审稿时长
6-12 weeks
期刊介绍: Applied Biochemistry and Microbiology is an international peer reviewed journal that publishes original articles on biochemistry and microbiology that have or may have practical applications. The studies include: enzymes and mechanisms of enzymatic reactions, biosynthesis of low and high molecular physiologically active compounds; the studies of their structure and properties; biogenesis and pathways of their regulation; metabolism of producers of biologically active compounds, biocatalysis in organic synthesis, applied genetics of microorganisms, applied enzymology; protein and metabolic engineering, biochemical bases of phytoimmunity, applied aspects of biochemical and immunochemical analysis; biodegradation of xenobiotics; biosensors; biomedical research (without clinical studies). Along with experimental works, the journal publishes descriptions of novel research techniques and reviews on selected topics.
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