Área de Fisiología Vegetal, Departamento de Ingeniería y Ciencias Agrarias, Universidad de León, E-24071, León, Spain.
Área de Zoología, Departamento de Biodiversidad y Gestión Ambiental, Universidad de León, E-24071, León, Spain.
Phytopathology. 2021 Dec;111(12):2332-2342. doi: 10.1094/PHYTO-10-20-0449-R. Epub 2021 Dec 13.
Common bean () is attacked by several pathogens such as the biotrophic gamma-proteobacterium pv. . To study the pv. -bean interaction during the first stages of infection, leaf discs of a susceptible bean cultivar Riñón were infected with pathogenic pv. . Using this experimental system, we tested six new putative wall-associated kinase (WAK) receptors, previously identified in silico. These six WAKs (PvWAKs) showed high protein sequence homology to the well-described WAK1 (AtWAK1) receptor and, by phylogenetic analysis, clustered together with AtWAKs. The expression of 1 increased at very early stages after the pv. infection. Time course experiments were performed to evaluate the accumulation of apoplastic HO, Ca influx, total HO, antioxidant enzymatic activities, lipid peroxidation, and the concentrations of abscisic acid and salicylic acid (SA), as well as the expression of six defense-related genes: , , , , , and . The results showed that overexpression of occurred 2 h after pv. infection without a concomitant increase in SA levels. Although apoplastic HO increased after infection, the oxidative burst was neither intense nor rapid, and an efficient antioxidant response did not occur, suggesting that the observed cellular damage was caused by the initial increase in total HO early after infection. In conclusion, Riñón can perceive the presence of pv. , but this recognition results in only a modest and slow activation of host defenses, leading to high susceptibility to pv. .
菜豆()易受多种病原体的侵袭,如专性活体营养型γ-变形菌 pv. 。为了研究 pv. 与豆类相互作用的早期阶段,我们用致病 pv. 感染敏感菜豆品种 Riñón 的叶圆片。利用这个实验系统,我们测试了六个先前在计算机中鉴定的新的假定的细胞壁相关激酶(WAK)受体。这六个 PvWAKs( pv 。WAKs)与描述充分的 WAK1(AtWAK1)受体具有高度的蛋白质序列同源性,并通过系统发育分析与 AtWAKs 聚类在一起。在 pv. 感染后非常早期阶段, 1 的表达增加。进行时程实验以评估质外体 HO 的积累、Ca 内流、总 HO、抗氧化酶活性、脂质过氧化、脱落酸和水杨酸(SA)的浓度以及六个防御相关基因的表达: , , , , 和 。结果表明,在 pv. 感染后 2 小时发生 1 的过表达,而 SA 水平没有同时增加。尽管感染后质外体 HO 增加,但氧化爆发既不强烈也不快,并且没有发生有效的抗氧化反应,这表明观察到的细胞损伤是由感染后早期总 HO 的初始增加引起的。总之,Riñón 可以感知 pv. 的存在,但这种识别只会导致宿主防御的适度和缓慢激活,导致对 pv. 的高度易感性。
