Abstract
Phytopathogenic oomycetes, such as Phytophthora infestans, potentially secrete many RxLR effector proteins into plant cells to modulate plant immune responses and promote colonization. However, the molecular mechanisms by which these RxLR effectors suppress plant immune responses are largely unknown. Here we describe an RxLR effector PITG_22798 (Gene accession: XM_002998349) that was upregulated during early infection of potato by P. infestans. By employment of agroinfiltration, we observed that PITG_22798 triggers cell death in Nicotiana benthamiana. Confocal microscopic examination showed that PITG_22798-GFP (Green Fluorescent Protein) located in the host nucleus when expressed transiently in N. benthamiana leaves. A nuclear localization signal (NLS) domain of PITG_22798 is important for nuclear localization and cell death-inducing activity. Sequence alignment and transient expression showed that PITG_22798 from diverse P. infestans isolates are conserved, and transient expression of PITG_22798 enhances P. infestans colonization of N. benthamiana leaves, which suggests that PITG_22798 contributes to P. infestans infection. PITG_22798-triggered cell death is dependent on SGT1-mediated signaling and is suppressed by the P. infestans avirulence effector 3b (AVR3b). The present research provides a clue for further investigation of how P. infestans effector PITG_22798 associates with and modulates host immunity.
Highlights
Plants are attacked by various pathogens and defend themselves via multiple resistance mechanisms [1,2]
Plant immunity can be divided into two types, pathogen-associated molecular pattern-triggered immunity (PTI) and effector-triggered immunity (ETI) [3]
It is documented that the genomes of P. infestans, P. sojae, P. ramorum, and Hyaloperonospora arabidopsidis have more than 550, 390, 370, and 130 genes, respectively, encoding potential effector proteins with RxLR-dEER motifs [8,10]
Summary
Plants are attacked by various pathogens and defend themselves via multiple resistance mechanisms [1,2]. Fungi and oomycetes can secrete a wide diversity of effectors into host cells to manipulate plant immunity. These effectors are thought to determine the outcome of plant–microbe interactions [4,5]. RxLR type effectors were classified based on a common sequence pattern identified in oomycete avirulence proteins. They are modular proteins that contain N-terminal signal peptides, RxLR-dEER motif, and diverse and rapidly evolving C-terminal effector domains [11,12]. A P. infestans RXLR effector PITG_04314 targets plant PP1c isoforms by re-localizing PP1c isoforms from the nucleolus to the host nucleoplasm to promote late blight disease [18]
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