Yu-Xiu Zhu scite author profile

Nucleotide binding, leucine-rich-repeat (NLR) proteins are the major class of resistance (R) proteins used by plants to defend against pathogen infection. The recognition between NLRs and their cognate pathogen effectors usually triggers a rapid localized cell death, termed the hypersensitive response (HR). Flavone synthase I (FNSI) is one of the key enzymes in the flavone biosynthesis pathway. It also displays salicylic acid (SA) 5-hydroxylase (S5H) activity. A close homolog of FNSI/S5H displays SA 3-hydroxylase (S3H) activity. Both FNSI/S5H and S3H play important roles in plant innate immunity. However, the underlying molecular mechanisms and the relationship between S5H and S3H with the NLR-mediated HR are not known in any plant species. In this study, we identified three genes encoding ZmFNSI-1, ZmFNSI-2 and ZmS3H that are significantly upregulated in a maize line carrying an autoactive NLR Rp1-D21 mutant. Functional analysis showed that ZmFNSI-1 and ZmFNSI-2, but not ZmS3H, suppressed HR conferred by Rp1-D21 and its signaling domain CCD21 when transiently expressed in N. benthamiana. ZmFNSI-1 and ZmFNSI-2 physically interacted with CCD21. Furthermore, ZmFNSI-1 and ZmFNSI-2 interacted with HCT, a key enzyme in lignin biosynthesis pathway, which can also suppress Rp1-D21-mediated HR. These results lay the foundation for the further functional analysis of the roles of FNSI in plant innate immunity.

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Maize metacaspases modulate the defense response mediated by the NLR protein Rp1‐D21 likely by affecting its subcellular localization

Luan

Zhu

et al. 2020

The Plant Journal

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SUMMARYPlants usually employ resistance (R) genes to defend against the infection of pathogens, and most R genes encode intracellular nucleotide‐binding, leucine‐rich repeat (NLR) proteins. The recognition between R proteins and their cognate pathogens often triggers a rapid localized cell death at the pathogen infection sites, termed the hypersensitive response (HR). Metacaspases (MCs) belong to a cysteine protease family, structurally related to metazoan caspases. MCs play crucial roles in plant immunity. However, the underlying molecular mechanism and the link between MCs and NLR‐mediated HR are not clear. In this study, we systematically investigated the MC gene family in maize and identified 11 ZmMCs belonging to two types. Further functional analysis showed that the type I ZmMC1 and ZmMC2, but not the type II ZmMC9, suppress the HR‐inducing activity of the autoactive NLR protein Rp1‐D21 and of its N‐terminal coiled‐coil (CCD21) signaling domain when transiently expressed in Nicotiana benthamiana. ZmMC1 and ZmMC2 physically associate with CCD21 in vivo. We further showed that ZmMC1 and ZmMC2, but not ZmMC9, are predominantly localized in a punctate distribution in both N. benthamiana and maize (Zea mays) protoplasts. Furthermore, the co‐expression of ZmMC1 and ZmMC2 with Rp1‐D21 and CCD21 causes their re‐distribution from being uniformly distributed in the nucleocytoplasm to a punctate distribution co‐localizing with ZmMC1 and ZmMC2. We reveal a novel role of plant MCs in modulating the NLR‐mediated defense response and derive a model to explain it.

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Genome-wide identification of the maize 2OGD superfamily genes and their response to Fusarium verticillioides and Fusarium graminearum

Tang

Zhu

et al. 2021

Gene

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Maize nicotinate N‐methyltransferase interacts with the NLR protein Rp1‐D21 and modulates the hypersensitive response

Liu

Zhu

et al. 2021

Molecular Plant Pathology

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Yu-Xiu Zhu

Fine-Tuning Immunity: Players and Regulators for Plant NLRs

Maize ZmFNSI Homologs Interact with an NLR Protein to Modulate Hypersensitive Response

Maize metacaspases modulate the defense response mediated by the NLR protein Rp1‐D21 likely by affecting its subcellular localization

Genome-wide identification of the maize 2OGD superfamily genes and their response to Fusarium verticillioides and Fusarium graminearum

Maize nicotinate N‐methyltransferase interacts with the NLR protein Rp1‐D21 and modulates the hypersensitive response

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