International Journal of Molecular Sciences

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Molecular Trends and Prospects in Plant-Pathogen Interactions

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Prof. Dr. Tao Chen

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State Key Laboratory of Agricultural Microbiology, Huazhong Agricultural University, Wuhan 430070, China
Interests: plant-pathogen interactions; plant pathology; microbiology; plant microbiome

Special Issue Information

Dear Colleagues,

A Special Issue on "Molecular Trends and Prospects in Plant-Pathogen Interactions" would focus on the latest advancements and future directions in understanding the interactions between plants and pathogens at the molecular level. This Special Issue would aim to provide a comprehensive overview of the current state of the research in this field and highlight emerging trends and potential prospects for further exploration. The topics covered in this Special Issue could include, but are not limited to, the following:

Molecular mechanisms of plant immunity.
Pathogen effector proteins and their role in virulence.
Omics approaches in studying plant–pathogen interactions.
Plant defense signaling networks.
Novel strategies for disease control.
Emerging trends and future prospects in the field of plant–pathogen interactions.

Overall, this Special Issue would serve as a platform for researchers to share their latest findings, exchange ideas, and stimulate further research in the field of molecular plant pathology.

Prof. Dr. Tao Chen
Guest Editor

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27 pages, 4114 KiB

Open AccessArticle

Antifungal Properties of Bio-AgNPs against D. pinodes and F. avenaceum Infection of Pea (Pisum sativum L.) Seedlings

by Karolina Stałanowska, Joanna Szablińska-Piernik, Agnieszka Pszczółkowska, Viorica Railean, Miłosz Wasicki, Paweł Pomastowski, Lesław Bernard Lahuta and Adam Okorski

Int. J. Mol. Sci. 2024, 25(8), 4525; https://doi.org/10.3390/ijms25084525 - 20 Apr 2024

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Abstract

Ascochyta blight and Fusarium root rot are the most serious fungal diseases of pea, caused by D. pinodes and F. avenaceum, respectively. Due to the lack of fully resistant cultivars, we proposed the use of biologically synthesized silver nanoparticles (bio-AgNPs) as a novel protecting agent. In this study, we evaluated the antifungal properties and effectiveness of bio-AgNPs, in in vitro (poisoned food technique; resazurin assay) and in vivo (seedlings infection) experiments, against D. pinodes and F. avenaceum. Moreover, the effects of diseases on changes in the seedlings’ metabolic profiles were analyzed. The MIC for spores of both fungi was 125 mg/L, and bio-AgNPs at 200 mg/L most effectively inhibited the mycelium growth of D. pinodes and F. avenaceum (by 45 and 26%, respectively, measured on the 14th day of incubation). The treatment of seedlings with bio-AgNPs or fungicides before inoculation prevented the development of infection. Bio-AgNPs at concentrations of 200 mg/L for D. pinodes and 100 mg/L for F. avenaceum effectively inhibited infections’ spread. The comparison of changes in polar metabolites’ profiles revealed disturbances in carbon and nitrogen metabolism in pea seedlings by both pathogenic fungi. The involvement of bio-AgNPs in the mobilization of plant metabolism in response to fungal infection is also discussed. Full article

(This article belongs to the Special Issue Molecular Trends and Prospects in Plant-Pathogen Interactions)

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13 pages, 2531 KiB

Open AccessBrief Report

MaSMG7-Mediated Degradation of MaERF12 Facilitates Fusarium oxysporum f. sp. cubense Tropical Race 4 Infection in Musa acuminata

by Huoqing Huang, Siwen Liu, Yile Huo, Yuzhen Tian, Yushan Liu, Ganjun Yi and Chunyu Li

Int. J. Mol. Sci. 2024, 25(6), 3420; https://doi.org/10.3390/ijms25063420 - 18 Mar 2024

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Abstract

Modern plant breeding relies heavily on the deployment of susceptibility and resistance genes to defend crops against diseases. The expression of these genes is usually regulated by transcription factors including members of the AP2/ERF family. While these factors are a vital component of the plant immune response, little is known of their specific roles in defense against Fusarium oxysporum f. sp. cubense tropical race 4 (Foc TR4) in banana plants. In this study, we discovered that MaERF12, a pathogen-induced ERF in bananas, acts as a resistance gene against Foc TR4. The yeast two-hybrid assays and protein-protein docking analyses verified the interaction between this gene and MaSMG7, which plays a role in nonsense-mediated RNA decay. The transient expression of MaERF12 in Nicotiana benthamiana was found to induce strong cell death, which could be inhibited by MaSMG7 during co-expression. Furthermore, the immunoblot analyses have revealed the potential degradation of MaERF12 by MaSMG7 through the 26S proteasome pathway. These findings demonstrate that MaSMG7 acts as a susceptibility factor and interferes with MaERF12 to facilitate Foc TR4 infection in banana plants. Our study provides novel insights into the biological functions of the MaERF12 as a resistance gene and MaSMG7 as a susceptibility gene in banana plants. Furthermore, the first discovery of interactions between MaERF12 and MaSMG7 could facilitate future research on disease resistance or susceptibility genes for the genetic improvement of bananas. Full article

(This article belongs to the Special Issue Molecular Trends and Prospects in Plant-Pathogen Interactions)

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