Snf1 Kinase Differentially Regulates Botrytis cinerea Pathogenicity according to the Plant Host

Lengyel, Szabina; Rascle, Christine; Poussereau, Nathalie; Bruel, Christophe; Sella, Luca; Choquer, Mathias; Favaron, Francesco

doi:10.3390/microorganisms10020444

Cited by 6 publications

(2 citation statements)

References 61 publications

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“…[112] Verticillium dahlia; Cochliobolus sativus; Pyrenophora tritici-repentis; Fusarium tricinctum; Penicillium cyclopium; Penicillium freii [113] Papiliotrema laurentii SDBR-CMU-S1-02; Rhodosporidiobolus ruineniae; Apiotrichum scarabaeorum; Aureobasidium melanogenum; Galactomyces sp. S3-06 [114] Rhizopus oryzae strain NRRL 29086; Epicoccum nigrum (MH102081); Trichoderma paraviridescens; Penicillium brevicompactum [115] Aspergillus luchuensisInui strain RF7398; Aspergillus acidus (strain RF 7398) [116] Penicillium canescens (PcXylA) [117] Talaromyces amestolkiae [118] Aspergillus oryzae strain NZYM-FA [119] Fusarium graminearum; Acremonium cellulolyticus; Talaromyces versatilis; Penicillium chrysogenum P33; Talaromyces leycettanus [120] Botrytis cinerea [121] Aspergillus giganteus; Chaetomium trilateral…”

Section: Food Industrymentioning

confidence: 99%

Xylanase-Producing Microbes and Their Real-World Application

Phuyal,

Budhathoki,

Bista

et al. 2023

International Journal of Chemical Engineering

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The present study is focused on the availability of microbial sources capable of producing xylanase, a hemicelluloses-degrading enzyme with multiple modes of action along with specificity, and their real-world applications. For the accumulation of suitable data, article surfing was carried out using multiple search engines viz. Hinari and PubMed; irrelevant and duplicate articles were discarded and articles were summarized in a narrative way herein. This review article was written aiming to bridge the recent research activities with the commercial activities of xylanase going on around the globe. The readers would be able to acknowledge themselves with the basic idea of the hydrolytic enzyme xylanase, their classification representing their different families, presenting the affinity of different families at the structural level, the sources, and the commercial implications that have been going on alone and in combination. The major hemicellulose, Xylan is digested with the help of combination other enzymes such as alpha-amylase, subtilisin, protease, and endo-1,3(4)-β-glucanase along with xylanase. Xylanase has a diverse applications such as pharmaceutical, food and feed, bakery, paper and pulp, textile, and bio-refinery industries. The objective of this review article is to compile microbial sources of this enzyme and its application for betterment of human kind.

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Section: Food Industrymentioning

confidence: 99%

Xylanase-Producing Microbes and Their Real-World Application

Phuyal,

Budhathoki,

Bista

et al. 2023

International Journal of Chemical Engineering

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“…Consequently, only a few genes have been described as having a major role in pathogenicity. Among them, some transcription factors and kinases have been identified, such as sucrose non-fermenting protein kinase 1 (BcSNF1) and the pH regulator BcPACC (Lengyel et al, 2022; Rascle et al, 2018). Furthermore, chitin synthases like Bcchs3a are also important pathogenicity factors, influencing fungal adhesion to the host and activating plant defense mechanisms (Arbelet et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Unravelling the Interplay of Nitrogen Nutrition and theBotrytis cinereapectin lyase BcPNL1 in ModulatingArabidopsis thalianaSusceptibility

Davière,

Voxeur,

Jolivet

et al. 2024

Preprint

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In this study, we investigated the intricate interplay between nitrogen nutrition, and the dynamics of pectin degradation during plant-pathogen interactions, using Arabidopsis thaliana and Botrytis cinerea as a model pathosystem. Our findings revealed a noteworthy impact of nitrogen availability on the pectin degrading activity of the B. cinerea pectin lyase 1 (PNL) for which the mutant strains presented a reduced pathogenicity restored by complementation. More precisely, infected nitrogen-sufficient (high N) plants exhibited an increased release of PNL-derived oligogalacturonides compared to infected nitrogen-deficient (low N) plants. This correlated with an elevated expression of jasmonic acid repressor genes in high N plants, rendering them more susceptible to B. cinerea. Using ΔBcpnl1 deletion mutants, we demonstrated that the increased production of BcPNL1-derived oligogalacturonides under high N conditions was responsible for the increased expression of jasmonic acid repressor genes, significantly contributing to the higher susceptibility of high N plants to B. cinerea. In conclusion, we demonstrated that BcPNL1 is a major pathogenicity factor during B. cinerea interaction that is affected by the plant N nutrition conditions.

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