The role of a β-1,3-1,4-glucanase derived from Bacillus amyloliquefaciens FS6 in the protection of ginseng against Botrytis cinerea and Alternaria panax

Nicotinamide adenine dinucleotide (NADPH) oxidases have been shown to be involved in various differentiation processes in fungi. We investigated the role of two NADPH oxidases in the necrotrophic phytopathogenic fungus, Botrytis cinerea. The genes bcnoxA and bcnoxB were cloned and characterized; their deduced amino acid sequences show high homology to fungal NADPH oxidases. Analyses of single and double knock-out mutants of both NADPH oxidase genes showed that both bcnoxA and bcnoxB are involved in formation of sclerotia. Both genes have a great impact on pathogenicity: whereas bcnoxB mutants showed a retarded formation of primary lesions, probably due to an impaired formation of penetration structures, bcnoxA mutants were able to penetrate host tissue in the same way as the wild type but were much slower in colonizing the host tissue. Double mutants showed an additive effect: they were aberrant in penetration and colonization of plant tissue and, therefore, almost nonpathogenic. To study the structure of the fungal Nox complex in more detail, bcnoxR (encoding a homolog of the mammalian p67phox, a regulatory subunit of the Nox complex) was functionally characterized. The phenotype of ΔbcnoxR mutants is identical to that of ΔbcnoxAB double mutants, providing evidence that BcnoxR is involved in activation of both Bcnox enzymes.

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MICROBIOLOGICAL CONTROL OF BOTRYTIS CINEREA PERS. I. THE ROLE OF pH CHANGES AND BACTERIAL ANTAGONISM

Annals of Applied Biology ◽

10.1111/j.1744-7348.1951.tb07795.x ◽

1951 ◽

Vol 38 (1) ◽

pp. 169-184 ◽

Cited By ~ 17

Author(s):

F. J. NEWHOOK

Keyword(s):

Botrytis Cinerea ◽

Ph Changes ◽

Bacterial Antagonism ◽

Microbiological Control

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Role of the Calcium-Binding Residues Asp231, Asp233, and Asp438 in Alpha-Amylase of Bacillus amyloliquefaciens as Revealed by Mutational Analysis

Current Microbiology ◽

10.1007/s00284-009-9517-5 ◽

2009 ◽

Vol 60 (3) ◽

pp. 162-166 ◽

Cited By ~ 14

Author(s):

Yang Liu ◽

Wei Shen ◽

Gui-yang Shi ◽

Zheng-xiang Wang

Keyword(s):

Calcium Binding ◽

Bacillus Amyloliquefaciens ◽

Mutational Analysis ◽

Alpha Amylase ◽

Binding Residues

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Investigation of the role of AcTPR2 in kiwifruit and its response to Botrytis cinerea infection

10.21203/rs.3.rs-46966/v2 ◽

2020 ◽

Author(s):

Zhexin Li ◽

Jian-Bin Lan ◽

Yi-Qing Liu ◽

Li-Wang Qi ◽

Jianmin Tang

Keyword(s):

Disease Resistance ◽

Botrytis Cinerea ◽

Indole Acetic Acid ◽

Phenylalanine Ammonia Lyase ◽

Molecular Breeding ◽

Gray Mold ◽

Virus Induced Gene Silencing ◽

Defensive Enzymes ◽

Endogenous Phytohormones

Abstract Background: Elucidation of the regulatory mechanism of kiwifruit response to gray mold disease caused by Botrytis cinerea can provide the basis for its molecular breeding to impart resistance against this disease. In this study, 'Hongyang' kiwifruit served as the experimental material; the TOPLESS/TOPLESS-RELATED (TPL/TPR) co-repressor gene AcTPR2 was cloned into a pTRV2 vector (AcTPR2-TRV) and the virus-induced gene silencing technique was used to establish the functions of the AcTPR2 gene in kiwifruit resistance to Botrytis cinerea.Results: Virus-induced silencing of AcTPR2 enhanced the susceptibility of kiwifruit to Botrytis cinerea. Defensive enzymes such as superoxide dismutase (SOD), peroxidase (POD), catalase (CAT), and phenylalanine ammonia-lyase (PAL) and endogenous phytohormones such as indole acetic acid (IAA), gibberellin (GA3), abscisic acid (ABA), and salicylic acid (SA) were detected. Kiwifruit activated these enzymes and endogenous phytohormones in response to pathogen-induced stress and injury. The expression levels of the IAA signaling genes—AcNIT, AcARF1, and AcARF2—were higher in the AcTPR2-TRV treatment group than in the control. The IAA levels were higher and the rot phenotype was more severe in AcTPR2-TRV kiwifruits than that in the control. These results suggested that AcTPR2 downregulation promotes expression of IAA and IAA signaling genes and accelerates postharvest kiwifruit senescence. Further, Botrytis cinerea dramatically upregulated AcTPR2, indicating that AcTPR2 augments kiwifruit defense against pathogens by downregulating the IAA and IAA signaling genes.Conclusions: The results of the present study could help clarify the regulatory mechanisms of disease resistance in kiwifruit and furnish genetic resources for molecular breeding of kiwifruit disease resistance.

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Diversified Regulation of Cytokinin Levels and Signaling During Botrytis cinerea Infection in Arabidopsis

Frontiers in Plant Science ◽

10.3389/fpls.2021.584042 ◽

2021 ◽

Vol 12 ◽

Author(s):

Beibei Li ◽

Ruolin Wang ◽

Shiya Wang ◽

Jiang Zhang ◽

Ling Chang

Keyword(s):

Botrytis Cinerea ◽

Response Regulator ◽

Plant Immunity ◽

Defense Responses ◽

Cytokinin Oxidase ◽

Plant Defense Responses ◽

Necrotrophic Pathogen ◽

Transcriptional Changes ◽

Complex Regulation

Cytokinins (CKs) can modulate plant immunity to various pathogens, but how CKs are involved in plant defense responses to the necrotrophic pathogen Botrytis cinerea is still unknown. Here, we found that B. cinerea infection induced transcriptional changes in multiple genes involved in the biosynthesis, degradation, and signaling of CKs, as well as their contents, in pathogen-infected Arabidopsis leaves. Among the CKs, the gene expression of CYTOKININ OXIDASE/DEHYDROGENASE 5 (CKX5) was remarkably induced in the local infected leaves and the distant leaves of the same plant without pathogen inoculation. Cis-zeatin (cZ) and its riboside (cZR) accumulated considerably in infected leaves, suggesting an important role of the cis-zeatin type of CKs in the plant response to B. cinerea. Cytokinin double-receptor mutants were more susceptible to B. cinerea infection, whereas an exogenous CK treatment enhanced the expression levels of defense-related genes and of jasmonic acid (JA) and ethylene (ET), but not salicylic acid (SA), resulting in higher resistance of Arabidopsis to B. cinerea. Investigation of CK responses to B. cinerea infection in the JA biosynthesis mutant, jar1-1, and ET-insensitive mutant, ein2-1, showed that CK signaling and levels of CKs, namely, those of isopentenyladenine (iP), isopentenyladenine riboside (iPR), and trans-zeatin (tZ), were enhanced in jar1-1-infected leaves. By contrast, reductions in iP, iPR, tZ, and tZ riboside (tZR) as well as cZR contents occurred in ein2-1-infected leaves, whose transcript levels of CK signaling genes were likewise differentially regulated. The Arabidopsis Response Regulator 5 (ARR5) gene was upregulated in infected leaves of ein2-1 whereas another type-A response regulator, ARR16, was significantly downregulated, suggesting the existence of a complex regulation of CK signaling via the ET pathway. Accumulation of the cis-zeatin type of CKs in B. cinerea-infected leaves depended on ET but not JA pathways. Collectively, our findings provide evidence that CK responds to B. cinerea infection in a variety of ways that are differently modulated by JA and ET pathways in Arabidopsis.

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