Effects of a Mixture of Brevibacillus brevis with Other Bacillus sp. Strains against Gray Mold and on Enzyme Activities of Grape

Che, Jian-Mei; Lai, Chengchun; Lai, Gongti; Chen, Qianqian; Liu, Guohong; Liu, Bo

doi:10.3390/agronomy13071724

Cited by 3 publications

(3 citation statements)

References 42 publications

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“…Additionally, B. brevis produces a variety of secondary metabolites, such as tyrocidine, grastin, and adenine, which are responsible for its antimicrobial activity. [5][6][7] Brevibacillus brevis has also been studied to identify its role and interaction with plants and has been found to confer disease resistance against fungal agents in plants like tomatoes, 8 grapes, 9 pigeon pea, 10 tea, 11 etc. Furthermore, B. brevis has been identified as a plant-growth-promoting rhizobacterium (PGPR), [12][13][14] which can act as a biofertilizer, increasing crop yield and soil fertility, while reducing the need for chemical fertilizers.…”

Section: Introductionmentioning

confidence: 99%

Panchagavya-Derived Brevibacillus brevis S1-3: Insights from the Draft Genome on its Antimicrobial and Plant Growth-Promoting Ability

Sattanathan,

Sriraman,

Jemina

et al. 2024

J. Pure Appl. Microbiol.

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Panchagavya has traditionally been used in Indian Ayurvedic practices because of its pro-agricultural and medicinal properties. This study presents the draft genome of a new Brevibacillus brevis S1-3 strain isolated from the fermented product Panchagavya. Through whole-genome sequencing, we determined that the genome of B. brevis S1-3 was 6,348,716 base pairs with a GC content of 54.3%. Genome assembly revealed the presence of 6107 protein-coding genes, 186 tRNA genes, and 13 rRNA genes. Genome annotation and analysis identified the genes involved in metabolism and other cellular processes. We also predicted the presence of several gene clusters associated with plant growth promotion, including indole acetic acid (IAA), gibberellic acid, ammonia, and nitrogen. Our study also revealed the genes responsible for the production of secondary metabolites that displayed a significant correlation with antimicrobial activity. Our results provide new insights into the genomic basis of the plant growth-promoting abilities of B. brevis and pave the way for further research in this field.

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Section: Introductionmentioning

confidence: 99%

Panchagavya-Derived Brevibacillus brevis S1-3: Insights from the Draft Genome on its Antimicrobial and Plant Growth-Promoting Ability

Sattanathan,

Sriraman,

Jemina

et al. 2024

J. Pure Appl. Microbiol.

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“…Botrytis cinerea is the major bunch rot pathogen in temperate grape-growing regions with seasonal rains or high relative humidity conditions [1,2]. The pathogen causes heavy losses in grapes before and after harvest [3].…”

Section: Introductionmentioning

confidence: 99%

“…Ripening berries can also be infected through contact with infected berries [17]. Six infection pathways have been recognized: (1) conidial infection of the style and ovules;…”

Section: Introductionmentioning

confidence: 99%

An Effect and Less Spraying Control Method Successfully Controls Botrytis cinerea on Grapes in China

Wang,

Liu,

Zhang

et al. 2023

Agronomy

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Gray mold caused by Botrytis cinerea is a destructive disease in grapes. Although the preharvest use of pesticides can control it, fungicide resistance in B. cinerea is now common. We used an Effect and Less Spraying Control (ELSC) method for applying fungicides effective against B. cinerea on grapes. The spraying schedule was determined by exploring the key stages of B. cinerea invasion using field and in vitro inoculation tests. The results indicated that the stage most vulnerable to pathogen invasion is the full-bloom stage. The disease incidence/severity in this stage is highest compared with the pre-bloom, 10-days-after-full-bloom, bunch-closure and veraison stages. Given the inoculation results and the threat of residual infected petals, the ELSC method established an optimum spray schedule at full bloom and 10 days after full bloom. To evaluate the ELSC method, four kinds of fungicides were used in an experimental trial in Beijing in 2015 and 2017; Shanghai in 2016; and Hebei in 2019 and 2021. Fludioxonil was the most effective fungicide, followed by Pythium oligandrum (bio-fungicide), difenoconazole + azoxystrobin and pyraclostrobin. ELSC was more effective against B. cinerea than the traditional control schedule, when comparing the disease severity (i.e., 0.07 ± 0.10% in ELSC and 0.49 ± 0.014% in the traditional practice when using fludioxonil). The average yield per hectare in ELSC confirmed that spraying during flowering does not have a deleterious effect on grape yield. It produced a 1224.37 00 kg/ha greater yield than the control group when fludioxonil was applied.

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VdCHS2 Overexpression Enhances Anthocyanin Biosynthesis, Modulates the Composition Ratio, and Increases Antioxidant Activity in Vitis davidii Cells

He,

Lai,

Lin

et al. 2024

Antioxidants

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Anthocyanins are significant secondary metabolites that are essential for plant growth and development, possessing properties such as antioxidant, anti-inflammatory, and anti-cancer activities and cardiovascular protection. They offer significant potential for applications in food, medicine, and cosmetics. However, since anthocyanins are mainly obtained through plant extraction and chemical synthesis, they encounter various challenges, including resource depletion, ecological harm, environmental pollution, and the risk of toxic residuals. To address these issues, this study proposes a plant cell factory approach as a novel alternative solution for anthocyanin acquisition. In this study, the VdCHS2 gene was successfully transformed into spine grape cells, obtaining a high-yield anthocyanin cell line designated as OE1. Investigations of the light spectrum demonstrated that white light promoted spine grape cell growth, while short-wavelength blue light significantly boosted anthocyanin production. Targeted metabolomics analysis revealed that the total anthocyanin content in the OE1 cell line reached 11 mg/g, representing a 60% increase compared to the WT. A total of 54 differentially accumulated metabolites were identified, among which 44 were upregulated. Overexpression of the CHS gene enhanced the expression of downstream genes involved in anthocyanin biosynthesis, resulting in the differential expression of CHI, F3Hb, F3′5′H, DFR4, and LDOX. This led to the differential accumulation of anthocyanin monomers, predominantly consisting of 3-O-glucosides and 3-O-galactosides, thereby causing alterations in anthocyanin levels and composition. Furthermore, the OE1 cell line increased the activity of various antioxidant enzymes, improved the clearance of reactive oxygen species, and reduced the levels of hydrogen peroxide (H2O2) and malondialdehyde (MDA). The subsequent cultivation of the transformed OE1 cell line, in conjunction with cell suspension culture, established a plant cell factory for anthocyanin production, significantly increasing anthocyanin yield while shortening the culture duration. This study elucidates the molecular mechanisms through which the VdCHS2 gene influenced anthocyanin accumulation and compositional variations. Additionally, it established a model for a small-scale anthocyanin plant cell factory, thereby providing a theoretical and practical foundation for the targeted synthesis of anthocyanin components and the development and utilization of plant natural products.

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Effects of a Mixture of Brevibacillus brevis with Other Bacillus sp. Strains against Gray Mold and on Enzyme Activities of Grape

Cited by 3 publications

References 42 publications

Panchagavya-Derived Brevibacillus brevis S1-3: Insights from the Draft Genome on its Antimicrobial and Plant Growth-Promoting Ability

Panchagavya-Derived Brevibacillus brevis S1-3: Insights from the Draft Genome on its Antimicrobial and Plant Growth-Promoting Ability

An Effect and Less Spraying Control Method Successfully Controls Botrytis cinerea on Grapes in China

VdCHS2 Overexpression Enhances Anthocyanin Biosynthesis, Modulates the Composition Ratio, and Increases Antioxidant Activity in Vitis davidii Cells

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