Recruiting grape-isolated antagonistic yeasts for the sustainable bio-management of Botrytis cinerea on grapes

IF 4 2区 农林科学 Q2 FOOD SCIENCE & TECHNOLOGY
Sebahat Oztekin, Funda Karbancioglu-Guler
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引用次数: 0

Abstract

Botrytis cinerea is the causative agent of grey mould disease in grapes, which was linked to significant postharvest losses. This study examined three grape-isolated yeasts (Metschnikowia aff. fructicola, Metschnikowia pulcherrima, and Hansenispora uvarum) through in vitro and in vivo tests on detached grape berries against grey mould, as well as the elucidation of their possible mechanisms of action. The antifungal mechanism of action of yeasts was determined by the lytic enzyme activity, inhibition of spore germination, biofilm activity, iron depletion, diffusible metabolites, wound-site colonisation, mycocin, and volatile organic compounds (VOCs) production. The highest in vitro efficacy (83.13%) was observed on M. aff. fructicola, followed by M. pulcherrima (82.10%) and H. uvarum (71.66%). Metschnikowia yeasts exhibited comparable enzyme activities, including protease, β-1,3 glucanase, gelatinase chitinase, and cellulase, while H. uvarum had a poor enzymatic activity with chitinase and gelatinase. M. aff. fructicola showed relatively higher iron depletion activity than M. pulcherrima, while M. pulcherrima outperformed via diffusible metabolites. All yeast cultures significantly reduced spore germination by at least 86%. Overall, M. aff. fructicola exhibited the highest biocontrol activity with its iron depletion, inhibition of conidial germination, biofilm formation, VOCs, and well colonisation on grape berries. M. aff. fructicola 1-UDM outperformed all other yeasts by significantly reducing disease incidence and lesion diameter values (93.4% and 94.3%, respectively). Remarkably, H. uvarum VOCs demonstrated potential as a biofumigant for suppressing grey mould. All yeasts are well adapted to their ecological niche to bio-protect grapes from grey mould disease.

Abstract Image

招募葡萄分离拮抗酵母,对葡萄上的灰葡萄孢菌进行可持续生物管理
灰葡萄孢菌是葡萄灰霉病的致病菌,与葡萄采后的重大损失有关。本研究通过对分离的葡萄果实进行抗灰霉病的体内外试验,研究了三种葡萄分离酵母菌(Metschnikowia aff. fructicola、Metschnikowia pulcherrima 和 Hansenispora uvarum),并阐明了它们可能的作用机制。酵母菌的抗真菌作用机制是通过裂解酶活性、孢子萌发抑制、生物膜活性、铁耗竭、可扩散代谢物、伤口定植、霉菌素和挥发性有机化合物(VOCs)的产生来确定的。对 M. aff. fructicola 的体外效力最高(83.13%),其次是 M. pulcherrima(82.10%)和 H. uvarum(71.66%)。Metschnikowia 酵母菌的酶活性相当,包括蛋白酶、β-1,3 葡聚糖酶、明胶酶、几丁质酶和纤维素酶,而 H. uvarum 的几丁质酶和明胶酶活性较差。M. aff. fructicola 比 M. pulcherrima 表现出更高的铁耗竭活性,而 M. pulcherrima 通过可扩散代谢物表现更佳。所有酵母培养物都能明显减少至少 86% 的孢子萌发。总体而言,果蝇酵母菌的生物控制活性最高,它能消耗铁、抑制分生孢子萌发、生物膜形成、挥发性有机化合物以及在葡萄果实上的良好定殖。M. aff. fructicola 1-UDM 的表现优于所有其他酵母菌,可显著降低病害发生率和病害直径值(分别为 93.4% 和 94.3%)。值得注意的是,H. uvarum VOCs 具有作为生物熏蒸剂抑制灰霉病的潜力。所有酵母菌都能很好地适应其生态位,为葡萄灰霉病提供生物保护。
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来源期刊
Food and Energy Security
Food and Energy Security Energy-Renewable Energy, Sustainability and the Environment
CiteScore
9.30
自引率
4.00%
发文量
76
审稿时长
19 weeks
期刊介绍: Food and Energy Security seeks to publish high quality and high impact original research on agricultural crop and forest productivity to improve food and energy security. It actively seeks submissions from emerging countries with expanding agricultural research communities. Papers from China, other parts of Asia, India and South America are particularly welcome. The Editorial Board, headed by Editor-in-Chief Professor Martin Parry, is determined to make FES the leading publication in its sector and will be aiming for a top-ranking impact factor. Primary research articles should report hypothesis driven investigations that provide new insights into mechanisms and processes that determine productivity and properties for exploitation. Review articles are welcome but they must be critical in approach and provide particularly novel and far reaching insights. Food and Energy Security offers authors a forum for the discussion of the most important advances in this field and promotes an integrative approach of scientific disciplines. Papers must contribute substantially to the advancement of knowledge. Examples of areas covered in Food and Energy Security include: • Agronomy • Biotechnological Approaches • Breeding & Genetics • Climate Change • Quality and Composition • Food Crops and Bioenergy Feedstocks • Developmental, Physiology and Biochemistry • Functional Genomics • Molecular Biology • Pest and Disease Management • Post Harvest Biology • Soil Science • Systems Biology
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