SMART Bacteriophage Mixes: Sustainable Biocontrol for Onion Soft Rot

智能噬菌体混合物：洋葱软腐病的可持续生物防治

• 批准号: 10029191
• 金额: $ 48.65万
• 依托单位: APS BIOCONTROL LIMITED
• 依托单位国家: 英国
• 项目类别: Collaborative R&D
• 财政年份: 2022
• 资助国家: 英国
• 起止时间: 2022 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=10029191
• 关键词: SMART; Bacteriophage; Mixes; Sustainable; Biocontrol

Globally, onions are the second-most popular vegetable, with an annual production of 99 Million tonnes. In the UK, they are the fourth-most consumed vegetable and growing in popularity, with recent lockdowns increasing the publics' perceived health benefits of eating vegetables and enthusiasm for home cooking. Currently, home onion production fulfils only ˜50% of UK demand (˜800kt p.a.), with the deficit made up by imports, mainly from The Netherlands but as far away as New Zealand, associated with greater environmental impact and higher overall prices, passed onto the customer.**Our vision** is to allow UK growers to grow, store and supply onions to the UK market all-year-around, adding economic value and implementing more sustainable production methods. Improved-crop quality is key to increased productivity and this project will address bacterial-crop infections that produce significant in-store rots, resulting in crop right-offs, economic losses (£8.5M p.a.) and reputational damage. These losses tighten the UK supply, increasing the reliance on imports.To date, a lack of detailed knowledge of the relevant onion-rot pathogens has hampered the development of effective rot-disease control, with the industry having access to relatively cursory identification methods. This project's **innovation focus** lies in using new pathogen-characterisation data to target control measures, bringing both economic and environmental added value to the UK-onion sector, in addition to being applicable to the £32.8Bn global market.The **key objective** is to harness new knowledge of onion-rot pathogens to develop a sustainable, low-risk biological-control approach based on bacteriophage; naturally-occurring, highly-specific antimicrobial agents, which kill bacteria, with zero non-target effects. The lead partner has made considerable progress in developing the technology for plant protection but in relatively niche markets and with often limited pathogen characterisation extending development timelines. The biology and genetics of onion-rot pathogens and those from the wider-onion growing environment (microbiome) will be characterised, effectively creating a comprehensive library of the most prevalent and virulent onion-rot bacteria. This will act as a valuable resource for bacteriophage isolation and more focussed matching against key pathogens. The **aim** is to derive a pilot-bacteriophage formulation and investigate the feasibility of the rot-control approach, both in the laboratory, as well as in glasshouse and field investigations.The project addresses a timely opportunity given the impact of rot-induced losses on the UK onion industry and the wider global opportunity. New methods of targeted-pathogen characterisation will also enable the lead SME to maximise commercialisation opportunities, within a rapidly-growing global biopesticide market.

在全球范围内，洋葱是第二大最受欢迎的蔬菜，年产量为9900万吨。在英国，它们是第四大消费蔬菜，并且越来越受欢迎，最近的封锁增加了公众对吃蔬菜的健康益处和对家庭烹饪的热情。目前，国内洋葱产量仅能满足英国需求的50%（每年800千吨），赤字由进口弥补，主要来自荷兰，但远至新西兰，与更大的环境影响和更高的整体价格相关，转移到客户身上。我们的愿景是让英国种植者全年都能种植、储存和向英国市场供应洋葱，增加经济价值，并实施更可持续的生产方法。提高作物质量是提高生产力的关键，该项目将解决细菌作物感染问题，这些细菌作物感染会产生严重的店内腐烂，导致作物权利，经济损失（每年850万英镑）和名誉损害。这些损失使英国供应紧张，增加了对进口的依赖。到目前为止，缺乏相关洋葱腐烂病原体的详细知识阻碍了有效控制腐烂疾病的发展，该行业只能获得相对粗略的识别方法。该项目的 ** 创新重点 ** 在于使用新的病原体特征数据来确定控制措施，为英国洋葱行业带来经济和环境附加值，此外还适用于328亿英镑的全球市场。** 主要目标 ** 是利用洋葱腐烂病原体的新知识，开发基于噬菌体的可持续，低风险生物控制方法;天然存在的，高度特异性的抗菌剂，可以杀死细菌，零非目标效应。主要合作伙伴在开发植物保护技术方面取得了相当大的进展，但在相对利基市场，病原体特征往往有限，延长了开发时间。洋葱腐烂病原体的生物学和遗传学以及来自更广泛的洋葱生长环境（微生物组）的生物学和遗传学将被表征，有效地创建一个最普遍和最致命的洋葱腐烂细菌的综合库。这将作为噬菌体分离和针对关键病原体的更集中匹配的宝贵资源。我们的目标是获得一个试点噬菌体配方，并调查腐烂控制方法的可行性，无论是在实验室，以及在温室和实地调查。该项目解决了一个及时的机会，因为腐烂引起的损失对英国洋葱产业的影响和更广泛的全球机会。新的目标病原体表征方法也将使领先的中小企业能够在快速增长的全球生物农药市场中最大限度地利用商业化机会。