Long-term survival of asexual Zymoseptoria tritici spores in the environment.

IF 4.4 1区 生物学 Q1 BIOLOGY
William T Kay, Paul O'Neill, Sarah J Gurr, Helen N Fones
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引用次数: 0

Abstract

Background: The fungal phytopathogen Zymoseptoria tritici, causal agent of the economically damaging Septoria tritici blotch of wheat, is different from most foliar fungal pathogens in that its germination occurs slowly and apparently randomly after arrival on the leaf surface and is followed by a potentially prolonged period of epiphytic growth and even reproduction, during which no feeding structures are formed by the fungus. Thus, understanding the cues for germination and the mechanisms that underpin survival in low-nutrient environments could provide key new avenues for disease control.

Results: In this work, we examine survival, culturability and virulence of spores following transfer from a high nutrient environment to water. We find that a sub-population of Z. tritici spores can survive and remain virulent for at least 7 weeks in water alone, during which time multicellular structures split to single cells. The fungus relies heavily on stored lipids; however, if cell suspensions in water are dried, the cells survive without lipid utilisation. Changes in gene expression in the first hours after suspension in water reflect adaptation to stress, while longer term starvation (7 days) induces changes particularly in primary metabolism and cytochrome P450 (CYP) gene expression. Importantly, we also found that Z. tritici spores are equally or better able to survive in soil as in water, and that rain-splash occurring 49 days after soil inoculation can transfer cells to wheat seedlings growing in inoculated soil and cause Septoria leaf blotch disease.

Conclusions: Z. tritici blastospores can survive in water or soil for long periods, potentially spanning the intercrop period for UK winter wheat. They rely on internal lipid stores, with no external nutrition, and although a large proportion of spores do not survive for such an extended period, those that do remain as virulent as spores grown on rich media. Thus, Z. tritici has exceptional survival strategies, which are likely to be important in understanding its population genetics and in developing novel routes for Septoria leaf blotch control.

三尖杉无性孢子在环境中的长期存活。
背景:真菌植物病原体三尖杉菌(Zymoseptoria tritici)是具有经济危害性的小麦三尖杉斑病(Septoria tritici blotch)的病原菌,它与大多数叶面真菌病原体不同,其萌发过程缓慢,在到达叶面后显然是随机的,随后可能会有一段较长的附生生长甚至繁殖期,在此期间真菌不会形成取食结构。因此,了解低营养环境中的萌发线索和存活机制可为病害控制提供关键的新途径:在这项工作中,我们研究了孢子从高营养环境转移到水中后的存活率、可培养性和毒力。我们发现,Z. tritici 孢子的一个亚群可在水中存活至少 7 周并保持毒性,在此期间,多细胞结构分裂为单细胞。这种真菌严重依赖于储存的脂质;然而,如果将水中的细胞悬浮液烘干,细胞在不利用脂质的情况下也能存活。悬浮在水中后最初几小时内基因表达的变化反映了对压力的适应,而长期饥饿(7 天)会引起变化,特别是初级代谢和细胞色素 P450(CYP)基因表达的变化。重要的是,我们还发现 Z. tritici 孢子在土壤中的存活能力与在水中的存活能力相同或更强,而且在土壤接种 49 天后发生的雨淋可将细胞转移到在接种土壤中生长的小麦幼苗上,并引起七叶病叶斑病:结论:Z. tritici 囊孢能在水中或土壤中存活很长时间,有可能跨越英国冬小麦的间作期。虽然大部分孢子无法存活如此长的时间,但存活下来的孢子与在富含培养基上生长的孢子一样具有毒性。因此,Z. tritici 具有特殊的生存策略,这可能对了解其种群遗传学和开发新的七叶病叶斑病控制途径非常重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
BMC Biology
BMC Biology 生物-生物学
CiteScore
7.80
自引率
1.90%
发文量
260
审稿时长
3 months
期刊介绍: BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.
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