Dissecting the journey and functions of barley smut fungus Ustilago hordei immunity-triggering effector UhAvr1 to reveal durable defense strategies in cereals

剖析大麦黑粉病真菌UhAvr1免疫触发效应子的旅程和功能，揭示谷物的持久防御策略

• 批准号: RGPIN-2015-05738
• 负责人: Bakkeren, Guus
• 金额: $ 2.77万
• 依托单位: University of British Columbia
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=687098
• 关键词: Dissecting; journey; functions; barley; smut

Effector biology, the study of small secreted proteins from microbial pathogens, is a burgeoning research field in both human/animal and plant sciences. Studying effectors has already revealed insight into ways these proteins interact with and manipulate many basic host processes and signaling pathways. Effectors target development, protein degradation and gene regulation which include defense and resistance responses. Therefore, effectors teach us how pathogens cause disease but can also be used as probes to elucidate basic biological processes. ***Fungi have large suites of effectors, revealed by genome sequencing projects, but their mode of delivery, host cell targets and functions remain largely unknown. Having contributed to the generation and analyses of genome sequences of several cereal-infecting Basidiomycete pathogens (barley smut fungus Ustilago hordei and the related wheat leaf rust fungus Puccinia triticina), we can now focus on functions of the many predicted effectors. ***We recently identified in U. hordei an effector that triggers defense when infecting a barley cultivar with resistance gene Ruh1. This avirulence effector UhAVR1 is only expressed upon contact with the host, is secreted from the fungus, and its interaction with Ruh1 or its action leads to local host cell death and immunity to the infection. We genetically located Ruh1 on the short arm of barley chromosome 1 to a ~200-kb region. ******This proposal aims to shed light on 3 basic questions: ***1. What are the mechanisms of UhAVR1 secretion and determinants for host cell uptake? ***2. What is the function of UhAVR1 in barley cells, is it a real virulence factor, what host cell process or protein does it target? ***3. How does UhAVR1 interact with Ruh1 and cause immunity and can we isolate Ruh1? ******Elucidating mechanisms of effector delivery, identification of their host target(s) and defense elicitation in this model system will aid studying difficult, yet economically more important cereal rust pathosystems also studied in our laboratory. Conserved fungal components essential for effector delivery are prime targets for designing specific control measures such as RNA silencing for which we have developed a strategy in wheat against rusts. An identified resistance gene can be used in breeding programs and host effector target genes can be modified by genome editing to obtain durable disease resistance in crop plants and less reliance on harmful pesticides. **

效应生物学，研究微生物病原体的小分泌蛋白，是人类/动物和植物科学中新兴的研究领域。研究效应子已经揭示了这些蛋白质与许多基本宿主过程和信号通路相互作用和操纵的方式。效应子靶向发育、蛋白质降解和基因调控，包括防御和抗性反应。因此，效应子告诉我们病原体是如何引起疾病的，但也可以用作探针来阐明基本的生物过程。* 基因组测序项目揭示了真菌具有大量的效应子，但它们的传递方式，宿主细胞靶点和功能在很大程度上仍然未知。在对几种感染谷物的担子菌病原体（大麦黑穗病菌和相关的小麦叶锈菌）的基因组序列的产生和分析做出贡献之后，我们现在可以专注于许多预测效应子的功能。* 我们最近在美国发现。大麦是一种在用抗性基因Ruh 1感染大麦品种时触发防御的效应子。这种无毒效应子UhAVR 1仅在与宿主接触时表达，从真菌分泌，并且其与Ruh 1的相互作用或其作用导致局部宿主细胞死亡和对感染的免疫。我们将Ruh 1基因定位在大麦1号染色体短臂上一个约200 kb的区域。* ***** UhAVR 1的分泌机制和宿主细胞摄取的决定因素是什么？***2。UhAVR 1在大麦细胞中的功能是什么，它是否是一个真实的毒力因子，它靶向什么宿主细胞过程或蛋白质？*3。UhAVR 1如何与Ruh 1相互作用并引起免疫，我们可以分离Ruh 1吗？****** 阐明效应传递机制，鉴定其宿主靶标和在该模型系统中的防御激发将有助于研究困难的，但在我们的实验室中也研究了经济上更重要的谷物锈病病理系统。保守的真菌组分对效应子传递至关重要，是设计特定控制措施如RNA沉默的主要目标，为此我们已经开发了小麦抗锈病的策略。鉴定的抗性基因可用于育种计划，宿主效应靶基因可通过基因组编辑进行修饰，以获得作物植物的持久抗病性，减少对有害农药的依赖。**