Computational studies reveal structural characterization and novel families of Puccinia striiformis f. sp. tritici effectors

bioRxiv - Microbiology Pub Date : 2024-09-12 DOI:10.1101/2024.09.12.612600

Raheel Asghar, Nan Wu, Noman Ali, Yulei Wang, Mahinur Akkaya

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Abstract

Understanding the biological functions of Puccinia striiformis f. sp. tritici (Pst) effectors is fundamental for uncovering the mechanisms of pathogenicity and variability, thereby paving the way for developing durable and effective control strategies for stripe rust. However, due to the lack of an efficient genetic transformation system in Pst, progress in effector function studies has been slow. Here, we modeled the structures of 15,201 effectors from twelve Pst races or isolates, a Puccinia striiformis isolate, and one Puccinia striiformis f. sp. hordei isolate using AlphaFold2. Of these, 8,102 folds were successfully predicted, and we performed sequence- and structure-based annotations of these effectors. These effectors were classified into 410 structure clusters and 1,005 sequence clusters. Sequence lengths varied widely, with a concentration between 101-250 amino acids, and motif analysis revealed the presence of known effector motifs such as [Y/F/W]xC and RxLR. Subcellular localization predictions indicated a predominant cytoplasmic localization, with notable chloroplast and nuclear presence. Clear annotations based on sequence and structure included superoxide dismutase and trehalose-6-phosphate phosphatase. A common feature observed was the formation of similar structures from different sequences. In our study, one of the comparative structural analyses revealed a new structure family with a core structure of four helices, including Pst27791, PstGSRE4, and PstSIE1, which target key wheat immune pathway proteins, impacting the host immune function. Further comparative structural analysis showed similarities between Pst effectors and effectors from other pathogens such as AvrSr35, AvrSr50, Zt-KP4-1, and MoHrip2, highlighting convergent evolutionary strategies. This comprehensive analysis provides novel insights into Pst effectors' structural and functional characterization, advancing our understanding of Pst pathogenicity and evolution.

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计算研究揭示了三尖杉条裂孢子菌效应子的结构特征和新家族

了解三尖杉条锈病菌（Pst）效应子的生物学功能是揭示致病性和变异机制的基础，从而为制定持久有效的条锈病控制策略铺平道路。然而，由于缺乏高效的 Pst 遗传转化系统，效应子功能研究进展缓慢。在此，我们利用 AlphaFold2 对来自 12 个 Pst 种族或分离株、1 个条锈病菌分离株和 1 个条锈病菌 f. sp. hordei 分离株的 15,201 个效应子的结构进行了建模。我们对这些效应物进行了基于序列和结构的注释。这些效应物被分为 410 个结构簇和 1,005 个序列簇。序列长度差异很大，集中在 101-250 个氨基酸之间，基序分析表明存在已知的效应物基序，如 [Y/F/W]xC 和 RxLR。亚细胞定位预测表明，该蛋白主要存在于细胞质中，但也存在于叶绿体和细胞核中。基于序列和结构的明确注释包括超氧化物歧化酶和三卤糖-6-磷酸磷酸酶。观察到的一个共同特征是不同序列形成了相似的结构。在我们的研究中，其中一项结构比较分析发现了一个新的结构家族，其核心结构为四个螺旋，包括 Pst27791、PstGSRE4 和 PstSIE1，它们都以小麦免疫途径的关键蛋白为靶标，影响宿主的免疫功能。进一步的结构比较分析表明，Pst效应子与其他病原体（如AvrSr35、AvrSr50、Zt-KP4-1和MoHrip2）的效应子存在相似性，突显了趋同的进化策略。这项全面的分析为 Pst 效应子的结构和功能特征提供了新的见解，促进了我们对 Pst 致病性和进化的了解。

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bioRxiv - Microbiology

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