Maryam Rafiqi, Chatchai Kosawang, Jessica A Peers, Lukas Jelonek, Hélène Yvanne, Mark McMullan, Lene R Nielsen
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We sequence the genomes of all three Hymenoscyphus species and compare them to that of H. fraxineus. Phylogenetic analysis of core eukaryotic genes identified H. albidus and H. koreanus as sister species, whilst H. occultus diverged prior to these and H. fraxineus. All four Hymenoscyphus genomes are of comparable size (55-62 Mbp) and GC contents (42-44%) and encode for polymorphic secretomes. Surprisingly, 1133 predicted secreted proteins are shared between the ash dieback pathogen H. fraxineus and the three related Hymenoscyphus endophytes. Amongst shared secreted proteins are cell death-inducing effector candidates, such as necrosis, and ethylene-inducing peptide 1-like proteins, Nep1-like proteins, that are upregulated during in planta growth of all Hymenoscyphus species. Indeed, pathogenicity tests showed that all four related Hymenoscyphus species develop pathogenic growth on European ash stems, with native H. albidus being the least virulent. 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引用次数: 0
摘要
树木病害对全球生物多样性构成重大威胁。在自然栖息地发现病原体对于了解当前和未来的威胁以及优先制定疾病管理策略至关重要。白蜡树枯死病是一种真菌疾病,是欧洲常见的白蜡树(Fraxinus excelsior)感染的主要保护性疾病。这种病是由一种非本地真菌病原体--Hymenoscyphus fraxineus 引起的。在 Hymenoscyphus 属中,以前尚未发现其他导致枯死的物种。在这里,我们发现了两个新发现的亚洲相关物种 H. koreanus 和 H. occultus 以及一个欧洲本地相关物种 H. albidus 的致病潜力。我们对所有三个Hymenoscyphus物种的基因组进行了测序,并与H. fraxineus的基因组进行了比较。通过对核心真核基因的系统进化分析,我们发现 H. albidus 和 H. koreanus 是姊妹种,而 H. occultus 比它们和 H. fraxineus 早分化。所有四个Hymenoscyphus基因组的大小(55-62 Mbp)和GC含量(42-44%)相当,并编码多态分泌物。令人惊讶的是,白蜡枯病原体 H. fraxineus 和三种相关的 Hymenoscyphus 内生菌之间共有 1133 个预测分泌蛋白。在共享的分泌蛋白中,有诱导细胞死亡的效应物候选蛋白,如坏死蛋白和乙烯诱导肽 1 样蛋白、Nep1 样蛋白,这些蛋白在所有 Hymenoscyphus 物种的植物生长过程中都会上调。事实上,致病性测试表明,所有四种相关的白蜡姬松柏属(Hymenoscyphus)都会在欧洲白蜡茎上生长致病,而本地的白蜡姬松柏属(H. albidus)毒性最低。我们的研究结果确定了白蜡树种对欧洲白蜡树的生存构成的威胁,并强调了在环境景观中促进病原体监测的重要性。识别新病原体并将其纳入普通白蜡树持久免疫力的筛选中,是欧洲白蜡树长期生存的关键。
Endophytic fungi related to the ash dieback causal agent encode signatures of pathogenicity on European ash.
Tree diseases constitute a significant threat to biodiversity worldwide. Pathogen discovery in natural habitats is of vital importance to understanding current and future threats and prioritising efforts towards developing disease management strategies. Ash dieback is a fungal disease of major conservational concern that is infecting common ash trees, Fraxinus excelsior, in Europe. The disease is caused by a non-native fungal pathogen, Hymenoscyphus fraxineus. Other dieback causing-species have not previously been identified in the genus Hymenoscyphus. Here, we discover the pathogenicity potential of two newly identified related species of Asian origin, H. koreanus and H. occultus, and one Europe-native related species, H. albidus. We sequence the genomes of all three Hymenoscyphus species and compare them to that of H. fraxineus. Phylogenetic analysis of core eukaryotic genes identified H. albidus and H. koreanus as sister species, whilst H. occultus diverged prior to these and H. fraxineus. All four Hymenoscyphus genomes are of comparable size (55-62 Mbp) and GC contents (42-44%) and encode for polymorphic secretomes. Surprisingly, 1133 predicted secreted proteins are shared between the ash dieback pathogen H. fraxineus and the three related Hymenoscyphus endophytes. Amongst shared secreted proteins are cell death-inducing effector candidates, such as necrosis, and ethylene-inducing peptide 1-like proteins, Nep1-like proteins, that are upregulated during in planta growth of all Hymenoscyphus species. Indeed, pathogenicity tests showed that all four related Hymenoscyphus species develop pathogenic growth on European ash stems, with native H. albidus being the least virulent. Our results identify the threat Hymenoscypohus species pose to the survival of European ash trees, and highlight the importance of promoting pathogen surveillance in environmental landscapes. Identifying new pathogens and including them in the screening for durable immunity of common ash trees is key to the long-term survival of ash in Europe.
Ima FungusAgricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
11.00
自引率
3.70%
发文量
18
审稿时长
20 weeks
期刊介绍:
The flagship journal of the International Mycological Association. IMA Fungus is an international, peer-reviewed, open-access, full colour, fast-track journal. Papers on any aspect of mycology are considered, and published on-line with final pagination after proofs have been corrected; they are then effectively published under the International Code of Nomenclature for algae, fungi, and plants. The journal strongly supports good practice policies, and requires voucher specimens or cultures to be deposited in a public collection with an online database, DNA sequences in GenBank, alignments in TreeBASE, and validating information on new scientific names, including typifications, to be lodged in MycoBank. News, meeting reports, personalia, research news, correspondence, book news, and information on forthcoming international meetings are included in each issue