Morphological and phylogenetic resolution of Conoideocrella luteorostrata (Hypocreales: Clavicipitaceae), a potential biocontrol fungus for Fiorinia externa in United States Christmas tree production areas.

IF 2.6 2区生物学 Q2 MYCOLOGY

Mycologia Pub Date : 2024-03-01 Epub Date: 2024-01-26 DOI:10.1080/00275514.2023.2296337

Brian Lovett, Hana Barrett, Angie M Macias, Jason E Stajich, Lindsay R Kasson, Matt T Kasson

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引用次数: 0

Abstract

The entomopathogenic fungus Conoideocrella luteorostrata has recently been implicated in natural epizootics among exotic elongate hemlock scale (EHS) insects in Christmas tree farms in the eastern United States. Since 1913, C. luteorostrata has been reported from various plant feeding Hemiptera in the southeastern United States, but comprehensive morphological and phylogenetic studies of U.S. populations are lacking. The recovery of multiple strains of C. luteorostrata from mycosed EHS in North Carolina provided an opportunity to conduct pathogenicity assays and morphological and phylogenetic studies to investigate genus- and species-level boundaries among the Clavicipitaceae. Pathogenicity assays confirmed that C. luteorostrata causes mortality of EHS crawlers, an essential first step in developing this fungus as a biocontrol. Morphological studies revealed that conidia aligned with previous measurements of the Paecilomyces-like asexual state of C. luteorostrata, with conidiophore morphology consistent with historical observations. Additionally, a Hirsutella-like synanamorph was observed in select C. luteorostrata strains. In both a four-locus, 54-taxon Clavicipitaceae-wide phylogenetic analysis including D1-D2 domains of the nuclear 28S rRNA region (28S), elongation factor 1 alpha (EF1-α), DNA-directed RNA polymerase II subunit 1 (RPB1), and DNA-directed RNA polymerase II subunit 2 (RPB2) and a two-locus, 38-taxon (28S and EF1-α) phylogenetic analysis, all three Conoideocrella species were resolved as strongly supported monophyletic lineages across all loci and both methods (maximum likelihood and Bayesian inference) of phylogenetic inference except for 28S for C. tenuis. Despite the strong support for individual Conoideocrella species, none of the analyses supported the monophyly of Conoideocrella with the inclusion of Dussiella. Due to the paucity of RPB1 and RPB2 sequence data, EF1-α provided superior delimitation of intraspecies groupings for Conoideocrella and should be used in future studies. Further development of C. luteorostrata as a biocontrol against EHS will require additional surveys across diverse Hemiptera and expanded pathogenicity testing to clarify host range and efficacy of this fungus.

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Conoideocrella luteorostrata（Hypocreales: Clavicipitaceae）的形态学和系统发育解析，它是美国圣诞树产区一种潜在的外生花叶病毒（Fiorinia externa）生物控制真菌。

最近，昆虫病原真菌 Conoideocrella luteorostrata 与美国东部圣诞树农场的外来伸长铁杉鳞翅目（EHS）昆虫的自然疫情有牵连。自 1913 年以来，美国东南部各种以植物为食的半翅目昆虫中都有 C. luteorostrata 的报道，但缺乏对美国种群形态和系统发育的全面研究。从北卡罗来纳州被霉菌侵染的 EHS 中发现多个 C. luteorostrata 菌株，为进行致病性测定、形态学和系统发育研究提供了机会，以调查 Clavicipitaceae 属和种间的界限。致病性实验证实，C. luteorostrata 会导致 EHS 爬虫死亡，这是将这种真菌开发为生物防治手段的第一步。形态学研究表明，分生孢子与之前测量的 C. luteorostrata 的 Paecilomyces 类无性状态一致，分生孢子器形态与历史观察结果一致。此外，在部分 C. luteorostrata 菌株中观察到了类似赫氏菌的同分异构体。在四病灶、54 个类群的 Clavicipitaceae 系统发育分析（包括核 28S rRNA 区域的 D1-D2 域（28S）、伸长因子 1 α（EF1-α）、DNA 主导的 RNA 聚合酶 II 亚基 1（RPB1）和 DNA 主导的 RNA 聚合酶 II 亚基 2（RPB2））和两病灶、38 个类群（28S 和 EF1-α）的系统发育分析（包括核 28S rRNA 区域的 D1-D2 域（28S）、伸长因子 1 α（EF1-α）、DNA 主导的 RNA 聚合酶 II 亚基 1（RPB1）和 DNA 主导的 RNA 聚合酶 II 亚基 2（RPB2））中，C、在所有位点和系统发生推断的两种方法（最大似然法和贝叶斯推断法）中，除 C. tenuis 的 28S 外，Conoideocrella 的所有三个种都被解析为得到强烈支持的单系。tenuis。尽管对单个 Conoideocrella 物种的支持很强，但没有一项分析支持包含 Dussiella 的 Conoideocrella 单系。由于缺乏 RPB1 和 RPB2 序列数据，EF1-α 为 Conoideocrella 的种内分组提供了更优越的界定，应在今后的研究中使用。要进一步将 C. luteorostrata 发展成为一种针对 EHS 的生物防治手段，需要对不同半翅目昆虫进行更多调查，并扩大致病性测试范围，以明确该真菌的寄主范围和功效。

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来源期刊

Mycologia 生物-真菌学

CiteScore

6.20

自引率

3.60%

发文量

审稿时长

4-8 weeks

期刊介绍： International in coverage, Mycologia presents recent advances in mycology, emphasizing all aspects of the biology of Fungi and fungus-like organisms, including Lichens, Oomycetes and Slime Molds. The Journal emphasizes subjects including applied biology, biochemistry, cell biology, development, ecology, evolution, genetics, genomics, molecular biology, morphology, new techniques, animal or plant pathology, phylogenetics, physiology, aspects of secondary metabolism, systematics, and ultrastructure. In addition to research articles, reviews and short notes, Mycologia also includes invited papers based on presentations from the Annual Conference of the Mycological Society of America, such as Karling Lectures or Presidential Addresses.