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Identification of a Novel Hypovirulence-Inducing Hypovirus From Alternaria alternata

真菌病毒 生物 交替链格孢 毒力 RNA病毒 荨麻疹叶螨 微生物学 病毒学 遗传学 核糖核酸 植物 基因 RNA聚合酶
作者
Huan Li,Ruiling Bian,Qian Liu,Yang Liu,Tianxing Pang,Lakha Salaipeth,Ida Bagus Andika,Hideki Kondō,Liying Sun
出处
期刊:Frontiers in Microbiology [Frontiers Media]
卷期号:10 被引量:62
标识
DOI:10.3389/fmicb.2019.01076
摘要

Mycoviruses are wide spread throughout almost all groups of fungi but only a small number of mycoviruses can attenuate the growth and virulence of their fungal hosts. Alternaria alternata is an ascomycete fungus that causes leaf spot diseases on various crop plants. In this study, we identified a novel ssRNA mycovirus infecting an Alternaria alternata f. sp. mali strain isolated from an apple orchard in China. Sequence analyses revealed that this virus is related to hypoviruses, in particular to Wuhan insect virus 14, an unclassified hypovirus identified from insect meta-transcriptomics, as well as other hypoviruses belonging to the genus Hypovirus, and therefore this virus is designed as Alternaria alternata hypovirus 1 (AaHV1). The genome of AaHV1 contains a single large open-reading frame encoding a putative polyprotein (~479 kDa) with a cysteine proteinase and replication-associated domains. Curing AaHV1 from the fungal host strain indicated that the virus is responsible for the slow growth and reduced virulence of the host. AaHV1 defective RNA (D-RNA) with internal deletions emerging during fungal subcultures but the presence of D-RNA does not affect AaHV1 accumulation and pathogenicities. Moreover, AaHV1 could replicate and confer hypovirulence in Botryosphaeria dothidea, a fungal pathogen of apple white rot disease. This finding could facilitate better understanding of A. alternata pathogenicity and is relevant for development of biocontrol methods of fungal diseases.

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