Finnish Forest Research Institute, Jokiniemenkuja 1, 01301 Vantaa, Finland.
Fungal Biol. 2011 Dec;115(12):1234-43. doi: 10.1016/j.funbio.2011.08.008. Epub 2011 Sep 10.
We investigated the geographic occurrence and genetic diversity of partitiviruses among 247 Heterobasidion specimens representing seven species and originating from Europe, Asia, and North America. Based on sequence analysis, partitiviruses were relatively rare, and occurred only in about 5 % of the Heterobasidion isolates analyzed, constituting a minority (about 28 %) of all virus-infected [double-stranded RNA (dsRNA)-positive] isolates. Altogether ten virus strains were characterized in sequence: one complete genome sequence of 3893 bp, six complete RNA-dependent RNA polymerase sequences of 2000-2033 bp, and three partial polymerase sequences. Based on phylogenetic analysis, the virus strains were assigned into three putative partitivirus species: HetRV1 (Heterobasidion RNA virus 1), HetRV4, and HetRV5. Degenerate consensus primers were designed for RT-PCR detection of these virus species. HetRV1 occurred in five different Heterobasidion species, and resembled the previously described Heterobasidion annosum virus (HaV). Highly similar HetRV1 strains with 98 % nucleotide level similarity were found from H. parviporum (member of the H. annosum species complex) and H. australe (member of the H. insulare complex) growing in the same region in Bhutan. This observation suggests recent virus transmission between these taxonomically distant Heterobasidion species in nature. It was also shown that HetRV1 can be transmitted by mycelial contact between the H. annosum and H. insulare complexes. The two other virus species, HetRV4 and HetRV5, were closely related to the Amasya Cherry Disease-associated mycovirus, to Heterobasidion parviporum partitivirus Fr110B, and also to several plant-infecting alphacryptoviruses. These results are in accordance with the view of a close evolutionary relationship between partitiviruses of plants and fungi.
我们调查了 247 个 Heterobasidion 标本中的部分病毒的地理发生和遗传多样性,这些标本代表了来自欧洲、亚洲和北美的七个物种。基于序列分析,部分病毒相对较少,仅在分析的 Heterobasidion 分离物中约 5%出现,构成了所有感染病毒[双链 RNA(dsRNA)阳性]分离物的少数(约 28%)。总共对十种病毒株进行了序列特征描述:一个完整的 3893 碱基对基因组序列、六个完整的 RNA 依赖性 RNA 聚合酶序列(2000-2033 个碱基对)和三个部分聚合酶序列。基于系统发育分析,这些病毒株被分配到三个假定的部分病毒物种中:HetRV1(Heterobasidion RNA 病毒 1)、HetRV4 和 HetRV5。设计了简并的共识引物,用于 RT-PCR 检测这些病毒种。HetRV1 出现在五个不同的 Heterobasidion 物种中,与先前描述的 Heterobasidion annosum 病毒(HaV)相似。在不丹同一地区生长的 H. parviporum(属于 H. annosum 种复合体)和 H. australe(属于 H. insulare 复合体)中发现了高度相似的 HetRV1 株,其核苷酸水平相似性为 98%。这一观察结果表明,在自然界中,这些分类学上相距甚远的 Heterobasidion 物种之间最近发生了病毒传播。研究还表明,HetRV1 可以通过 H. annosum 和 H. insulare 复合体之间的菌丝接触传播。另外两种病毒种,HetRV4 和 HetRV5,与 Amasya Cherry Disease-associated mycovirus、Heterobasidion parviporum 部分病毒 Fr110B 以及几种感染植物的 alpha 噬病毒密切相关。这些结果与植物和真菌部分病毒之间存在密切进化关系的观点一致。
