低毒病毒及板栗疫病菌低毒力机制

低毒病毒是一类存在于板栗疫病菌细胞质中自主复制的无衣壳正链RNA病毒.感染低毒病毒后,板栗疫病菌的致病力显著降低,色素分泌减少,菌丝体由感染病毒前的桔黄色变为白色,产孢量降低或不产孢,漆酶表达水平明显下降.低毒病毒侵染性克隆的获得以及高效转化和转染体系的建立,使得低毒病毒成为目前唯一可以进行全面遗传操作的真菌病毒.利用低毒病毒作为探针来探测板栗疫病菌的致病力组成和毒力调节机制,已获得了一些很有意义的发现.本文介绍近几年低毒病毒及其与真菌相互作用的研究进展,包括低毒病毒的基因组和功能基因研究、低毒病毒和线粒体损害引起的板栗疫病菌低毒力机制、板栗疫病菌的RNA沉默系统以及低毒病毒抗RNA沉默的机制.低毒病毒/板栗疫病菌系统已经成为研究病毒与宿主相互作用以及病原真菌致病机理的很好的模式系统.     

Fusarivirus accessory helicases present an evolutionary link for viruses infecting plants and fungi

A significant number of mycoviruses have been identified that are related to plant viruses, but their evolutionary relationships are largely unexplored. A fusarivirus, Rhizoctonia solani fusarivirus 4 (RsFV4), was identified in phytopathogenic fungus Rhizoctonia solani (R. solani) strain XY74 co-infected by an alphaendornavirus. RsFV4 had a genome of 10,833 nt (excluding the poly-A tail), and consisted of four non-overlapping open reading frames (ORFs). ORF1 encodes an 825 aa protein containing a conserved helicase domain (Hel1). ORF3 encodes 1550 aa protein with two conserved domains, namely an RNA-dependent RNA polymerase (RdRp) and another helicase (Hel2). The ORF2 and ORF4 likely encode two hypothetical proteins (520 and 542 aa) with unknown functions. The phylogenetic analysis based on Hel2 and RdRp suggest that RsFV4 was positioned within the fusarivirus group, but formed an independent branch with three previously reported fusariviruses of R. solani. Notably, the Hel1 and its relatives were phylogenetically closer to helicases of potyviruses and hypoviruses than fusariviruses, suggesting fusarivirus Hel1 formed an evolutionary link between these three virus groups. This finding provides evidence of the occurrence of a horizontal gene transfer or recombination event between mycoviruses and plant viruses or between mycoviruses. Our findings are likely to enhance the understanding of virus evolution and diversity.     

Parasitism and maintenance of diversity in a fungal vegetative incompatibility system: the role of selection by deleterious cytoplasmic elements

In fungi, horizontal transmission of deleterious cytoplasmic elements is reduced by the vegetative incompatibility system. This self/non-self recognition system may select for greater diversity of fungal incompatibility phenotypes in a frequency-dependent manner but the link between the diversity of fungal phenotypes and the virulence of cytoplasmic parasites has been poorly studied. We used an epidemiological model to show that even when transmission between incompatibility types is permitted, parasite pressure can lead to high levels of polymorphism for vegetative incompatibility systems. Moreover, high levels of polymorphism in host populations can select for less virulent cytoplasmic parasites. This feedback mechanism between parasite virulence and vegetative incompatibility system polymorphism of host populations may account for the general avirulence of most known mycoviruses. Furthermore, this mechanism provides a new perspective on the particular ecology and evolution of the host/parasite interactions acting between fungi and their cytoplasmic parasites.     

在板栗疫病菌线粒体中检出低毒病毒编码蛋白p29

p29蛋白是低毒病毒基因组编码的一个木瓜蛋白酶样蛋白。前人研究发现,在宿主板栗疫病菌(Cryphonectria parasitica)体内表达p29,会引起真菌毒力降低,色素产生减少,丧失产生无性孢子的能力。除已知p29与源于高尔基体的膜结构共分离之外,p29在细胞内的其它分布形式未明。本研究在成功制备p29特异抗体和高效分离板栗疫病菌线粒体的基础上,尝试用p29抗体检测线粒体中是否存在p29蛋白。Western印迹结果表明,受CHV1-EP713感染的EP713菌株线粒体中存在与p29抗体特异作用的病毒蛋白。本研究结果暗示,低毒病毒蛋白p29可能参与调控宿主线粒体功能。     

板栗疫病菌ntl基因的功能研究

板栗疫病菌(Cryphonectria parasitica)是引起板栗疫病的病原真菌。在实验室前期研究中,获得了一个不支持病毒复制且丧失致病力的板栗疫病菌紫外诱变突变株UV57。与野生型菌株EP155相比,UV57中检测不到蛋白100472的表达。为研究蛋白100472的功能,我们构建了编码100472蛋白的ntl基因的缺失突变体△ntl及其互补转化株△ntl-com。与野生型EP155相比,△ntl菌株表型不变,但对休眠板栗树枝的致病性明显降低,而互补转化株△ntl-com的致病力与野生型没有区别。ntl基因的缺失不影响低毒病毒CHV1-EP713的复制累积量,但导致参与G蛋白信号传导途径的cpga1、cpgb1、cpgc1和ste12基因以及参与MAPK途径的cpmk1转录水平明显下调。本研究结果为阐明病原真菌致病机制提供了新的知识。     

Control of chestnut blight by the use of hypovirulent strains of the fungus Cryphonectria parasitica in northwestern Spain

Chestnut blight is controlled in Europe by using Cryphonectria hypovirus CHV1, a non-encapsulated RNA virus. The chestnut blight fungus, Cryphonectria parasitica, is weakened by the virus, and healing tissue growth occurs in the host tree. Transmission of this cytoplasmic hypovirus is restricted by the incompatibility system of the fungus, so that the hypovirus can be transmitted only between isolates of the same or closely related vegetative compatibility (vc) types. Hypovirulent isolates of C. parasitica (all of the French subtype CHV1-F1) from Castilla y León (NW Spain) were compared with virulent isolates in both laboratory (cut stems) and field inoculations (in two orchards in the province of León and one orchard in the province of Zamora). The tests were performed with the most common vc types in the region, EU1 and EU11. The cut stem assay revealed that the hypovirulent isolates of vc type EU1 did not reduce the growth of virulent cankers. By contrast, four hypovirulent strains H1, H4, H5 and H6 (all vc type EU11) reduced the growth of virulent isolates in the cut stem assay. Field tests showed that hypovirulent isolates of EU1 and EU11 were effective in reducing canker in both orchards in León with all treatments tested; however, in Zamora, where only EU11 was tested, all the treatments failed except H1, which was able to reduce growth of the canker eighteen months after the inoculation. The development of hypovirulence suggests that hypovirus subtype F1 is well adapted in the province of León. Both naturally extended and inoculated hypoviruses appear to have reduced the incidence of the canker, thus improving chestnut stands. However, the inoculations were not as effective in the orchards in Zamora. This indicates that the disease could be controlled in Castilla y León by inoculation of trees with hypovirulent strains, but that more tests should be done in provinces where the hypovirus is still not present.     

Diversity of viruses in Cryphonectria parasitica and C. nitschkei in Japan and China, and partial characterization of a new chrysovirus species

We surveyed native populations of the chestnut blight fungus, Cryphonectria parasitica, in Japan and China, and C. nitschkei, a sympatric species on chestnut trees in Japan, to learn more about the diversity of hypoviruses and other double-stranded (ds) RNA viruses. In a sample of 472 isolates of C. parasitica and 45 isolates of C. nitschkei from six prefectures in Japan, we found 27 containing one or more dsRNAs. Twelve isolates of C. parasitica and two isolates of C. nitschkei were infected with Cryphonectria hypovirus 1 (CHV-1); four of these 12 C. parasitica isolates also contained other dsRNAs that did not hybridize to CHV-1. In China, only one of 85 C. parasitica isolates was CHV-1-infected; no dsRNAs were detected in the other isolates from China. No other known hypoviruses were found in this study. However, we found two previously undescribed dsRNAs in Japan approximately 9 kb in size that did not hybridize to each other or to any known dsRNAs from C. parasitica. We also found three additional groups of dsRNAs, one of which represents the genome of a new member of the virus family Chrysoviridae and was found only in C. nitschkei; the other two dsRNAs were found previously in isolates of C. parasitica from Japan or China. The most significant result of this survey is the discovery of novel dsRNAs that can be characterized in future research.