A Comparison of the Growth and Asexual Reproduction by Cryphonectria parasitica Isolates Infected with Hypoviruses CHV3-County Line, CHV1-Euro7, and CHV1-Ep713

The impact of chestnut blight, caused by the fungal pathogen Cryphonectria parasitica, has diminished in Europe due to a natural biological control caused by hypovirus infection. Hypovirulence-mediated biological control has been far less successful in North America meriting further evaluation of field isolates that have the ability to produce non-lethal cankers, generate hypovirulent inoculum, and exhibit a greater ecological fitness in forest systems. In this study, Cryphonectria hypoviruses (CHV) CHV3-County Line, CHV1-Euro7, and CHV1-Ep713 were evaluated in five different isolates of C. parasitica. One hundred and eighty cankers representing each treatment combination were initiated on American chestnut sprouts in the Monongahela National Forest, West Virginia, USA. The size of cankers, the persistence of hypovirulent (HV) isolates, stroma production, and hypovirus transmission to conidia were assessed four and 12 months after canker expansion. CHV3-County Line infected isolates produced significantly smaller cankers than the isolates infected with either CHV1-type. With regard to CHV1-Euro7 isolates, the fungal genome appeared to contribute to the differences in canker size. After four months, HV isolates harboring either CHV1-type (30%) were retrieved at a significantly higher rate than isolates containing CHV3-County Line (14%). After 12 months, the HV recovery was similar among the three hypoviruses indicating smaller cankers will maintain their HV status after one year. Very few stroma were produced after one year in the field from HV isolates. In vitro, CHV3-County Line (49%) had a significantly lower rate of hypovirus transmission to conidia when compared to CHV1-Euro7 (87%) and CHV1-Ep713 (80%). Significant differences existed among the five different isolates indicating HV transmission is dependent on the fungal genome. This research provided additional evidence that each hypovirus interacts with its host differently and certain isolate/hypovirus combinations have better biological control potential than others.

Variations in Disease Resistance of Chestnut Cultivars against Chestnut Blight Fungus,Cryphonectria parasitica

Chestnut blight caused by Cryphonectria parasitica is one of the major chestnut diseases occurred on stems and branches. Oriental chestnut has more resistance than American one. Twenty-five cultivars of chestnut treeincluding various cultivars such as Tsukuba, Okkwang, Rihei, Ginyose, Eunsan, etc. were tested with a rapid, simple and reliable method. The cultivar Banseki is one of the most resistant cultivars tested and has the necrotic area of 0.40 cm2. However, the necrotic areas of the cultivars of American chestnut, Eunsan, Kwangjujoyul and Eaton, ranges from 3.35 to 2.61 cm2 and these cultivars are relatively susceptible to this pathogen. Many pycnidia of this pathogen were observed on the inner and outer bark tissues after incubating for 3 weeks.

中国板栗品种对疫病的抗病性评价

通过在板栗离体枝条上接种栗疫病病原菌,对感染后的病斑进行观察,结果表明:不同板栗品种对疫病菌的感染程度不同,在供试的２１个品种和类型中,病斑较小的品种(类型)主要有北峪２号和兴隆城９号,其次为野生板栗、渤海所１８、燕魁、短花栗等７个品种和类型,以上品种抗病性较强,抗病性强的品种占供试品种的３３．３%;抗病性弱的品种有红光栗、怀黄、怀九等,抗病性弱的品种占取样量的３８．１%,以红光栗抗病性最弱,病斑面积显著地高于其它品种。不同生态品种群中均有抗性强的品种和抗性弱的品种。不同品种在感染病菌后对病菌的抗扩展能力不同:红光和怀黄品种的抗扩展能力最差,且病斑上病菌的分生孢子多;野生板栗的抗病性强,病菌侵染后有自愈现象;北峪２号和兴隆城９号感染病后病斑扩展速度显著慢于其它品种。通过试验把供试的品种分为抗性强品种、中度抗性品种。中度感病品种和抗性差的品种共４类。通过接种来源不同的毒性菌株,证明不同板栗品种对强毒性菌株的抗病性表现是一致的。

中国东部11省(市)栗疫病的发生条件

1987～1992年,对中国东半部11个省(市)24个县(市)的栗疫病进行了调查研究,查明此病在中国东半部普遍发生,且发病率和严重度北方栗产区普遍高于南方。经调查分析,明确了栗疫病的发生以锥栗最重,日本栗系统的丹东栗其次,板栗的抗病性最强;树龄增加,则发病率和严重度上升;此外,栗树的繁殖方式、立地条件、地理环境、林分组成和栽培管理等因素都与之有关。本文还探讨了利用栗疫菌低毒力菌株进行生物防治的可能性。

栗疫病研究进展

全面综述了栗疫病的研究进展，包括栗疫病的发生和为害性、症状、病原菌及其弱毒力、寄主植物、病害循环、发病条件和防治等方面所取得的成就和发展趋势。

营养体不亲和性诱导栗疫病菌菌株间程序性细胞死亡

为了验证营养体不亲和性导致细胞凋亡的假说,对栗疫病菌融合细胞基因组DNA的降解物进行了琼脂糖凝胶电泳检测,观察了融合细胞的细胞核变化,测定了融合细胞的活性氧产生、脂肪粒积累以及进行了融合细胞死活鉴定。结果表明:不同亲和群菌株的孢子混合涂板,孵育后经历萌发、细胞融合,融合细胞基因组DNA经琼脂糖凝胶电泳可以检测到DNA梯状条带,这一特征为营养体不亲和性诱导的程序性细胞死亡提供了新的证据;细胞学上可观察到不亲和性菌株融合细胞细胞核降解、活性氧产生减少、脂肪粒积累增多及融合细胞死亡,这些特征与细胞凋亡的特征相似。

韩国、美国和中国栗疫病菌的遗传变异分析

用RAPD方法,对来自韩国、美国和中国的26个栗疫病菌菌株进行了遗传变异分析。使用筛选的12个随机引物,共扩增了115个0.19～3.1 kb大小的扩增片段,其中多态性片段占61.7%。聚类分析结果,相似系数为0.92时,26个菌株分为两大组,一组由21个菌株组成,包括大部分韩国菌株和美国菌株;另一组包括部分韩国菌株和中国菌株。表明美国菌株和大部分韩国菌株的遗传相似性很高,部分韩国菌株有较大的变异,而中国菌株则表现出了遗传上的远缘关系。

栗疫病菌弱毒性菌株的筛选及其dsRNA的转化稳定性

为获取栗疫病生物防治的基础信息,本研究根据菌株在PDA培养基上培养7天后的菌丝生长速度、分生孢子形成能力等培养特性,从韩国国立山林科学院树木病理研究室保藏的60个栗疫病菌菌株中筛选了2个弱致病力菌株,进行dsRNA检测、弱致病力菌株和强致病力菌株间的细胞融合试验。结果表明:2个弱致病力菌株(KCP-135和KCP-136)中均检测到了dsRNA,弱毒性菌株KCP-22和其他19个强毒性菌株之间的菌落形成明显的隔离带并沿着隔离带产生分生孢子,没有明显的细胞融合现象,而弱毒性菌株KCP-22和强毒性菌株KCP-9之间的菌落则呈现了显著的细胞融合现象,而且其细胞融合菌株的培养特性和转化dsRNA数量均发生了变异。

细菌嗜铁素、DAPG和PCA对板栗疫病菌的抑制作用

为了探讨生防细菌防治板栗疫病的潜力,测定了恶臭假单胞杆菌(Pseudomonas putida)WCS358r菌株及其嗜铁素缺失突变体JM218,转基因菌株WCS358::phl和WCS358::phz对板栗疫病菌生长和分生孢子萌发的抑制作用。在KB和板栗枝条韧皮部抽提液培养基(BA)中,WCS358r对病菌生长和分生孢子萌发具有较强的抑制作用,而JM218几乎没有抑制效果;在培养基中加入200μmol/L FeCl3后,WCS358r对病菌的抑制能力显著降低,证明WCS358r产生的嗜铁素是抑制菌丝生长和分生孢子萌发的重要因子。在PDA培养基中,WCS358r对病菌无抑制效果。在上述三种培养基中,产生抗生素2,4-二乙酰间苯三酚(DAPG)的转基因菌株WCS358::phl与原始菌株WCS358r相比,抑菌效果明显增强,而产生酚嗪-1-羧酸(PCA)的WCS358::phz的抑菌能力无明显提高。培养基中添加铁对WCS358::phl的抑菌活性无影响,但能降低WCS358::phz对板栗疫病菌的抑制效果。由此说明,嗜铁素和DAPG对抑制板栗疫病菌生长和孢子萌发具有重要作用,而PCA的抑菌效果不明显。

板栗疫病在广西区内的危险性分析

通过定性因素和定量指标体系相结合的方法对板栗疫病在广西的危险性进行评估,评估结果表明,此病害的危险性综合评价值为1.7128,属于中度危险性的林业有害生物。板栗疫病菌寄主范围广,此病在广西的分布已经相当广泛,但板栗疫病的病原菌不必补充为广西壮族自治区林业检疫性有害生物。通过采取栽培无病苗木、减少枝条和主干的伤口、削除枝条和主干的病斑和进行伤口的消毒、砍除重病枝等措施,可以有效地防治病害的发生。

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。