Temporal disease dynamics and relative importance of sexual and asexual reproduction of grape downy mildew (Plasmopara viticola) in an isolated vineyard in the North Georgia Mountains,USA

The North Georgia Mountains are the southernmost region along the United States East Coast where European wine grapes (Vitis vinifera) are grown commercially. Epidemics of downy mildew, caused by Plasmopara viticola, are frequent and severe, but little is known about the epidemiology and population biology of the pathogen in this region. Disease monitoring in an experimental vineyard from 2015 to 2017 indicated that times of disease onset and progress rates were highly variable across years and cultivars. Oospores were observed microscopically, and simulation with a process-based model indicated presence of conditions favourable for oospore germination in the spring and early summer each year. A total of 409 P. viticola isolates collected over three  years were genotyped with seven microsatellite markers, revealing very high genotypic diversity, which when combined with the observation of oospores is indicative of a sexually reproducing population. Among the 409 isolates, 225 multilocus genotypes (MLGs) were identified, of which 164 were detected only once and 61 were repeated (clonal). Eight MLGs (represented by 28 isolates) were detected across years, suggesting the possibility of asexual overwintering of P. viticola in this region. Across sampling dates, the percentage of isolates belonging to nonrepeated (unique) MLGs ranged from 27.3% to 63.2%. Even towards the end of the annual epidemic, the percentage of isolates in nonrepeated MLGs was still relatively high, around 30%. These MLGs may have originated from oospores germinating late during the growing season, although incomplete sampling at earlier dates and contribution by immigration cannot be fully excluded.     

Comparative analysis of genetic effects of wheat‐Dasypyrum villosum translocations T6V#2S·6AL and T6V#4S·6DL

Wheat‐Dasypyrum villosum translocations T6V#2S·6AL and T6V#4S·6DL, carriers of Pm21 and PmV, respectively, confer high resistance to wheat powdery mildew. For better understanding of the difference in genetic effect between them, a RIL population was constructed based on the cross between “Yangmai 18” carrying T6V#2S·6AL and “Yangmai 22” carrying T6V#4S·6DL. Analysis of distribution of the translocations showed that T6V#2S·6AL is much more transmittable than T6V#4S·6DL. By comparing their effects on main agronomic traits, we firstly found that T6V#2S·6AL contributes greatly to top spikelet fecundity, but causes a decrease of 6.7%–10.5% of spike number. No stable effects of T6V#4S·6DL on agronomic traits were found, except for positive effect on plant height. Excitingly, a new recombinant, T6V#4S‐6V#2S·6AL carrying PmV, was screened and proved to have a higher transmission rate than the original translocation T6V#4S·6DL, which will greatly promote the utilization of PmV. The above conclusions of this research will provide important guidance for utilization of Pm21 and PmV more effectively, in wheat powdery mildew resistance breeding.     

Cryptic species and population genetic structure of Plasmopara viticola in São Paulo State,Brazil

Downy mildew (Plasmopara viticola) is one of the most important diseases in grape-growing areas worldwide, including Brazil. To examine pathogen population biology and structure, P. viticola was sampled during the 2015/16 growing season from 516 lesions on nine grape cultivars in 11 locations in subtropical areas of São Paulo State, Brazil. For identification of cryptic species, a subsample of 130 isolates was subjected to cleaved amplified polymorphic sequence (CAPS) analysis, and for 91 of these isolates the ITS1 region was sequenced. These analyses suggest that the population of P. viticola in São Paulo State consists of a single cryptic species, P. viticola clade aestivalis. Seven microsatellite markers were used to determine the genetic structure of all 516 P. viticola isolates, identifying 23 alleles and 55 multilocus genotypes (MLGs). Among these MLGs, 34.5% were clonal and represented 93% of the isolates sampled. Four dominant genotypes were present in at least five different locations, corresponding to 65.7% of the isolates sampled. Genotypic diversity (Ĝ = 0.21–0.89) and clonal fraction (0.58–0.96) varied among locations (populations). Most populations showed significant deviation from Hardy–Weinberg expectations; in addition, excess of heterozygosity was verified for many loci. However, principal coordinate analysis revealed no clusters among locations and no significant isolation by distance was found, suggesting high levels of migration. The results indicate that downy mildew epidemics result from multiple clonal infections caused by a few genotypes of P. viticola, and reproduction of P. viticola in São Paulo State is predominantly asexual.     

瓜类蔬菜白粉病抗性诱导研究进展

为探寻绿色高效的白粉病防控措施,主要从化学因子、物理因子及生物因子诱导等方面综述了瓜类蔬菜白粉病抗性诱导的研究进展,其中对化学因子诱导途径研究较多,主要包括碳酸氢盐及磷酸盐诱导途径、硅诱导途径、维生素诱导途径及水杨酸诱导途径等;最后,结合3种诱导途径对研究方向进行了讨论和展望。     

Reactive oxygen species are involved in cell death in wheat roots against powdery mildew

Inoculation of wheat(Triticum aestivum L.) leaves with wheat powdery mildew fungus(Blumeria graminis f. sp. tritici) induces the cell death in adventitious roots. Reactive oxygen species(ROS) play a key role in respond to biotic stress in plants. To study the involvement of ROS and the degree of cell death in the wheat roots following inoculation, ROS levels and microstructure of root cells were analyzed in two wheat cultivars that are susceptible(Huamai 8) and resistant(Shenmai 8) to powdery mildew fungus. At 18 d after powdery mildew fungus inoculation, only Huamai 8 displayed the leaf lesions, while root cell death occurred in both varieties. Huamai 8 had a high level of ROS accumulation, which is associated with increased root cell degradation, while in Shenmai 8, there was little ROS accumulation correlating with slight root cell degradation. The molecular study about the expression levels of ROS scavenging genes(MnSOD and CAT) in wheat roots showed that these genes expression decreased after the leaves of wheat was inoculated. The difference between Huamai 8 and Shenmai 8 on subcellular localization of H2 O2 and O2–· was corresponded with the different down-regulation of the genes encoding for superoxide dismutase and catalase in two wheat cultivars. These results suggested that ROS were involved in the process by which powdery mildew fungus induced cell death in wheat roots.     

抗白粉病胡麻种质资源田间鉴定与筛选

白粉病目前已成为影响胡麻产量和质量最常见的病害之一, 种植抗病品种是防控病害最经济环保的有效措施, 然而抗病亲本材料的缺乏已成为制约抗病品种选育的关键因素。为筛选出抗白粉病胡麻材料, 本研究在田间自然感病的条件下, 采用病情指数法对300份国内外胡麻种质资源材料进行了抗白粉病鉴定和评价。结果表明, 所有供试材料均程度不同地感染胡麻白粉病, 无免疫材料, 仅有5份材料为中抗; 其余295份均为感病材料, 其中8份材料中感, 52份材料感病, 235份材料高度感病。本研究可为抗白粉病胡麻品种的培育及相关抗病基因的发掘提供参考。     

瓠瓜(Lagenaria siceraria)白粉病抗性的全基因组关联分析

白粉病是瓜类作物重要病害之一。本研究采用苗期人工接种方法,研究了117份瓠瓜微核心种质对白粉病的抗性,并基于不同材料的病情指数和基因型数据,进行全基因组关联分析(genome-wide association analysis,GWAS)。利用2014年和2018年的抗病表型数据,分别鉴定到22个和13个与白粉病抗性相关的SNPs,其中2个SNPs位点在两年试验中同时被检测到。进一步研究发现不同瓠瓜材料的白粉病抗性与其携带有利等位变异数目成正相关。本研究为克隆瓠瓜抗白粉病相关基因、研究其抗病机制提供科学依据,促进了瓠瓜抗白粉病分子育种。     

甜瓜VQ家族基因鉴定及白粉病菌响应分析

VQ家族基因是植物特有的一类基因,其编码蛋白主要与WRKY蛋白相互作用协同调控下游基因表达,在植物生长发育及抵御各种外界环境胁迫中起重要作用。为揭示甜瓜VQ家族基因在抗白粉病中的功能,本研究采用生物信息学方法从甜瓜基因组中鉴定到26个VQ家族基因,这些基因不均匀地分布在甜瓜11条染色体上。系统进化分析表明,该家族成员分布于不同的分支中,分别与拟南芥VQ家族蛋白不同成员聚在一起。基因结构分析表明,甜瓜VQ家族基因序列均无内含子,只有1个外显子。组织表达分析表明,1个甜瓜VQ家族基因组成性表达,23个甜瓜VQ家族基因组织特异性表达。此外,白粉病菌侵染之后,6个VQ家族基因呈现不同程度的响应。本研究结果为进一步研究甜瓜VQ家族基因在甜瓜抗白粉病中的功能奠定了理论基础。     

中国野生毛葡萄芪合酶基因VqSTS11和VqSTS23调控抗白粉病的研究

利用同源克隆法得到抗白粉病的中国野生毛葡萄‘丹凤–2’芪合酶基因VqSTS11和VqSTS23的开放阅读框，并构建过表达载体；通过器官发生途径诱导不抗白粉病的欧洲葡萄‘无核白’分生愈伤组织并采用农杆菌介导法对其进行转化；经过PCR检测和Western blot鉴定，获得了5株VqSTS11超量表达植株和3株VqSTS23超量表达植株；人工接种白粉菌发现，转基因植株中白粉菌菌丝生长速度慢，孢子萌发受到一定的抑制，并且转基因植株中芪合酶基因相对表达量升高，抗病相关基因表达上调，芪类物质含量积累增多。本研究结果进一步证明中国野生毛葡萄‘丹凤–2’芪合酶基因VqSTS11和VqSTS23对白粉菌具有抗性，‘丹凤–2’可以为改良欧洲葡萄品种抗病性提供抗病基因，作为抗病育种的资源。