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121.
122.
Herv Van der Heyden Pierre Dutilleul MarcOlivier Duceppe Guillaume J. Bilodeau JeanBenoît Charron Odile Carisse 《Molecular Plant Pathology》2022,23(3):339
Several Peronospora species are carried by wind over short and long distances, from warmer climates where they survive on living plants to cooler climates. In eastern Canada, this annual flow of sporangia was thought to be the main source of Peronospora destructor responsible for onion downy mildew. However, the results of a recent study showed that the increasing frequency of onion downy mildew epidemics in eastern Canada is associated with warmer autumns, milder winters, and previous year disease severity, suggesting overwintering of the inoculum in an area where the pathogen is not known to be endogenous. In this study, genotyping by sequencing was used to investigate the population structure of P. destructor at the landscape scale. The study focused on a particular region of southwestern Québec—Les Jardins de Napierville—to determine if the populations were clonal and regionally differentiated. The data were characterized by a high level of linkage disequilibrium, characteristic of clonal organisms. Consequently, the null hypothesis of random mating was rejected when tested on predefined or nonpredefined populations, indicating that linkage disequilibrium was not a function of population structure and suggesting a mixed reproduction mode. Discriminant analysis of principal components performed with predefined population assignment allowed grouping P. destructor isolates by geographical regions, while analysis of molecular variance confirmed that this genetic differentiation was significant at the regional level. Without using a priori population assignment, isolates were clustered into four genetic clusters. These results represent a baseline estimate of the genetic diversity and population structure of P. destructor. 相似文献
123.
Michie Kobayashi Hiroe Utsushi Koki Fujisaki Takumi Takeda Tetsuro Yamashita Ryohei Terauchi 《Molecular Plant Pathology》2022,23(6):845
The plant extracellular space, including the apoplast and plasma membrane, is the initial site of plant–pathogen interactions. Pathogens deliver numerous secreted proteins, called effectors, into this region to suppress plant immunity and establish infection. Downy mildew caused by the oomycete pathogen Sclerospora graminicola (Sg) is an economically important disease of Poaceae crops including foxtail millet (Setaria italica). We previously reported the genome sequence of Sg and showed that the jacalin‐related lectin (JRL) gene family has significantly expanded in this lineage. However, the biological functions of JRL proteins remained unknown. Here, we show that JRL from Sg (SgJRL) functions as an apoplastic virulence effector. We identified eight SgJRLs by protein mass spectrometry analysis of extracellular fluid from Sg‐inoculated foxtail millet leaves. SgJRLs consist of a jacalin‐like lectin domain and an N‐terminal putative secretion signal; SgJRL expression is induced by Sg infection. Heterologous expression of three SgJRLs with N‐terminal secretion signal peptides in Nicotiana benthamiana enhanced the virulence of the pathogen Phytophthora palmivora inoculated onto the same leaves. Of the three SgJRLs, SG06536 fused with green fluorescent protein (GFP) localized to the apoplastic space in N. benthamiana leaves. INF1‐mediated induction of defence‐related genes was suppressed by co‐expression of SG06536‐GFP. These findings suggest that JRLs are novel apoplastic effectors that contribute to pathogenicity by suppressing plant defence responses. 相似文献
124.
本文利用MTT染色法和点接生物测定法对不同温度干燥处理36h后的葡萄生单轴霉孢子囊存活力和致病力进行了检测,并应用单因素试验和正交试验对其孢子囊进行了MTT染色条件的优化。结果表明:葡萄生单轴霉孢子囊MTT染色的最佳条件为温度36℃、MTT浓度 0.05%、染色48h,孢子囊染色率可达83.0%。20℃恒温干燥处理36h显著提高了孢子囊存活力,葡萄生单轴霉孢子囊的蓝色染色率为79.3%,叶片点接发病率为98.9%,显著高于对照的蓝色染色率52.0%和发病率62.7%。MTT染色得到的孢子囊蓝色染色率与点接生物测定法得出的发病率存在很好的线性关系y=1.276 1x-1.939 1,R2=0.996 1,孢子囊的蓝色染色率与叶片点接发病率呈正相关。本研究表明MTT染色法可以用于葡萄生单轴霉孢子囊存活力的快速和准确检测。 相似文献
125.
南瓜白粉病病原菌鉴定及寄主范围测定 总被引:2,自引:0,他引:2
通过对南瓜白粉病病原菌的闭囊壳、分生孢子及萌发方式的观察和鉴别寄主感病反应鉴定,结果表明引起甘肃省武威地区南瓜白粉病的病原菌为苍耳单囊白粉菌Podosphaera xanthii。该白粉病菌闭囊壳形成的最适条件为温度20℃、相对湿度70%和光照强度4,400lx。寄主范围测定结果表明,该病菌不侵染丝瓜、小麦、辣椒、番茄、苜蓿、红三叶草、架豆和菜豆,可侵染除丝瓜之外的其余9种瓜类植物和绿豆、红小豆、向日葵,其中对南瓜、绿豆、西葫芦、红小豆、向日葵、甜瓜和黄瓜的致病性最强,发病率均达到100%,病情指数分别为15.56、14.51、13.33、13.33、13.07、12.22和12.22。侵染过程观察发现,感病南瓜人工接种白粉菌12h后,分生孢子芽管从侧面萌发,于24h芽管伸长,于36h形成菌丝,于72h形成稠密的网状菌丝,于96h形成分生孢子梗及串生分生孢子。 相似文献
126.
硬粒小麦-粗山羊草双二倍体白粉病抗性的遗传分析与基因推导 总被引:1,自引:0,他引:1
对99份硬粒小麦-粗山羊双二倍体用北京地区流行的5号白粉菌生理小种进行了白粉病抗性鉴定,筛选出11个苗期抗病的双二倍体材料和2个全生育期抗病的材料M53和M81。对M53和M81及其硬粒小麦和粗山羊草亲本进行的抗白粉病鉴定结果表明,其抗性来源于粗山羊草。与M53和M81具有相同硬粒小麦亲本、不同粗山羊草亲本双二倍体的抗性结果也表明抗性基因来源于粗山羊草。对M53和M81的抗性遗传分析表明,它们均携带1个单显性抗病基因。用14个白粉菌生理小种对已知抗病基因品系与M53和M81两份待测材料进行接种鉴定,结果表明,M53和M81与已知基因的抗菌谱均不相同,M53与M81的抗菌谱也不相同,说明M53和M81各自分别携带1个新的显性抗白粉病基因。 相似文献
127.
穗粒数是决定小麦产量的三因素之一,因此通过远缘杂交创造多粒新种质,对于拓宽小麦育种的遗传基础和促进育种水平的持续提高具有重要意义。本研究以通过多年多点鉴定证明具有多粒特性(粒数/穗>80)的31份普通小麦-冰草(Agropyron cristatum,2n=4x=28,PPPP)衍生后代为材料,通过田间接种白粉病生理小种E09进行抗病性鉴定、采用SDS-PAGE方法进行高分子量麦谷蛋白亚基(HMW-GS)组成分析以及株高、有效分蘖等农艺性状调查,发现26份材料表现抗白粉病,12份材料具有优质高分子量麦谷蛋白亚基组合,亚基组成为(2*,7+8,5+10)或(1,7+8,5+10)。其中,8份材料的穗粒数大于80粒、株高小于75 cm、抗白粉病且具有优质高分子量麦谷蛋白亚基组合,这为未来培育兼具高产、优质、抗白粉病小麦新品种提供了重要的物质基础。此外,对多粒、抗白粉病和优质亚基的可能来源进行了讨论。 相似文献
128.
Tomoshevich M.A. 《菌物研究》2007,5(4):233-237
介绍了柳树白粉病病原菌Uncinula adunca的生物学特性,揭示了西伯利亚地区该菌在症状、无性型阶段及有性型阶段形成等方面的不同,同时还指出了该病原菌子实体的一些生物学特性。 相似文献
129.
小麦白粉病抗性基因的聚合及其分子标记辅助选择 总被引:43,自引:0,他引:43
采用了在早代进行抗性鉴定、淘汰感病株、保留抗病株继续种植、较晚世代(F4代)进行抗性鉴定结合分子标记辅助选择的策略,提高了选到聚合抗性植株的效率。利用与Pm2、Pm4α、Pm8、Pm21紧密连锁或共分离的RFLP标记和PCR标记(SCAR标记),对含有这些基因的优良品系间配制的杂交组合的F4代进行了分子标记辅助育种选择,并结合抗性鉴定,筛选到14株Pm4α Pm2I的植株,16株Pm2 Pm4α的植株,6株Pm8 Pm21的植株。应该引起注意的是,Pm2 Pm4α对混合白粉病菌的抗性达到高抗至免疫水平,而Pm2和Pm4α单独存在时抗性较差,表明聚合抗病基因植株的抗性提高了,为培育具有持久性抗性的品系或品种提供了新思路,它在实践和理论研究上都将具有重要意义。 相似文献
130.
Molecular phylogeny and radiation time of Erysiphales inferred from the nuclear ribosomal DNA sequences 总被引:4,自引:0,他引:4
Phylogenetic relationships of Erysiphales within Ascomycota were inferred from the newly determined sequences of the 18S rDNA
and partial sequences of the 28S rDNA including the D1 and D2 regions of 10 Erysiphales taxa. Phylogenetic analyses revealed
that the Erysiphales form a distinct clade among ascomycetous fungi suggesting that the Erysiphales diverged from a single
ancestral taxon. The Myxotrichaceae of the Onygenales was distantly related to the other onygenalean families and was the
sister group to the Erysiphales calde, with which it combined to form a clade. The Erysiphales/Myxotrichaceae clade was also
closely related to some discomycetous fungi (Leotiales, Cyttariales and Thelebolaceae) including taxa that form cleistothecial
ascomata. The present molecular analyses as well as previously reported morphological observations suggest the possible existence
of a novel evolutionary pathway from cleistothecial discomycetous fungi to Erysiphales and Myxotrichaceae. However, since
most of these fungi, except for the Erysiphales, are saprophytic on dung and/or plant materials, the questions of how and
why an obligate biotroph like the Erysiphales radiated from the saprophytic fungi remain to be addressed. We also estimated
the radiation time of the Erysiphales using the 18S rDNA sequences and the two molecular clockes that have been previously
reported. The calculation showed that the Erysiphales split from the Myxotrichaceae 190–127 myr ago. Since the radiation time
of the Erysiphales does not exceed 230 myr ago, even when allowance is made for the uncertainty of the molecular clocks, it
is possible to consider that the Erysiphales evolved after the radiation of angiosperms. The results of our calculation also
showed that the first radiation within the Erysiphales (138–92 myr ago) coincided with the date of a major diversification
of angiosperms (130–90 myr ago). These results may support our early assumption that the radiation of the Erysiphales coincided
with the evolution of angiosperm plants.
Contribution No. 152 from the Laboratory of Plant Pathology, Mie University 相似文献