多枝赖草及其转育后代对大麦黄矮病毒PAV和GAV株系的抗性研究

 本文针对大麦黄矮病毒(BYDV) PAV和GAV株系,采用生物学和血清学(ELISA)相结合的鉴定方法,对多枝赖草以及它与普通小麦杂交获得的二体附加系Line24等材料进行抗性测定。首次证明了多枝赖草对我国BYDV-PAV和GAV株系免疫或高抗,而普通小麦-多枝赖草二体附加系Line24以及2个易位系高耐这2种株系。     

A comparative study of the Barley yellow dwarf virus species PAV and PAS: distribution,accumulation and host resistance

This study investigated the distribution and characteristics of the Barley yellow dwarf virus (BYDV) species BYDV‐PAS, which was recently separated from BYDV‐PAV, the most commonly studied BYDV species. Throughout 3 years of experimental monitoring of BYDV incidence, PAS was the most frequently occurring species infecting cereals and grasses in the Czech Republic. Furthermore, Rhopalosiphum maidis and Metopolophium dirhodum were recorded as BYDV‐PAS vectors, even though M. dirhodum does not usually transmit BYDV‐PAV. In field experiments with barley and wheat, where virus accumulation, symptoms and effect on the yield were tested, BYDV‐PAV was more severe than PAS. Infection with the BYDV‐PAV isolate resulted in greater expression of symptoms and also in a greater reduction in plant height and grain weight per spike than BYDV‐PAS. In a sensitive cultivar of barley (Graciosa), the amount of viral RNA of BYDV‐PAV was also significantly higher than that of BYDV‐PAS. In a tolerant line (Wbon‐123), however, no such differences were found. In conclusion, although BYDV‐PAS seems to be dominant in the Czech Republic, BYDV‐PAV has the potential to cause more significant crop losses in barley and wheat.     

Asymmetrical Distribution of Barley Yellow Dwarf Virus PAV Variants Between Host Plant Species

ABSTRACT A large epidemiological study of the genetic variation of barley yellow dwarf virus (BYDV) serotype PAV involving different host plant species was conducted. French BYDV PAV isolates were collected from barley and ryegrass, and their capsid protein gene sequences characterized using restriction fragment length polymorphism, single-strand conformation polymorphism, and sequence analyses. The data show that BYDV PAV isolates from five different continents are separated into two distinct groups named cpA and cpB, which are distributed irrespective of geographical location. Amino acid identity of the capsid proteins ranged from 93 to 99.5% in group cpA and from 95 to 99.5% in group cpB, while this value was only from 82 to 88% between the groups. Moreover, isolates from each group were found preferentially (up to 98%) in one of the two plant species examined. These results show that host plant species play a role in isolate selection and maintenance and that they contribute to the genetic diversity of BYDV PAV.     

从麦类种质资源中筛选大麦黄矮病毒(BYDV)抗原

用 ELISA 法鉴定了小麦近缘种赖草属(Leymus)、披碱草属(Elymus)、鹅冠草属(Roegneria)3个属的21个种,其中17个种抗 BYDV。21145份小麦品种中筛选到症状轻、病毒含量高的耐病品种忻县冬麦、江西早等29份。3604份大麦品种中筛选到症状轻、病毒含量低的抗病品种C13208、小麦近缘种(Agropyronintemedium)和普通小麦杂交的异源八倍体中4无芒,中5,远中7,陇远45、46,远中1001,忻4079以及附加系 L1。现已获得抗 BYDV 的以中4无芒、L1为亲本的杂交后代。     

Occurrence of barley yellow dwarf virus in cereals and grasses of the low-rainfall wheatbelt of South Australia

South Australia is in the dry temperate zone where most cereal crops are grown in an area of low rainfall, with a crop-free season from December to April. The incidence of barley yellow dwarf virus (BYDV) was assessed by ELISA from 1989 to 1991 in wheat crops and irrigated pastures of South Australia. The incidence of BYDV was low in most wheat crops of the low-rainfall area in 1989 and 1990 (less than 1% of plants infected), but moderate levels of infection (1–10%) were observed in some early-sown crops. BYDV infection was more widespread in the high-rainfall area (south east of South Australia). A high incidence of BYDV was observed in the irrigated pastures of the three areas surveyed (4–86%). Of the five previously described strains, the Rhopalosiphum padi/Sitobion avenae strain (PAV) was the most common in wheat samples (> 90%). PAV and the R. padi-specific strain (RPV) were found in pasture grasses, alone or in mixed infection. Virus incidence was greater in Festuca spp. (56%) and Lolium perenne (30%) than in other species (2-–9%).     

晋南冬麦区大麦黄矮病毒流行株系监测及防治策略探讨

连续5年(1996～2000年)采集晋南冬麦区小麦黄矮病标样,采用生物学和血清学(酶联免疫吸附法)相结合的诊断方法对该地区的大麦黄矮病毒流行株系进行了鉴别。结果表明,该小麦黄矮病流行区近五年以GAV株系为主流株系,兼有少量GPV、PAV和混合株系存在。同时对小麦抗黄矮病新品种“临抗1号”进行了GPV和GAV两种株系的抗性测定,明确了该品种兼抗GPV和GAV两种株系。根据小麦黄矮病发生现状,提出了一套以选育推广抗耐病品种为主,以药剂防治为辅的综合防治措施。以期为当地小麦生产服务。     

河北省春小麦黄矮病的主要介体和病毒株系研究

１９９２￣１９９５年的研究结果表明,河北省春麦区麦长管蚜是传播小麦黄矮病毒的优势种群,占张家口坝上、坝下及承德麦蚜发生总量的９４．７５％￣１００％。有翅蚜迁入麦田的时期和数量是影响春麦黄矮病发生程度的重要因素。张家口坝上小麦黄矮病毒株系以麦二叉蚜、麦长管蚜株系（ＧＡＶ）占绝对优势,张家口坝下及承德地区的株系种类较为复杂,除以ＧＡＶ株系为主外,存在禾缢管蚜、麦长管蚜、麦二叉蚜株系（ＰＡＧＶ）及麦二叉     

大麦黄矮病毒PAV中国分离物外壳蛋白基因的克隆及同源性分析

 大麦黄矮病毒PAV株系由麦长管蚜和禾谷缢管蚜传毒。本研究通过RT-PCR、克隆和序列测定后,确认所得到的我国小麦PAV分离物的外壳蛋白基因片段由600个核苷酸组成,编码199个氨基酸。序列同源性比较结果显示,与BYDV的其它株系典型分离物的外壳蛋白基因同源性最高为74.5%,而与国外发表的PAV 8个分离物的CP基因核苷酸同源性为81%左右,且同源性比较的分值也较其它株系高。氨基酸序列的比较中,仅在46到60位氨基酸差别较大。     

抗黄矮病小麦新品系的分子标记检测研究

本研究对以小麦-中间偃麦草异附加系L1和小麦-中间偃麦草部分双二倍体‘无芒中4’为抗源选育出的抗黄矮病小麦新品系进行分子检测和抗病性鉴定.通过应用RAPD、SSR、SCAR 3种分子标记OPF15、Xgwm37、SC-W37进行分子检测,并采用人工接种和大田自然感病的方式进行抗黄矮病鉴定,筛选到了‘93646’、‘2003-2’等高抗黄矮病的小麦新品系.分子检测抗黄矮病基因与田间抗病鉴定结果基本一致,应用的3种PCR标记都可以检测出抗病材料,但SCAR标记SC-W37特异性强、稳定性好,可在小麦抗黄矮病育种早代选择过程中发挥重要作用.     

Barley yellow dwarf viruses in Japanese pasture grasses and lack of correlation with the presence of fungal endophytes

Pasture grasses from temperate Japan were tested for infection with barley yellow dwarf viruses (BYDVs) and fungal endophytes. BYDVs from both the MAV and RPV subgroups were detected, but no symptoms attributable to BYDV infection were observed. Not all isolates from the MAV subgroup could be clearly discriminated as MAV or PAV solely on ELISA results, and may have been intermediate serotypes or mixed infections. BYDVs were found to infect fescue ( Festuca arundinacea : 17%), ryegrass ( Lolium perenne : 41%), timothy ( Phleum pratense : 94%) and Poa spp. (20%). Fescue and ryegrass were predominantly infected with RPV and PAV, respectively. The small collections of Poa spp. were only infected with PAV, while timothy was only tested for MAV subgroup viruses. In fescue 26% of tillers were infected with Acremonium coenophialum , and 60% of ryegrass tillers from an ecotype collection were infected with Acremonium lolii. There was no correlation between BYDV infection and the presence of endophytes for the above species or for Epichloe typhina -infected (50%) timothy. An ELISA test for A. lolii did not detect A. coenophialum in fescue or E. typhina in timothy but showed good agreement with epidermal staining of A. lolii in ryegrass leaf sheaths.     

Yield Effects of Barley yellow dwarf virus in Soft Red Winter Wheat

ABSTRACT Three cultivars of soft red winter wheat were evaluated to determine the relationship between the incidence and time of infection by Barley yellow dwarf virus (BYDV) and yield. Wheat was planted in 1995, 1996, and 1997 in a split-plot design with six replicates at sites in Indiana and Illinois. Yield plots were infested with different amounts of viruliferous aphids, and the incidence of BYDV in each plot was measured. In a 2-year study in Illinois with cv. Clark and the PAV-IL isolate of BYDV, yields were assessed following aphid infestation in fall, early spring, and late spring. Early spring infections resulted in larger yield reductions than late spring infections in both years and larger than fall infections in one year. Regression analyses to relate incidence of infection and yield with data from fall and early spring infections provided R(2) values of 0.89 and 0.51 for the 1996 to 1997 and 1997 to 1998 seasons, respectively. An additional study at the same site in the 1996 to 1997 season compared the yield responses of cvs. Clark, Y88-3e, and PT8935b. Increases in the incidence of BYDV correlated with decreases in yield, with R(2) values of 0.80, 0.78, and 0.90 for the three cultivars, respectively. Estimated yield losses in both studies and all cultivars ranged from 27 to 45 kg/ha or 0.34 to 0.55% for each percent increase in virus infection. In a third study over a 2-year period in Indiana with the same three wheat genot ypes and a second BYDV isolate (PAV-P), BYDV treatments resulted in significant reductions in yield, but yield loss and the incidence of BYDV were not linearly correlated. Given the differences in yield reductions caused by the two BYDV isolates, PAV-P may be an attenuated strain of BYDV and may cross-protect plants from naturally occurring strains of the virus.     

Plant community diversity influences vector behaviour and Barley yellow dwarf virus population structure

The species composition of a plant community can affect the distribution and abundance of other organisms including plant pathogens. The goal of this study was to understand the role of host diversity in the transmission of two Barley yellow dwarf virus (BYDV) species that share insect vectors and hosts. Greenhouse experiments measured the transmission rate of BYDV species PAV and PAS from infected oat plants to healthy agricultural and wild grasses and from these species back to healthy oat seedlings. In the field component of the study, the rate of spread of PAV and PAS was measured in monoculture plots planted with agricultural grasses. In greenhouse experiments, the aphid vector more readily transmitted PAV from agricultural grasses and more readily inoculated PAS to the wild grass species assayed. In the field experiment, disease prevalence was greater in wheat, but there was no difference in the rate of spread of PAV and PAS. These results indicate an interaction between vector and host genotype that selects for greater PAV transmission in grain crops, contributes to differences in disease prevalence between grass types, and maintains pathogen diversity within the larger plant community (i.e. agricultural and non‐agricultural hosts).     

Analysis of Accumulation Patterns of <Emphasis Type="Italic">Barley yellow dwarf virus-PAV</Emphasis> (BYDV-PAV) in Two Resistant Wheat Lines

Barley yellow dwarf (BYD) is one of the main viral diseases of small-grain cereals. This disease, reported on numerous plant species of the Poaceae family, is caused by a complex of eight viral species including the species Barley Yellow Dwarf Virus-PAV (BYDV-PAV), frequently found in western Europe. Resistance sources against BYDV-PAV are scarce and only identified in perennial Triticineae. Some BYDV-resistant wheat lines have been obtained by introgressing these resistances into bread wheat germplasms. Genetic and biological characterization of the resulting lines has been undertaken. However, little information on the resistant behaviour of these lines during the early stages of the infection process is available. To evaluate the resistance of two genetically distinct resistant lines (Zhong ZH and TC14), 1740 young plantlets, belonging to susceptible reference hosts (barley cv. Express and wheat cv. Sunstar), Zhong ZH or TC14 wheat lines, were inoculated in controlled conditions with French BYDV-PAV isolates. The infection process was monitored during the first 21 days after inoculation (DAI) using a semi-quantitative ELISA. A standardized protocol including five successive samplings of leaves from all inoculated plants and the collection of plant roots at the end of the monitored period was carried out. This protocol enabled an assessment of the infection percentage and the evolution of the viral load in plants from the 7th DAI to the 21st DAI. Statistical analyses of the BYDV infection kinetics using raw ELISA data, a model of the time-dependent variation of the percentage of infected plants and the area under concentration progress curves (AUCPC) demonstrated that Zhong ZH and TC14 lines (1) reduce the development rate of the BYD disease during the first days of infection, (2) decrease the infection efficiency of BYDV-PAV isolates, in the leaves, from 98.7% for susceptible plant genotypes to 81.9% and 71.7% for Zhong ZH and TC14, respectively, (3) reduce the virus load in the leaves of infected plants and (4) are not spared from BYDV infection, as 95.1% of Zhong ZH and 90.2% of TC14 inoculated plants accumulated viral particles in roots and/or in leaves at 21 DAI. These results confirm the BYDV-partial resistant behaviour of both Zhong ZH and TC14 lines. The development rate of the disease was the single parameter that allowed the distinction between the two resistant sources present in the tested lines.     

Identification of quantitative Loci for tolerance to barley yellow dwarf virus in oat

ABSTRACT Molecular markers linked to quantitative trait loci conditioning tolerance to barley yellow dwarf virus (BYDV) were identified in oat (Avena sativa) using amplified fragment length polymorphism (AFLP) analysis. Near-isogenic and recombinant inbred lines (NILs and RILs, respectively) derived from a cross of Clintland64 (BYDV-sensitive) and IL86-5698 (BYDV-tolerant) were evaluated for their responses to an Illinois isolate of the PAV strain of BYDV. Individual markers identified in the analysis of the NILs explained up to 35% of the variability seen in the tolerance response. Single-point analysis of the marker data from the RIL population identified 24 markers in three linkage groups that were associated with tolerance to BYDV infection at P /= 3.0. These loci explained about 50% total of the variation in BYDV tolerance in multimarker regression analysis in both years. The BYDV tolerance loci A, C, E, and R were mapped to hexaploid oat restriction fragment length polymorphism linkage groups 2, 8, 36, and 5, respectively, by analyzing the segregation of the AFLP markers in the Kanota x Ogle RIL population.     

Characterization of wheatgrass-derived barley yellow dwarf virus resistance in a wheat alien chromosome substitution line

ABSTRACT Wheatgrass (Thinopyrum intermedium) possesses a high level of resistance to barley yellow dwarf virus (BYDV) subgroup I and subgroup II strains. A wheat line (P29), in which the 7D chromosome has been substituted with a group 7 chromosome from T. intermedium, was examined for the level of resistance to two subgroup I and two subgroup II BYDV strains. In P29 plants inoculated with the subgroup I PAV strains, the titer of virus in leaf and stem tissue was typically reduced 42 to 52% when compared with the BYDV-susceptible cv. Abe. P29 and 'Abe' had the same content of PAV in roots. These results and the absence of detectable virus in inoculated T. intermedium plants indicate that the complete resistance to subgroup I possessed by the wheatgrass has not been introgressed into P29. In contrast, P29 was completely resistant throughout the plant to the subgroup II strains, NY-RPV and NY-RMV, demonstrating that the complete resistance to subgroup II in T. intermedium was incorporated into P29. Further analysis of this resistance to NY-RPV showed that NY-RPV can replicate in mesophyll protoplasts of P29 and 'Abe', suggesting that this resistance is not operating at the single-cell level. Molecular marker analysis confirmed that the T. intermedium chromosome present in P29 is a different group 7 wheatgrass chromosome than that present in L1, a wheat line with BYDV resistance properties similar to those of P29.     

231份麦类种质资源对大麦黄矮病毒的田间抗性鉴定

为明确不同麦类种质资源对大麦黄矮病毒(Barley yellow dwarf viruses,BYDV)的抗性差异,于2015—2016年连续两年采用堆测法在田间人工接种鉴定了231份麦类种质资源的抗病性。结果表明,不同麦类种质资源对BYDV引起的黄矮病的抗性存在较大差异,2015—2016年,克群、加麻白芒麦、墨沙、绿见口和灰木头的平均病情指数分别为20.40、22.28、23.08、22.34和13.08,对黄矮病表现出较好的抗性;团结红壳麦-K、红矮子、定兴寨、旱地小麦、小红狼、榔头麦、峥白毛、金包银、红四楞、赤壳须麦及和穗板麦的平均病情指数分别为74.68、71.62、70.36、68.44、65.17、64.74、63.29、60.97、55.78、56.42和53.21,均大于50.00,表现为高感;其余种质资源的平均病情指数在25.00~50.00之间,表现为感病。此外,长芒芒、冰糖色小麦、苏麦、红皮麦、小红穗和青兰麦初期表现感病,后期可恢复健康,有一定的耐病性。抗病性不同的麦类种质资源感染BYDV后,对产量的影响差异很大,其中抗病资源绿见口的产量损失率最低,为8.87%,耐病资源长芒芒、冰糖色小麦、苏麦、红皮麦、小红穗和青兰麦的产量损失率依次为16.90%、17.40%、15.04%、13.13%、18.94%和11.57%,而感病资源和穗板麦的产量损失率达43.57%。     

Evidence for Natural Selection in the Mitochondrial Genome of Mycosphaerella graminicola

ABSTRACT Pathogenicity assays were combined with restriction fragment length polymorphism (RFLP) markers in the mitochondrial and nuclear genomes to compare Mycosphaerella graminicola populations adapted to bread wheat (Triticum aestivum) and durum wheat (T. turgidum) in the Mediterranean Basin. The majority of isolates had unique nuclear DNA fingerprints and multilocus haplotypes. Only six mitochondrial DNA (mtDNA) haplotypes were identified among 108 isolates assayed. There were minor differences in frequencies of alleles at nuclear RFLP loci between the two host-adapted populations, but differences in the frequencies of mtDNA haplotypes were highly significant (P < 0.0001). mtDNA haplotype 1 dominated on the isolates adapted to bread wheat, and its frequency was twice as high as for the isolates adapted to durum wheat. mtDNA haplotype 4, which contained a unique approximately 3-kb insertion, was detected only in isolates showing specificity toward durum wheat and was the dominant haplotype on this species. We propose that the low mitochondrial diversity in this pathogenic fungus is due to a selective sweep and that differences in the frequencies of mtDNA haplotypes between the two host-adapted populations were due to natural selection according to host species.     

青海省小麦种质资源对大麦黄矮病毒的抗性鉴定

为明确青海省不同小麦种质资源对大麦黄矮病毒(Barley yellow dwarf virus,BYDV)的抗性差异,于2014—2015年采用堆测法人工接种鉴定了178份种质资源的抗病性。结果显示,不同小麦种质资源对黄矮病的抗性存在较大差异,甘A100、川766、陕1059、兰麦-2的病情指数依次为14.83、23.60、23.99和24.66,表现出较好的抗病性;病情指数在50.00以上的高感品种有69份,包括尕老汉、白板麦、兴热密穗等,其中白板麦病情指数高达72.35,高于感病对照阿勃;其余种质资源病情指数在25.00~50.00之间,表现为感病;甘A101、甘A99、藏515、藏519、木汉麦、群科大白麦、拉胎板麦、小红麦-2和朗县折达25初期表现感病,后期恢复健康,有一定的耐病性;抗病性不同的种质资源感染BYDV后,对小麦产量的影响差异很大,抗病对照中4产量损失8.96%,耐病品种产量损失在13.64%~19.74%之间,高病品种尕老汉产量损失达41.91%,表明小麦种质资源中抗BYDV的品种极少。     

小麦条锈病新抗源的抗谱鉴定初析

 利用南京农业大学细胞遗传研究所育成的一套涉及不同簇毛麦染色体的异附加系和代换系以及5个6VS/6AL易位系,经1997、1998、1999连续3年在陕西、北京、四川进行小麦条锈病抗性接种鉴定,结果表明普通小麦-簇毛麦6V异附加系,6V(6A)异代换系和6VS/6AL易位系高抗条锈病菌条中29、条中31、水源11-2、水源11-5、水源11-13和杂46等强毒小种。考虑到含整组V染色体的硬粒小麦-簇毛麦双倍体不抗水源11-13小种,上述普通小麦-簇毛麦6V异附加系、异代换系和6VS/6AL易位系的条锈病抗性可能还与其所涉及的小麦亲本基因的作用有关。     

The invasive weed Ventenata dubia is a host of Barley yellow dwarf virus with implications for an endangered grassland habitat

Ventenata dubia (African wiregrass), a winter annual weed, is a non‐native species invading grasslands, rangelands and pastures throughout the USA. Limited information is available on its suitability as a host to pathogens and insects in its invaded range. The barley/cereal yellow dwarf virus (B/CYDV) complex occurs ubiquitously in Poaceae species. In non‐managed grasslands, BYDV infection influences competitive dynamics between native and invasive grasses and facilitates invasion by non‐native annual weeds. The Palouse prairie of south‐eastern Washington and northern Idaho, USA, is an endangered ecosystem. Surveys of V. dubia in Palouse prairie and neighbouring Conservation Reserve Program (CRP) habitats were conducted to determine whether B/CYDV viral species are present. Laboratory tests examined the suitability of V. dubia to host BYDV‐PAV and serve as an inoculum source. Plant growth and weight parameters were measured to gauge the impact of BYDV‐PAV on V. dubia. Infection of V. dubia in Palouse prairie and CRP habitats with two species of BYDV, PAV and SGV, was detected for the first time. The ability of BYDV‐PAV to infect V. dubia in the laboratory and transmission from infected V. dubia to barley were demonstrated. BYDV‐PAV‐infected V. dubia showed reductions in plant height, number of leaves and tillers per plant, and above‐ground dry weight, suggesting that V. dubia is sensitive to BYDV. Results demonstrate that V. dubia is a host to BYDV and may serve as a virus inoculum source with potential implications for its management, competitive dynamics between invasive and native grasses and future conservation of endangered grasslands.