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1.
Andreas von Felten Pascal L. Zaffarano Bruce A. McDonald 《European journal of plant pathology / European Foundation for Plant Pathology》2011,129(4):529-537
Pulsed-field gel electrophoresis was used to generate electrophoretic karyotypes for 15 strains representing the three closely
related plant-pathogenic fungi Rhynchosporium commune, R. secalis and R. agropyri. Between 13 and 16 chromosomes ranging in size from 0.9 to 6.4 Mb were found among the strains, leading to estimated genome
sizes ranging from 54 to 63 Mb. Southern hybridization was used to identify homologous chromosomes, allowing detection of
chromosome-length polymorphisms. There were no obvious differences in genome sizes or structures among the three species.
The avirulence gene NIP1 is present on a large chromosome that is not likely to be dispensable. Two strains of R. commune that were proposed in earlier studies to be aneuploid as a result of a parasexual cycle did not possess a larger number of
chromosomes. The reported information on genome size and chromosome number will be useful for genome sequencing projects that
aim to identify genes involved in speciation and host specialization. 相似文献
2.
Richard Michelmore Joan Wong 《European journal of plant pathology / European Foundation for Plant Pathology》2008,122(1):19-30
Lettuce downy mildew caused by Bremia lactucae has long been a model for understanding biotrophic oomycete–plant interactions. Initial research involved physiological and
cytological studies that have been reviewed earlier. This review provides an overview of the genetic and molecular analyses
that have occurred in the past 25 years as well as perspectives on future directions. The interaction between B. lactucae and lettuce (Lactuca sativa) is determined by an extensively characterized gene-for-gene relationship. Resistance genes have been cloned from L. sativa that encode proteins similar to resistance proteins isolated from other plant species. Avirulence genes have yet to be cloned
from B. lactucae, although candidate sequences have been identified on the basis of motifs present in secreted avirulence proteins characterized
from other oomycetes. Bremia lactucae has a minimum of 7 or 8 chromosome pairs ranging in size from 3 to at least 8 Mb and a set of linear polymorphic molecules
that range in size between 0.3 and 1.6 Mb and are inherited in a non-Mendelian manner. Several methods indicated the genome
size of B. lactucae to be ca. 50 Mb, although this is probably an underestimate, comprising approximately equal fractions of highly repeated
sequences, intermediate repeats, and low-copy sequences. The genome of B. lactucae still awaits sequencing. To date, several EST libraries have been sequenced to provide an incomplete view of the gene space.
Bremia lactucae has yet to be transformed, but regulatory sequences from it form components of transformation vectors used for other oomycetes.
Molecular technology has now advanced to the point where rapid progress is likely in determining the molecular basis of specificity,
mating type, and fungicide insensitivity. 相似文献
3.
逆转座子是植物基因组的重要成分, 对基因组的大小、结构、功能和进化都有重要影响。研究表明多种生物和非生物逆境胁迫可以激活植物逆转座子的转录, 但其调控机制和功能还属未知。本研究从稻瘟菌侵染后云南地方水稻品种月亮谷的基因转录谱中筛选出3个逆转座子相关基因, 通过RT PCR分析了逆境胁迫处理对其表达水平的影响。结果表明, 稻瘟病菌、水杨酸、2, 4 D和NaCl处理水稻苗都能诱导这3个基因的快速转录, 表明这3个基因能够同时响应生物逆境和非生物逆境, 是研究该类逆转座子表达调控的良好候选基因。通过生物信息学分析还发现, 它们在月亮谷基因组中没有发生大的结构变异;且在水稻基因组中都具有与植物抗病相关的旁系同源物, 意味着其表达后可能对抗性产生影响, 因此, 这些基因在逆境和非生物逆境中的表达模式和功能值得关注。 相似文献
4.
Masunaka A Ohtani K Peever TL Timmer LW Tsuge T Yamamoto M Yamamoto H Akimitsu K 《Phytopathology》2005,95(3):241-247
ABSTRACT Two different pathotypes of Alternaria alternata cause Alternaria brown spot of tangerines and Alternaria leaf spot of rough lemon. The former produces the host-selective ACT-toxin and the latter produces ACR-toxin. Both pathogens induce similar symptoms on leaves or young fruits of their respective hosts, but the host ranges of these pathogens are distinct and one pathogen can be easily distinguished from another by comparing host ranges. We isolated strain BC3-5-1-OS2A from a leaf spot on rough lemon in Florida, and this isolate is pathogenic on both cv. Iyokan tangor and rough lemon and also produces both ACT-toxin and ACR-toxin. Isolate BC3-5-1-OS2A carries both genomic regions, one of which was known only to be present in ACT-toxin producers and the other was known to exist only in ACR-toxin producers. Each of the genomic regions is present on distinct small chromosomes, one of 1.05 Mb and the other of 2.0 Mb. Alternaria species have no known sexual or parasexual cycle in nature and populations of A. alternata on citrus are clonal. Therefore, the ability to produce both toxins was not likely acquired through meiotic or mitotic recombination. We hypothesize that a dispensable chromosome carrying the gene cluster controlling biosynthesis of one of the host-selective toxins was transferred horizontally and rearranged by duplication or translocation in another isolate of the fungus carrying genes for biosynthesis of the other host-selective toxin. 相似文献
5.
ABSTRACT A genetic map including three avirulence (Avr) genes, AvrPik, AvrPiz, and AvrPiz-t, was constructed in a genetic cross of two rice field isolates, 84R-62B and Y93-245c-2. The chromosomal locations of the Avr genes were determined by using selected markers to probe Southern blots of the parental chromosomes that had been separated by contour-clamped homogenous electric fields electrophoresis. Electrophoretic karyotyping showed that both parental isolates 84R-62B and Y93-245c-2 contained seven chromosomes greater than 3.5 megabases (Mb) in size and 84R-62B possessed a small chromosome of approximately 1.6 Mb. The linkage groups containing AvrPiz and AvrPiz-t were assigned to chromosomes 3 and 7, respectively. Some markers from the linkage group that contained AvrPik hybridized with chromosome 1 and the 1.6-Mb chromosome, yet all of the cloned RAPD markers that were closely linked to AvrPik hybridized exclusively to the 1.6-Mb chromosome in 84R-62B, the parent that possesses AvrPik. Thus, we conclude that AvrPik is located on the 1.6-Mb chromosome in 84R-62B. 相似文献
6.
为探究柑橘大实蝇Bactrocera minax的全基因组信息,以海关口岸截获的柑橘大实蝇样本为材料,提取DNA后构建350 bp短片段文库,采用Illumina二代测序平台开展全基因组测序,进行基因组组装、完整性评估和注释分析。结果表明,柑橘大实蝇的基因组大小为368.14 Mb,重复序列占比为16.27%,杂合率为0.79%,属于中等杂合度基因组。基因组组装得到43 124条contigs,contig N50长度为94 994 bp。BUSCO评估显示,组装的基因组可完整覆盖98.80%昆虫保守的单拷贝直系同源基因,表明该组装的完整性很高,可以满足后续分析。通过EVM注释流程整合了从头预测、同源预测和基于转录组预测等不同方法的注释结果,共预测到35 655个蛋白编码基因,其中24 343个基因有功能注释。 相似文献
7.
ABSTRACT Chromosome sizes of 71 phytoplasmas belonging to 12 major phylogenetic groups including several of the aster yellows subgroups were estimated from electrophoretic mobilities of full-length chromosomes in pulsed-field gels. Considerable variation in genome size, from 660 to 1,130 kilobases (kb), was observed among aster yellows phytoplasmas. Chromosome size heterogeneity was also observed in the stolbur phytoplasma group (range 860 to 1,350 kb); in this group, isolate STOLF contains the largest chromosome found in a phytoplasma to date. A wide range of chromosome sizes, from 670 to 1,075 kb, was also identified in the X-disease group. The other phytoplasmas examined, which included members of the apple proliferation, Italian alfalfa witches' broom, faba bean phyllody, pigeon pea witches' broom, sugarcane white leaf, Bermuda grass white leaf, ash yellows, clover proliferation, and elm yellows groups, all have chromosomes smaller than 1 megabase, and the size ranges within each of these groups is narrower than in the aster yellows, stolbur, and X-disease groups. The smallest chromosome, approximately 530 kb, was found in two Bermuda grass white leaf phytoplasma isolates. This not only is the smallest mollicute chromosome found to date, but also is the smallest chromosome known for any cell. More than one large DNA band was observed in several phytoplasma preparations. Possible explanations for the occurrence of more than one band may be infection of the host plant by different phytoplasmas, the presence of more than one chromosome in the same organism, or the presence of large extrachromosomal DNA elements. 相似文献
8.
Alternaria alternata includes seven pathogenic variants, called pathotypes, which produce host-selective toxins (HSTs) as determinant factors for pathogenicity. The gene clusters for HST biosynthesis were identified from six pathotypes (Japanese pear, strawberry, tangerine, apple, tomato and rough lemon) and were found to reside on small chromosomes of <2.0 Mb in most strains tested. We isolated mutants lacking the small chromosomes from the strawberry, apple and tomato pathotypes and showed that the small chromosomes are dispensable for growth. In this review, we summarize our current understanding of the evolution of pathogenicity controlled by small, dispensable chromosomes in Alternaria alternata pathogens. 相似文献
9.
Arif Hasan Khan Robin Nicholas J. Larkan Rawnak Laila Jong-In Park Nasar Uddin Ahmed Hossein Borhan Isobel A. P. Parkin Ill-Sup Nou 《European journal of plant pathology / European Foundation for Plant Pathology》2017,149(3):611-623
Blackleg disease, caused by the hemibiotrophic fungal pathogen Leptosphaeria maculans, is one of the most devastating disease of Brassica species worldwide. To date, a total of 20 race-specific blackleg resistance (R) genes have been reported and all of those loci are located in either the A or B genomes of various Brassica species. The B. oleracea genome (CC) shares a high ancestral synteny with the A genome of B. rapa, suggesting the presence of qualitative (race specific) resistance to blackleg disease is also possible in B. oleracea germplasm. In the present study the C genome of Korean B. oleracea germplasm was screened for the presence of blackleg R genes. Thirty-two inbred cabbage lines with unknown resistance profiles, along with five control B. napus lines with well-characterised race-specific R genes, were assessed for cotyledon resistance against two L. maculans isolates with known and highly-contrasting avirulence gene (Avr) profiles. Two cabbage accessions were identified which produced a strong resistance when challenged with either isolate, demonstrating the presence of effective blackleg R genes in the cabbage C genome. Additionally, 16 microsatellite markers linked to seven different R genes of the B. napus A genome were converted into markers for their homologous regions on the B. oleracea C genome. These markers were used to screen all B. oleracea lines to assess if the novel C genome R genes were syntenous to known R gene-homologous regions of the A genome. The resistant cabbage lines offer C genome R genes for the protection of B. oleracea varieties against incursion of blackleg disease, as well as novel additional resistance sources for introgression into B. napus and B. carinata breeding material. 相似文献
10.
Chuntai Wang Guoshong Wen Xinghua Lin Xuequn Liu Duanpin Zhang 《European journal of plant pathology / European Foundation for Plant Pathology》2009,123(2):235-240
Zhachanglong (ZCL), a regional rice variety from Yunnan province in southwest China, has a high level of resistance to a broad
spectrum of Xanthomones oryzae pv. oryzae (Xoo) isolates. In a previous study, a bacterial blight (BB) resistance (R) gene, Xa22(t), with resistance against Xoo strain Px061 on chromosome 11 was identified in ZCL. Here, we report another BB R-gene, tentatively named Xa31(t), with resistance against Xoo strain OS105 and susceptible to Px061 identified in ZCL. To determine the location of Xa31(t), 102 polymorphic RFLP markers on 12 rice chromosomes were selected for bulked segregation analysis (BSA). Twelve RFLP markers
on chromosome 4 detected DNA polymorphisms between ZCL and Zhengzhu Ai (ZZA), as well as in the OS105-resistant and -susceptible
bulks from F2 populations derived from ZCL × ZZA. Genetic linkage analysis and fine mapping localised Xa31(t) within a genetic distance of 0.2 cM between two RFLP markers, G235 and C600, on the end of the long arm of chromosome 4,
using two F2 populations from the cross ZCL × ZZA and two F3 populations, consisting of 3,311 plants with 301 F3 random families and 3,333 plants with 303 F3
Pxo61-susceptible families, derived from the same F2 populations from the cross ZCL × ZZA. Using two flanking markers, G235 and C600, to screen the MH63 BAC library, the Xa31(t) locus was limited to one BAC clone with a length of about 100 kb. 相似文献
11.
P. Gladders N. Evans S. Marcroft X. Pinochet 《European journal of plant pathology / European Foundation for Plant Pathology》2006,114(1):117-126
The management of phoma stem canker (blackleg disease, caused by Leptosphaeria maculans) is an integral component of oilseed rape production. In this paper, we discuss the information about management strategies
that is disseminated in Europe and Australia. New cultivars have been introduced with improved resistance to disease, but
sometimes this resistance has been overcome as new races of the pathogen have emerged. When cultivars with single major gene
resistance have been introduced into areas with high inoculum concentrations, significant economic damage has been caused
by new races of L. maculans within 2–3 years. Quantitative or polygenic resistance has also been used successfully against stem canker and offers more
durable disease resistance if plant breeders and farmers deploy this resistance more effectively. Strategies to improve the
durability of resistance need to be developed and tested in practice. New information on the occurrence of virulence and avirulence
genes in populations of Leptosphaeria maculans and modelling of the durability of resistance provide opportunities for plant breeders, specialist technical organisations,
cooperatives, advisory services and farmers to collaborate and better exploit cultivar resistance. Changing economic and environmental
factors influence cropping practices and, if to be considered successful, management strategies must show clear financial
benefits. Technology transfer will need to address all aspects of managing stem canker and other diseases of oilseed rape
and using effective written, verbal and electronic methods of communication. 相似文献
12.
Y. J. Huang J. R. Hood M. R. Eckert J. F. Stonard H. J. Cools G. J. King S. Rossall M. Ashworth B. D. L. Fitt 《Plant pathology》2011,60(4):607-620
Controlled‐environment and field experiments were done to investigate effects of the fungicide Punch C (flusilazole plus carbendazim) on growth of Leptosphaeria maculans and L. biglobosa in oilseed rape. In controlled‐environment experiments, for plants inoculated with L. maculans, fungicide treatment decreased lesion size and amount of L. maculans DNA in leaves; for plants inoculated with L. biglobosa, fungicide did not affect lesion size or amount of pathogen DNA. When release of ascospores was monitored using a Burkard spore sampler, the timing and pattern of ascospore release differed between the four seasons. In 2006/2007, the majority of ascospores released were L. maculans, whilst in 2007/2008 the majority were L. biglobosa; in both seasons L. maculans ascospores were released before L. biglobosa ascospores. In field experiments in 2002/2003 and 2003/2004, fungicide treatment decreased severity of stem canker on cv. Apex, but gave no significant yield response. In 2006/2007 and 2007/2008, fungicide treatment decreased phoma leaf spot incidence in autumn and stem canker severity at harvest, and increased yield. Fungicide treatment decreased stem canker severity more on cv. Courage, with a good yield response, than on cv. Canberra. In 2002/2003 and 2003/2004, fungicide treatment decreased the frequency of spread of L. maculans into stem pith tissues and in 2006/2007 fungicide decreased the amount of L. maculans DNA in stem tissues (measured by quantitative PCR). These results are used to suggest how effects of fungicides on interactions between L. maculans and L. biglobosa might affect severity of phoma stem canker and yield response. 相似文献
13.
R. Delourme A. M. Chèvre H. Brun T. Rouxel M. H. Balesdent J. S. Dias P. Salisbury M. Renard S. R. Rimmer 《European journal of plant pathology / European Foundation for Plant Pathology》2006,114(1):41-52
The most common and effective way to control phoma stem canker (blackleg) caused by Leptosphaeria maculans in oilseed rape (Brassica napus) is through the breeding of resistant cultivars. Race specific major genes that mediate resistance from the seedling stage
have been identified in B. napus or have been introgressed from related species. Many race specific major genes have been described and some of them are probably
identical in B. napus (allotetraploid AACC) and the parental species B. rapa (diploid AA). More work is needed using a set of well-characterised isolates to determine the number of different major resistance genes
available. In some B. napus cultivars, there is resistance which is polygenic (mediated by Quantitative Trait Loci) and postulated to be race non-specific.
Many of these major genes and Quantitative Trait Loci for resistance to L. maculans have been located on B. napus genetic maps. Genes involved in race specific and polygenic resistance are generally distinct. 相似文献
14.
Rieko Hatta Akihisa Shinjo Sheila Ruswandi Keiji Kitani Mikihiro Yamamoto Kazuya Akimitsu Takashi Tsuge 《Journal of General Plant Pathology》2006,72(4):210-219
The strawberry pathotype of Alternaria alternata produces host-specific AF-toxin and causes Alternaria black spot of strawberry. Previously, we isolated cosmid clones pcAFT-1
and pcAFT-2 from strain NAF8 of the strawberry pathotype that contain AF-toxin biosynthetic genes, named AFT genes. In a molecular characterization here of pcAFT-1 and pcAFT-2, 11 AFT genes and five transposon-like sequences, named TLS-S1 to TLS-S5, were detected. The nucleotide sequences of TLS-S1 and TLS-S4
share high homology, and their putative products have similarity to transposases of the hAT family transposons. Thus, TLS-S1 and TLS-S4 were renamed TLS-S1-1 and TLS-S1-2, respectively. Amino acid sequences deduced
from TLS-S2, TLS-S3, and TLS-S5 have similarity to transposases of the Fot1/Pogo family transposons, but they are significantly different. All five sequences have incomplete open reading frames (ORFs) for
transposases owing to deletions, termination codons, and/or frameshifts, indicating that they are inactivated elements. Analysis
of genomic distribution of these sequences revealed that they are specifically distributed on a 1.05-Mb chromosome of NAF8,
which has been identified as a conditionally dispensable (CD) chromosome encoding AFT genes. The presence of three, four, and three copies of TLS-S1, TLS-S2, and TLS-S3, respectively, and a single copy of TLS-S5
on the CD chromosome were estimated by DNA gel blot analysis. The remaining copy of TLS-S1 and the three copies of TLS-S2
were isolated and identified to also encode incomplete ORFs. Thus, it appears that all copies of the transposon-like sequences
identified are inactivated elements (fossils) unique to the CD chromosome in the genome of the strawberry pathotype.
The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the accession numbers AB236733
(TLS-S1-1), AB236734 (TLS-S1-2), AB236735 (TLS-S1-3), AB236736 (TLS-S2-1), AB236737 (TLS-S2-2), AB236738 (TLS-S3), and AB236739
(TLS-S5) 相似文献
15.
Identifying seedling and adult plant resistance of Chinese Brassica napus germplasm to Leptosphaeria maculans 
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下载免费PDF全文 X. Zhang G. Peng P. Parks B. Hu Q. Li L. Jiang Y. Niu S. Huang W. G. D. Fernando 《Plant pathology》2017,66(5):752-762
Blackleg disease of canola/rapeseed (Brassica napus), caused by the devastating fungal pathogen Leptosphaeria maculans, can significantly influence B. napus production worldwide, except for China, where only the less aggressive L. biglobosa has been found associated with the disease. The aim of this study was to characterize both seedling resistance (major gene resistance, R gene resistance) and adult plant resistance (APR) from a collection of Chinese B. napus varieties/lines (accessions) to L. maculans. Evaluation of seedling resistance was carried out under a controlled environment, using 11 well‐characterized L. maculans isolates as differentials. The identification of APR was performed under multiple field environments in western Canada. R genes were detected in more than 40% of the accessions tested. Four specific R genes, Rlm1, Rlm2, Rlm3 and Rlm4 were identified, with Rlm3 and Rlm4 being the most common genes, while Rlm1 and Rlm2 were detected only occasionally. Results of field evaluation indicated significant variations among field locations as well as accessions; a large portion of the B. napus accessions, regardless of the resistance level observed at the seedling stage, showed high to moderate levels of APR under all environments tested. This study highlights that both R gene resistance and APR are present in Chinese B. napus germplasm and could be potential sources of resistance against blackleg caused by L. maculans if the pathogen ever becomes established in China. 相似文献
16.
J. N. Aubertot J. S. West L. Bousset-Vaslin M. U. Salam M. J. Barbetti A. J. Diggle 《European journal of plant pathology / European Foundation for Plant Pathology》2006,114(1):91-106
Specific resistance loci in plants are generally very efficient in controlling development of pathogen populations. However,
because of the strong selection pressure exerted, these resistances are often not durable. The probability of a resistance
breakdown in a pathosystem depends on the evolutionary potential of the pathogen which is affected by: (i) the type of resistance
(monogenic and/or polygenic), (ii) the type of reproduction of the pathogen (sexual and/or asexual), (iii) the capacity of
the pathogen for dispersal, (iv) the resistance deployment strategy (pyramiding of specific resistances, mixture of cultivars,
spatio-temporal alternation), (v) the size of the pathogen population, which is affected by control methods and environmental
conditions. We propose the concept of Integrated Avirulence Management (IAM) to enhance the durability of specific resistances.
IAM involves a strategy to limit the selection pressure exerted on pathogen populations and, at the same time, reduce the
size of pathogen populations by combining cultural, physical, biological or chemical methods of control. Several breakdowns
of resistance specific to Leptosphaeria maculans, the causal agent of phoma stem canker have occurred in Europe and in Australia. This review paper examines control methods
to limit the size of L. maculans populations and discusses how this limitation of population size can enhance the durability of specific resistances. It proposes
pathways for the development of a spatially explicit model to define IAM strategies. Simulation results are presented to demonstrate
the potential uses of such a model for the oilseed rape/L. maculans pathosystem. 相似文献
17.
Cytogenomic characterization of Colletotrichum kahawae,the causal agent of coffee berry disease,reveals diversity in minichromosome profiles and genome size expansion 下载免费PDF全文
下载免费PDF全文 A. S. Pires H. G. Azinheira A. Cabral S. Tavares D. Tavares M. Castro V. Várzea M. C. Silva R. Abranches J. Loureiro P. Talhinhas 《Plant pathology》2016,65(6):968-977
Colletotrichum kahawae is an emerging fungal pathogen, which has recently undergone a speciation process from a generalistic ‘C. gloeosporioides species complex' background by acquiring the unique capacity to infect green coffee berries, thus causing coffee berry disease. This is a severe and widespread disease in Africa and an imminent threat to Arabica coffee cultivation in Asia and America, if the pathogen enters those continents. Genetic diversity within C. kahawae is low but notorious differences in pathogen aggressiveness have been described. This work characterized two cytogenomic traits (genome size and minichromosome profiles) of a collection of C. kahawae isolates, representing the breadth of its genetic diversity and distinct aggressiveness classes, along with closely related taxa. The results obtained constitute the first flow cytometry‐based genome size estimation in the genus Colletotrichum and show a c. 8 Mb genome size expansion between C. kahawae (79·5 Mb on average) and its closest relatives (71·3 Mb), corroborating evidence indicating that C. kahawae (i.e. the coffee berry disease pathogens) should remain as a distinct species. Results have also shown the presence of two to five minichromosomes in C. kahawae, suggesting a positive relationship between the number of minichromosomes and the level of aggressiveness of the different isolates analysed, while no correlation could be established between aggressiveness and whole genome size. Overall, these results may be the basis for the identification of pathogenicity/aggressiveness‐related factors in such minichromosomes, and may provide clues to the characterization of specific markers for aggressiveness classes. 相似文献
18.
19.
The genome size of most rust species is unknown due, in part, to technical constraints, especially the difficulty in accessing spores to extract the nuclei for cytometry. Using the urediniospores of coffee rust, Hemileia vastatrix, an improved methodology involving flow cytometry was developed for accurate measurement of the nuclear genome size. The results revealed that the genome of this primitive rust fungus is unusually large – measuring 1C‐value = 0·75 pg (733·5 Mb) – significantly bigger than other species quantified thus far in the more advanced rust lineages. The evolutionary consequences and the potential ecological constraints of this large genome size are discussed in relation to the epidemiology of coffee rust. 相似文献
20.
Anna Stachowiak Julia Olechnowicz Malgorzata Jedryczka Thierry Rouxel Marie-Hélène Balesdent Ingrid Happstadius Peter Gladders Akinwunmi Latunde-Dada Neal Evans 《European journal of plant pathology / European Foundation for Plant Pathology》2006,114(1):67-75
This paper describes the first large-scale Europe-wide survey of avirulence alleles and races of Leptosphaeria maculans. Isolates were collected from the spring rape cultivar Drakkar, with no known genes for resistance against L. maculans, at six experimental sites across the main oilseed rape growing regions of Europe, including the UK, Germany, Sweden and
Poland. Additionally in Poland isolates were collected from cv. Darmor, which has resistance gene, Rlm9. In total, 603 isolates were collected during autumn in 2002 (287 isolates from Germany and the UK) and 2003 (316 isolates
from Poland and Sweden). The identity of alleles at eight avirulence loci was determined for these isolates. No isolates had
the virulence allele avrLm6 and three virulence alleles (avrLm2, avrLm3 and avrLm9) were present in all isolates. The isolates were polymorphic for AvrLm1, AvrLm4, AvrLm5 and AvrLm7 alleles, with virulence alleles at AvrLm1 and AvrLm4 loci and avirulence alleles at AvrLm7 and AvrLm5 loci predominant in
populations. Virulent avrLm7 isolates were found at only one site in Sweden. Approximately 90% of all isolates belonged to one of two races (combinations
of avirulence alleles), Av5-6-7 (77% of isolates) or Av6-7 (12%). Eight races were identified, with four races at frequencies
less than 1%. The study suggested that Rlm6 and Rlm7 are still effective sources of resistance against L. maculans in oilseed rape in Europe. The results are comparable to those of a similar survey done in France in autumn 2000 and 2001. 相似文献