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1.
ABSTRACT The Brassica napus-B. juncea recombinant line (MX), resistant to Leptosphaeria maculans, was produced by interspecific crosses and bears one gene (Jlm1) from the B. juncea B genome. We investigated whether this new resistance was race specific by characterizing protection against a large sample of L. maculans isolates. The pathogenicity of 119 isolates of L. maculans comprising 105 A-group isolates and 14 B-group isolates was studied at the cotyledon stage under controlled conditions using the MX line, the susceptible B. napus cultivar Westar, and the resistant B. juncea cultivar Picra. All but one of the isolates were pathogenic on 'Westar'. Only 3 of the 105 A-group isolates caused very mild symptoms on 'Picra'. Two of these strains were isolated from the MX line and the other from Sinapis arvensis. The other 102 strains caused hypersensitive-type responses. Most B-group isolates were pathogenic on 'Picra'. There were differences in pathogenicity among A-group isolates tested on the MX line, whereas all B-group isolates were pathogenic on this line. A-group isolates obtained from the MX line were more frequently pathogenic on the MX line than those obtained from B. napus cultivars. One isolate from S. arvensis infected the MX line. These results suggest that the resistance of the MX line is unlikely to be durable. Thus, the new resistance gene Jlm1 should probably be used in association with other sources of resistance, in plant breeding schemes, to prevent the breakdown of this resistance. 相似文献
2.
ABSTRACT Wheat (Triticum aestivum) cvs. Libellula (LB), San Pastore (SP), and Xian Nong 4 (XN4) possess durable resistance to stripe rust, caused by Puccinia striiformis f. sp. tritici, and cv. Ming Xian 169 (MX169) is highly susceptible to the rust. Inheritance of stripe rust resistance was studied by crossing the four cultivars and evaluating the resistance of parental, F(1), F(2), backcross, and F(3) plants in the fields. Transgressive segregation for resistance was observed in the resistant by resistant crosses of LB x XN4 and XN4 x SP, but not in cross LB x SP. These results indicate that (i) the resistance genes in XN4 are different from those in LB and SP, and (ii) LB and SP share common resistance genes. The number of genes segregating for the resistance was estimated by quantitative methods from the data of F(2), backcross, and F(3) populations. LB and XN4 appear to have two to three resistance genes, and SP appears to have two to four resistance genes when crossed with MX169. The resistance gene number in resistant by resistant cross LB x XN4 was four to five, approximately equal to the sum of the genes in LB and XN4. Similarly, the resistance gene number in cross XN4 x SP was approximately equal to the sum of the genes in XN4 and SP. Broad-sense heritability was high in all crosses except LB x SP. Compared with the three MX169-involved crosses, narrow-sense heritability was higher in LB x MX169 and SP x MX169 crosses than in the XN4 x MX169 cross. The LB x XN4 and XN4 x SP crosses showed moderate narrow-sense heritability. 相似文献
3.
R. V. da Costa L. Zambolim L. V. Cota D. D. da Silva J. A. S. Rodrigues F. D. Tardin C. R. Casela 《Plant pathology》2011,60(6):1162-1168
A study was carried out to investigate the inheritance of resistance to anthracnose, caused by Colletotrichum sublineolum, in sorghum. Crosses between resistant and susceptible parents and backcrosses between F1 plants and the susceptible parents were carried out under field conditions. The F1 generations and the segregant populations were evaluated under artificial inoculation conditions in the greenhouse. In the F1 generation of all crosses with the respective isolates, all of the plants presented a resistance reaction except for the F1 plants resulting from the BR009 × SC283 cross. In the F2 generation, the frequencies of resistant and susceptible plants conformed to the hypothesis that one gene with two alleles controls host resistance, except in one cross. Out of the eight backcrosses, six presented segregation that corresponded to the hypothesis formulated. For most crosses, resistance was dominant, and the proportions of resistant and susceptible plants in the segregant populations conformed to the frequencies expected under the hypothesis of gene‐for‐gene resistance and dominant gene action. 相似文献
4.
棉花抗黄萎病品种选育方法探讨 总被引:11,自引:0,他引:11
在棉花抗病育种中,通过病圃或重病地选择抗病单株是常规的选育方法,但其在抗黄萎病育种中的效果并不理想。如何提高抗黄萎病育种效率,促进育种进程是目前急需解决的问题之一。为此,19982002年我们在北京人工病圃,对不同抗病杂交组合和选育方法的选育效果进行了研究。结果表明,在双亲本均为抗(耐)品种的杂交后代群体中,以9月中旬是抗病还是感病并没有多少关联,对黄萎病抗性的选育应选群体抗病性强的株系或组合,以其丰产性为主要选育目标;只有抗与抗(或高耐)的组合中才能选出黄萎病抗性更高的株系;在抗(耐)品种中,后期无论是抗或感的单株其后代的抗病性差异不明显 相似文献
5.
ABSTRACT Leptosphaeria maculans, the causal agent of stem canker of oilseed rape (Brassica napus), develops gene-for-gene interactions with oilseed rape, and four L. maculans avirulence (AVR) genes (AvrLm1, AvrLm2, AvrLm4, and alm1) were previously genetically characterized. Based on the analysis of progeny of numerous in vitro crosses between L. maculans isolates showing either already characterized or new differential interactions, this work aims to provide an overview of the AVR genes that may specify incompatibility toward B. napus and the related species B. juncea and B. rapa. Two novel differential interactions were thus identified between L. maculans and B. napus genotypes, one of them corresponding to a complete resistance to European races of L. maculans. In both cases, a single gene control of avirulence was established (genes AvrLm3 and AvrLm7). Similarly, a single gene control of avirulence toward a B. rapa genotype, also resistant to European L. maculans isolates, was demonstrated (gene AvrLm8). Finally, a digenic control of avirulence toward B. juncea was established (genes AvrLm5 and AvrLm6). Linkage analyses demonstrated that at least four unlinked L. maculans genomic regions, including at least one AVR gene cluster (AvrLm1-AvrLm2-AvrLm6), are involved in host specificity. The AvrLm3-AvrLm4-AvrLm7 region may correspond either to a second AVR gene cluster or to a multiallelic AVR gene. 相似文献
6.
ABSTRACT The inheritance of resistance to Aspergillus ear rot and aflatoxin production in corn (Zea mays L.) caused by Aspergillus flavus was studied in progeny derived from crosses between the resistant corn inbred cv. Tex6 and susceptible inbred cvs. B73 and Mo17. From 1994 to 1996, plant generations included were the P(1) (susceptible B73 or Mo17), P(2) (resistant Tex6), F(1), F(2), F(3), BCP(1), BCP(1)-selfed, and BCP(2). The BCP(2)-selfed generation was added in 1995 and 1996 for the B73 x Tex6 cross. Primary ears were pinboard inoculated and evaluated for Aspergillus ear rot severity. F(1) means deviated from the midparent value toward resistance for aflatoxin production and toward susceptibility for ear rot in both crosses. Analyses of generation means indicate that additive gene action was most important in the resistance to both ear rot and aflatoxin production in the B73 x Tex6 cross. Mo17 was somewhat resistant to both traits, so resistance from Tex6 was not well defined in this cross. Broad-sense heritabilities for ear rot and aflatoxin production were 58 and 63% for Mo17 x Tex6, and 66 and 65% for B73 x Tex6. Narrow-sense heritabilities for ear rot and aflatoxin production were 39 and 45% for B73 x Tex6. It is estimated that one cycle of selection for resistance within B73 x Tex6 F(3) families would reduce the percentage of ear rot severity by 8.5% and aflatoxin concentration by 19 ng/g. 相似文献
7.
ABSTRACT Crown rust, caused by Puccinia coronata var. hordei, is a new disease threat to barley in the Great Plains region of the United States. Deployment of resistant cultivars is the only economically viable option for the control of this disease. Thus, the objective of this study was to investigate the sources and genetics of crown rust resistance in barley. A geographically diverse sample of barley germ plasm collected around the world (526 accessions total) was evaluated at the seedling stage to P. coronata var. hordei, and only 10 accessions (1.9% of the total) were found resistant. These 10 accessions were also resistant at the adult plant stage in a greenhouse test. Three F(2) populations (Bowman x Hor2596, MR x Hor2596, and MD x Hor2596) were developed to study the inheritance of crown rust resistance in the resistant line Hor2596 (CIho 1243). A close fit to a 3:1 ratio of resistant/susceptible plants was observed in all three populations and is consistent with the segregation of a single resistance gene. F(1) plants from the Bowman x Hor2596 population exhibited slightly higher infection types than the resistant parent, indicating incomplete dominance. The locus symbol Rpc1 and allele symbol Rpc1.a were recommended for the crown rust resistance gene in Hor2596. An attempt was made to associate the Rpc1 locus with one of the seven barley chromosomes by analyzing linkage data with previously mapped morphological markers in crosses with multiple recessive (MR) and multiple dominant (MD) morphological marker stocks. However, no close linkages were detected between Rpc1 and the 20 morphological markers present in the marker stocks. The resistant accessions identified in this study should be useful to breeders for developing barley germ plasm with crown rust resistance. 相似文献
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ABSTRACT Three populations derived from crosses of selected resistant inbreds (061, B37HtN, and DS:74:1071) with susceptible inbred FR1141 and a population derived from a cross of B37 x B37HtN were evaluated for gray leaf spot severity in 1992 and 1993 at Urbana, IL, and Andrews, NC. Populations included the susceptible parent (P(1)), the resistant parent (P(2)), F(1) and F(2) generations, backcrosses BCP(1) and BCP(2), and, when space and seed were available, one or more of the F(3), BCP(1)S(1), and BCP(2)S(1) generations. Plants at Urbana were inoculated, and naturally occurring disease was relied upon at Andrews. Individual plants were rated by visually estimating the percent leaf area blighted (necrotic). Generation mean analysis of data combined over years or locations indicated that a simple additive-dominance model was able to explain the inheritance of resistance for all populations. Dominance effects were detected in all population evaluated. For the FR1141 x 061 and FR1141 x B37HtN populations, dominance was significant at early ratings, but not at late ratings. Results from generation mean analysis for individual years, locations, and rating were variable. 相似文献
9.
采用Griffing双列杂交第四类遗传试验设计,运用朱军发展的加性-显性遗传模型,直接估算了甘蓝型油菜抗核盘菌及其毒素草酸的遗传方差、遗传力和基因效应.抗病性鉴定采用温室病圃和草酸浸根鉴定法,它们分别鉴定了对核盘菌和草酸的抗性.结果表明,油菜对核盘菌及草酸的抗性加性方差和显性方差均极显著(P<0.01),抗病性主要由加性和显性基因控制,且对核盘菌抗性的加性方差大于显性方差,而对草酸抗性则是显性方差大于加性方差.油菜对核盘菌和草酸的广义遗传力分别为0.750和0.576,狭义遗传力分别为0.403和0.236.高遗传力表明可通过适当的抗病性鉴定方法有效地培育抗病品种(系).基因效应评价结果表明,抗、感亲本的基因效应是不同的,其中抗病亲本783-3具有较理想的加性效应值,同时在多数组合中有较低的显性效应值,是抗病育种的优良亲本,而感病亲本相反.抗×感病的后代既可能为抗病,也可能为感病. 相似文献
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ABSTRACT A gene-for-gene interaction was previously suggested by mapping of a single major locus (LEM 1) controlling cotyledon resistance to Leptosphaeria maculans isolate PHW1245 in Brassica napus cv. Major. In this study, we obtained further evidence of a gene-for-gene interaction by studying the inheritance of the corresponding avirulence gene in L. maculans isolate PHW1245. The analysis of segregating F(1) progenies and 14 test crosses suggested that a single major gene is involved in the interaction. This putative avirulence gene was designated alm1 after the resistance locus identified in B. napus. Amplified fragment length polymorphism (AFLP) markers were used to generate a rudimentary genetic linkage map of the L. maculans genome and to locate markers linked to the putative avirulence locus. Two flanking AFLP markers, AC/TCC-1 and AC/CAG-5, were linked to alm1 at 3.1 and 8.1 cM, respectively. Identification of markers linked to the avirulence gene indicated that the differential interaction is controlled by a single gene difference between parental isolates and provides further support for the gene-for-gene relationship in the Leptosphaeria-Brassica system. 相似文献
12.
水稻白叶枯病抗性杂种优势 总被引:2,自引:0,他引:2
本试验采用双列式杂交方法,观察了以IR26、IR36等为代表的抗性品种的杂交优势。结果表明:杂交组合F1代在分蘖末期抗性无优势,穗期抗性优势明显;F2代两期鉴定正负向均有优势;F1和F2代均表现出正负向完全显性,部份显性,少数组合无显性。其中大都属于部份显性。优势指数分析也证明,对抗性亲本,优势指数d ≥ 1;对感病亲本,优势指数d<1。抗感品种杂交,其子代的抗性一般界于双亲值之间。这种优势可依亲本的抗性进行预测。 相似文献
13.
小麦纹枯病抗性及抗性遗传的初步研究 总被引:12,自引:0,他引:12
从一个多亲本的复式杂交后代中,选育了4个高抗纹枯病的小麦新品系,编号为MN-3、7、18和19。抗病性鉴定证明,在对照品种绵阳19病株率100%,发病等级4~5级的情况下,这4个新品系的病株率和发病等级分别在3.65%~6.98%和0~1之间。这4个品系与高感纹枯病的小麦品种绵阳19杂交,在F2代群体中植株符合抗:感=3:1的分离比率,在隐性亲本的测交后代中符合1:1的分离比率;在这4个品系之间的杂交后代群体中未观察到抗性的分离。试验结果指出,4个品系均含有同一个抗小麦纹枯病的单显性抗病基因,该基因被命名为Ses 1。本研究指出了小麦抗纹枯病育种的可能性,并为进一步研究小麦宿主和纹枯病菌原的相互关系及其遗传学提供了材料。 相似文献
14.
小麦条锈菌国际鉴别寄主Lee对中国条锈菌系CY23的抗性遗传分析 总被引:6,自引:0,他引:6
采用常规杂交方法,以国际小麦条锈菌鉴别寄主Lee与感病品种铭贤169杂交、自交、测交,获正、反交的F1、F2和BC1代。根据条锈菌小种的毒性谱,选用CY23单孢菌系,对其双亲及其杂交后代进行苗期抗性鉴定和统计分析,明确抗性基因数目、显隐性、互作方式和抗性特点。结果表明,在正交情况下,Lee对CY23菌系的抗性由1对显性基因和1对隐性基因互补控制,反交情况下也由1对显性基因和1对隐性基因互补控制,正反交分析结果一致,说明Lee对CY23的抗性属核遗传,由1对显性基因和1对隐性基因互补控制。通过对CY23毒性分析和对Yr7、Yr22和Yr23遗传特点研究,表明Lee对CY23抗性的1对显性基因和1对隐性基因分别为Yr7和Yr23,两者互补控制对CY23的抗性。在抗性鉴定中可用CY23区别Yr22与Yr23,并作为标准菌系用于基因推导分析。 相似文献
15.
Agus Purwantara Phillip A. Salisbury Wayne A. Burton Barbara J. Howlett 《European journal of plant pathology / European Foundation for Plant Pathology》1998,104(9):895-902
Brassica juncea (Indian mustard) lines from diverse geographical locations around the world and from Australian breeding programs were screened for resistance to the blackleg fungus, Leptosphaeria maculans, in both glasshouse and field trials. The five Australian L. maculans isolates used in glasshouse trials could be classified into two groups; those that attacked all B. juncea lines, and those that attacked none. All these isolates caused lesions on cotyledons of B. napus cultivars including Westar, Glacier and Quinta, suggesting that they are in Pathogenicity Group 4 as described by Koch et al. (1991). The two isolates that attacked B. juncea also attacked B. napus lines to a similar extent, but did not attack the two B. carinata lines tested. Brassica lines were sown in a blackleg disease nursery at Lake Bolac, Victoria, Australia, and five indicators of blackleg disease were measured (survival rate, disease rating, disease incidence, external and internal lesion length). All 92 B. juncea lines developed blackleg symptoms. Although they displayed a high disease incidence in the field, almost all of the B. juncea lines were more blackleg-resistant than a B. napus cultivar, Dunkeld, which is amongst the most resistant cultivars in commercial production in Australia. Four B. carinata lines were more resistant than any of the B. juncea lines, suggesting that this species may be a useful source of blackleg resistance in B. napus breeding programs. 相似文献
16.
Bonos SA 《Phytopathology》2006,96(8):808-812
ABSTRACT The dollar spot disease incited by Sclerotinia homoeocarpa is an important disease of creeping bentgrass (Agrostis stolonifera). Genetic resistance is an important control strategy and could reduce fungicide use. Despite recent research, the genetic mechanism of dollar spot resistance in turfgrasses is still not fully understood. The objectives of this study were to (i) determine narrow-sense heritability and predicted gain from selection for dollar spot resistance in creeping bentgrass and (ii) evaluate inheritance characteristics of dollar spot disease resistance. Inheritance characteristics such as the detection of major genes, heterosis, maternal effects, and combining ability were determined by evaluating the disease severity of progeny from crosses between resistant and susceptible bent-grass clones. Parental clones and progenies from crosses were established in a field trial in a randomized complete block design and inoculated with one isolate of S. homoeocarpa applied at a rate of 0.25 g m(-2) of prepared inoculum. Differences in progeny means between crosses were observed over both years. Progeny from resistant x resistant crosses had significantly less disease severity than resistant x susceptible and susceptible x susceptible crosses. High narrow-sense heritability estimates (0.79 [2002], 0.79 [2003]) and large mean squares for general combining ability support the idea that additive gene action plays a significant role in disease resistance and support previous research that dollar spot resistance is most likely quantitatively inherited. 相似文献
17.
ABSTRACT To increase the longevity of new resistance genes by avoiding a rapid change in pathogen populations, we established a new field method to determine, before the release of a resistant cultivar, whether and how rapidly the pathogen population is capable of responding to the selective pressure we impose. This method was applied to the Leptosphaeria maculans-Brassica napus pathosystem. The potential durability of two new major resistance genes introgressed into B. napus from the Brassica B genome was tested separately for each gene under field conditions for 4 years. Successive inoculations with residues of the resistant lines mixed with susceptible contaminated plant material recovered at harvest the previous year were performed in autumn. The Jlm1 resistance gene originating from B. juncea conferred complete resistance on the B. napus-B. juncea recombinant lines MX and MXS to inoculation of the cotyledons with a large diversity of L. maculans isolates. It also gave a high level of stem canker resistance in the field against natural populations of the pathogen. A similar level of resistance was obtained in the B. napus-B. nigra addition line LA4+, containing B. nigra chromosome 4 in a B. napus background. In the second year of the field experiment (i.e., the first in which residues from the resistant lines were included in the inoculation material), both MX and LA4+ maintained a high level of resistance. In the third and fourth years of the field experiment, the resistance of MX and MXS exposed to inoculum produced from their own residues broke down, but against fungal populations from susceptible B. napus or resistant B. nigra material remained effective. In contrast, LA4+ remained highly resistant to all sources of inoculum for the 4-year experiment. 相似文献
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Genetic tests were carried out in the greenhouse to determine whether resistance to Pseudomonas syringae pv. tomato in the tomato cultivar Ontario 7710 and in the wild accession PI 126430 (Lycopersicon pimpinellifolium) was controlled by different genes. Ontario 7710 (genotype of resistance Pto/Pto), PI 126430, their F! and F2 progenies and F( x susceptible progenies were tested for resistance to the bacterial speck pathogen. No lesions appeared on inoculated leaves in plants of Ontario 7710, PI 126430 and the Fj hybrid. F2 progenies segregated for resistance (symptomless) and susceptibility (50-80 lesions per plant) at a ratio of 15:1. Plants from the cross Fj x susceptible segregated at a ratio of 3 resistant: 1 susceptible. These data indicate that the gene for resistance in PI 126430 is different from that found in Ontario 7710. The gene symbol Pto-2 is proposed for the resistance factor in PI 126430. 相似文献
20.
Differences in the responses of melon accessions to fusarium root and stem rot and their colonization by Fusarium oxysporum f. sp. radicis‐cucumerinum 
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下载免费PDF全文 R. Cohen G. Orgil Y. Burger U. Saar M. Elkabetz Y. Tadmor M. Edelstein E. Belausov M. Maymon S. Freeman O. Yarden 《Plant pathology》2015,64(3):655-663
Fusarium root and stem rot caused by the fungus Fusarium oxysporum f. sp. radicis‐cucumerinum is a major disease in greenhouse cucumbers. Over the past decade, the disease has been documented in melon greenhouses in Greece, and recently it has been sporadically recorded in greenhouse melons in Israel. Variations in disease response were found among 41 melon accessions artificially inoculated with the pathogen: 10 accessions were highly susceptible (90–100% mortality), 23 exhibited an intermediate response (20–86%) and eight were resistant (0–4%). Two melon accessions – HEM (highly resistant) and TAD (partially resistant) – were crossed with the susceptible accession DUL. The responses of the three accessions and F1 crosses between the resistant and susceptible parents were evaluated. HEM contributed higher resistance to the F1 hybrid than TAD. Roots of susceptible and resistant accessions were 100 and 79% colonized, respectively, following artificial inoculation. However, only susceptible plants showed colonization of the upper plant tissues. Microscopic evaluation of cross sections taken from the crown region of the susceptible DUL revealed profuse fungal growth in the intercellular spaces of the parenchyma and in xylem vessels. In the resistant cultivar HEM, very little fungal growth was detected in the intercellular spaces of the parenchyma, and none in the xylem or any other vascular tissue. Finding resistant accessions may create an opportunity to study the genetics of resistance inheritance and to develop molecular markers that will facilitate breeding resistant melon cultivars. 相似文献