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1.
Chromosomal location in triticale of leaf rust resistance genes introduced from Triticum monococcum 总被引:1,自引:0,他引:1
This study was undertaken to understand the inheritance of leaf rust resistance in line TM16 of Triticum monococcum ssp. monococcum var. macedonicum Papag. which is the source of resistance transferred into hexaploid triticale lines (Tcl/Tm). Thirty-two secondary tetraploid genotypes were analysed cytologicaly to identify substitutions of Am -genome chromosomes by their homoeologous A-genome chromosomes from a leaf rust susceptible hexaploid triticale accession. Plants with one (or more) substituted chromosomes were inoculated with leaf rust at two growth stages. The disease phenotypes of these lines indicated that a major resistance gene was located on the short arm of T. monococcum chromosome 2Am . An additional gene on chromosome 6Am had complementary effects in enhancing the effects of the gene on chromosome 2Am . 相似文献
2.
Summary
Triticum miguschovae, a genome addition synthetic, was used as a source for transfer of leaf rust (Puccinia recondita tritici) resistance to common wheat. This synthetic, developed from two wild species Triticum militinae and Aegilops squarrosa, proves a valuable donor of the genes for leaf rust resistance. Leaf rust resistance was transferred from T. miguschovae by both dominant and recessive genes. Stable lines phenotypically similar to their recurrent parents Kavkaz and Bezostaya 1 but differing from them in a high level of leaf rust resistance were obtained. The genes for resistance in 3 selected lines differed from each other and from the known effective genes Lr9, Lr19, and Lr24. The resistance of one of them (line 1229) is controlled by two complementary interacting genes located on chromosome 7B and 1D was revealed by monosomic analysis. 相似文献
3.
小麦条锈病、叶锈病和白粉病是我国小麦的重要真菌病害,培育兼抗型成株抗性品种是控制病害最为经济有效和持久安全的方法。本研究选用由成株抗性育种方法培育的21份冬小麦高代品系和96份春小麦高代品系,在多个环境下进行这3种病害的成株期抗性鉴定,并利用紧密连锁的分子标记检测了兼抗型基因Lr34/Yr18/Pm38、Lr46/Yr29/Pm39和Sr2/Yr30的分布。田间鉴定表明,21份冬小麦品系中有17份兼抗3种病害,占80.9%;96份春小麦品系中有85份兼抗3种病害,占88.5%。分子标记检测发现,21份冬小麦品系均含QPm.caas-4DL,其中7份还含QPm.caas-2BS,9份还含QPm.caas-2BL;96份春小麦品系中,18份含Lr34/Yr18/Pm38,37份含Lr46/Yr29/Pm39,29份含Sr2/Yr30。以上结果表明,分子标记与常规育种相结合,可有效培育兼抗型成株抗性品种,为我国小麦抗病育种提供了新思路。 相似文献
4.
The aim of this work was to evaluate the leaf rust resistance introduced into introgressive triticale lines with Triticum monococcum genes, and to study the expression of these genes at the hexaploid level. The introgressive lines were developed by incorporating diploid wheat (T. monococcum s.s.) genes into hexaploid triticale LT 522/6 using the synthetic allotetraploid T. monococcum/Secale cereale (AmAmRR) as a bridging form. A group of 44 those lines, parental stocks and check cultivars were inoculated at the seedling stage (in a greenhouse) and at the adult‐plant stage (in the field) with four pathotypes of Puccinia triticina. At the seedling stage the assessment of infection type showed that four lines had resistance to all pathotypes as high as in the T. monococcum donor. Adult plant examinations showed some introgressive lines with complete resistance and also lines with partial resistance, expressed in area under the disease progress curve (AUDPC) calculations as slow rusting. Some lines comprise low AUDPC with complete resistance at seedling stage. 相似文献
5.
Leaf rust and stripe rust resistance genes Lr54 and Yr37 transferred to wheat from Aegilops kotschyi 总被引:2,自引:0,他引:2
G. F. Marais B. McCallum J. E. Snyman Z. A. Pretorius A. S. Marais 《Plant Breeding》2005,124(6):538-541
The tendency of unpaired meiotic chromosomes to undergo centric misdivision was exploited to translocate leaf rust and stripe rust resistance genes from an Aegilops kotschyi addition chromosome to a group 2 chromosome of wheat. Monosomic and telosomic analyses showed that the translocation occurred to wheat chromosome arm 2DL. The introgressed region did not pair with the corresponding wheat 2DL telosome during meiosis suggesting that a whole arm may have been transferred. Female transmission of the resistance was about 55% whereas male transmission was strongly preferential (96%). The symbols Lr54 and Yr37 are proposed to designate the new resistance genes. 相似文献
6.
Langdon durum D-genome disomic substitution lines were used to study the chromosome locations of adult-plant leaf rust resistance genes identified from tetraploid wheat accessions. The accessions are 104 (Triticum turgidum subsp. dicoccum var. arras) and 127 (T. turgidum subsp. durum var. aestivum). The complete sets of the substitution lines were crossed as female parents with the accessions and F1 double monosomic individuals selected at metaphase I. Segregating F2 individuals were inoculated during the flag leaf stage with pathotype UVPrt2 of Puccinia triticina. The substitution analysis involving accession 104 showed that the gene for leaf rust resistance is located on chromosome 6B. The analysis with accession 127 indicated that chromosome 4A carries a gene for leaf rust resistance. The two novel genes are temporarily designated as Lrac104 and Lrac127, respectively from accessions 104 and 127. 相似文献
7.
A new gene, Yr24, for resistance to stripe rust was transferred from a durum accession to common wheat via an amphiploid (synthetic wheat) with Aegilops tauschii. Yr24 was located in chromosome 1B by monosomic analysis. Its genetic linkage of 4 cM with Yr15 indicated its localization to the short arm. 相似文献
8.
Summary Studies were conducted to determine the inheritance and allelic relationships of genes controlling resistance to the Russian wheat aphid (RWA), Diuraphis noxia (Mordvilko), in seven wheat germplasm lines previously identified as resistant to RWA. The seven resistant lines were crossed to a susceptible wheat cultivar Carson, and three resistant wheats, CORWA1, PI294994 and PI243781, lines carrying the resistance genes Dn4, Dn5 and Dn6, respectively. Seedlings of the parents, F1 and F2 were screened for RWA resistance in the greenhouse by artificial infestation. Seedling reactions were evaluated 21 to 28 days after the infestation using a 1 to 9 scale. All the F1 hybrids had equal or near equal levels of resistance to the resistant parent indicating dominant gene control. Only two distinctive classes were present and no intermediate types were observed in the F2 segregation suggesting major gene actions. The resistance in PI225262 was controlled by two dominant genes. Resistance in all other lines was controlled by a single dominant gene. KS92WGRC24 appeared to have the same resistance gene as PI243781 and STARS-9302W-sib had a common allele with PI294994. The other lines had genes different from the three known genes. 相似文献
9.
南农92R系统白粉病抗源多抗性鉴定及其抗条锈性遗传分析 总被引:13,自引:0,他引:13
对南农92R系统白粉病抗源进行了多抗性鉴定,并对其抗条锈性进行了遗传分析。结果表明:4份南农92R系统白粉病抗源,不仅对白粉病多个小种免疫,而且对中国当前优势条锈菌生理小种均表现免疫,其中的92R178和92R137亦对供试3个叶锈菌优势小种均表现高抗至免疫。抗条锈性遗传分析显示92R089, 92R137分别具有一对完全显性的抗条 相似文献
10.
28个小麦微核心种质抗叶锈性分析 总被引:3,自引:1,他引:2
选取在成株期表现高、中、低抗叶锈的28个小麦微核心种质,利用39个以Thatcher为背景的近等基因系(或单基因系)作为已知基因的鉴别寄主,接种8个小麦叶锈菌致病型进行苗期抗叶锈基因推导,结合成株期抗病鉴定,初步明确了这些品种(系)的抗性和可能携带的抗病基因。利用19个与Lr基因紧密连锁或共分离的分子标记,对28个微核心种质进行抗叶锈病基因的进一步鉴定,推测新克旱9号可能含有Lr17、Lr2b、Lr14a和Lr33;兴义4号可能含有Lr26、Lr36和Lr37;紫皮可能含有Lr2b和Lr34;大白皮含有Lr1;毕红穗含有Lr1、Lr10和Lr34;中优9507含有Lr10;小白麦、红粒当年老、老麦、蝉不吱、苏麦3号和车锏子含有Lr1和Lr34;红花早可能含有Lr1、Lr34、Lr14a和Lr2b;江西早、泡子麦、三月黄、有芒扫谷旦、阜阳红、成都光头和酱麦可能含有Lr34;敦化春麦和甘肃96可能含有Lr28;欧柔可能含有Lr34、Lr16、Lr11、Lr3bg和Lr33;此外,新克旱9号、兴义4号、红花早、红粒当年老、欧柔、有芒扫谷旦、成都光头、甘肃96、小红皮、定兴寨、中优9507和红冬麦中可能含有未知抗病基因;在这28份种质中,不含Lr9、Lr19、Lr20、Lr21、Lr24、Lr29、Lr35、Lr38和Lr47基因。研究结果表明,测试的微核心种质中含有比较丰富的抗叶锈病基因,可为育种提供丰富的抗源。 相似文献
11.
R. N. Sawhney 《Euphytica》1992,61(1):9-12
Summary The leaf rust responses of wheat lines carrying the complementary genes Lr27 and Lr31 and the same genes in a Chinese Spring background which contains Lr34, indicate that Lr34 interacts with the complementary genes to give enhanced levels of field resistance to leaf rust. Lr34, particularly in combination with other genes, is considered to be an important gene for imparting a high degree of durable resistance to leaf rust. Its similarity to Sr2, an adult plant gene for resistance to stem rust and its association with adult plant resistances to stem and stripe rusts are discussed. 相似文献
12.
Genetic studies were undertaken to determine the number and identities of leaf rust resistance genes in common wheat lines
Agra Local and IWP94. The infection type arrays of the two lines with eight pathotypes (pt.) of P. triticina were different from those of lines possessing known leaf rust resistance (Lr) genes. Agra Local possessed two recessive resistance genes, one conditioning resistance to pathotype 4R9-7, and the other,
a temperature-sensitive factor, gave resistance to pt. 121R127 at high temperature (27°C). IWP94 was previously demonstrated
to carry Lr23. From the present study IWP94 was determined to have at least four leaf rust resistance genes. The first of these was the
same recessive gene conferring resistance to pathotype 4R9-7 which was found in Agra Local. A second partially dominant gene
conferred resistance to pathotype 121R127 at high temperature and two additional recessive genes governed resistance to pathotype
93R15. When present together, these two recessive genes complemented each other and provided resistance to pathotype 69R13
as well. One of the two recessive genes conferring resistance to pathotypes 93R15 and 69R13 was Lr23. 相似文献
13.
56个小麦品种(系)的苗期和成株抗叶锈鉴定 总被引:1,自引:1,他引:0
为了研究中国小麦品种中所携带的抗叶锈基因,对56个小麦品种(系)进行苗期接种推导其中所含有的抗叶锈基因,同时连续2年对供试材料进行田间成株抗叶锈鉴定。通过苗期基因推导结合分子标记辅助检测,结果表明,在36个小麦品种中共鉴定出Lr26、Lr34、Lr1、Lr2a、Lr11、Lr20、Lr30、Lr33和Lr44等9个抗叶锈基因,其中28个品种含有Lr26,Lr1和Lr20分别存在于6个品种中,4个品种含有Lr30,Lr11和Lr44各存在于2个品种中,Lr2a、Lr33和Lr34各自在1个品种中出现。经过2年的田间抗叶锈鉴定共筛选出46个慢锈品种。筛选到的这些苗期和成株抗病品种均可用于小麦持久抗叶锈品种的培育。 相似文献
14.
A genetic analysis of the landrace‐derived wheat accessions Americano 25e, Americano 26n, and Americano 44d, from Uruguay was conducted to identify the leaf rust resistance genes present in these early wheat cultivars. The three cultivars were crossed with the leaf rust susceptible cultivar ‘Thatcher’ and approximately 80 backcross (BC1) F2 families were derived for each cross. The BC1F2 families and selected BC1F4 lines were tested for seedling and adult plant leaf rust resistance with selected isolates of leaf rust, Puccinia triticina. The segregation and infection type data indicated that Americano 25e had seedling resistance genes Lr3, Lr16, an additional unidentified seedling gene, and one adult plant resistance gene that was neither Lr12 nor Lr13, and did not phenotypically resemble Lr34. Americano 26n was postulated to have genes Lr11, Lr12, Lr13, and Lr14a. Americano 44d appeared to have two possibly unique adult plant leaf rust resistance genes. 相似文献
15.
The wild tetraploid wheat species Tr$$ (Zhuk) Zhuk Var. araratieum is a source of pest resistance genes for T$$ aesti$$ L. Our objectives were to describe the breeding behaviour of T.arartuititm when backcrossed to common wheat and transfer resistance to leaf rust (caused by Pu$$) and powdery mildew (caused by Blumeria $$wheat. Crosses were made between five wheat genotypes and $$ accessions. Fertifity and chromosome numbers of BC$$; plants were determined. Resistance to leaf rust was transferred toBC2 -derived families from 10 different T’ararati$$an accessions. Leaf rust resistance genes in nine T. araratieum accessions can be assigned to at least four loci. Leaf rust resistance transferred from three accessions was inherited in the hexaploid derivatives as a single. $$ gene in each case. Resistance to powdery mildew was also detected in the T. araratie$$ backcross derivatives. Fertile hexaploid derivatives expressing T’araratieum-derived resistance genes can be recovered after two backcrosses to wheat cultivars. 相似文献
16.
Genetic Analysis of Resistance to Soil-Borne Wheat Mosaic Virus Derived from Aegilops tauschii. Euphytica. Soil-Borne Wheat Mosaic Virus (SBWMV), vectored by the soil inhabiting organism Polymyxa graminis, causes damage to wheat (Triticum aestivum) yields in most of the wheat growing regions of the world. In localized fields, the entire crop may be lost to the virus.
Although many winter wheat cultivars contain resistance to SBWMV, the inheritance of resistance is poorly understood. A linkage
analysis of a segregating recombinant inbred line population from the cross KS96WGRC40 × Wichita identified a gene of major
effect conferring resistance to SBWMV in the germplasm KS96WGRC40. The SBWMV resistance gene within KS96WGRC40 was derived
from accession TA2397 of Aegilops taushcii and is located on the long arm of chromosome 5D, flanked by microsatellite markers Xcfd10 and Xbarc144. The relationship of this locus with a previously identified QTL for SBWMV resistance and the Sbm1 gene conferring resistance to soil-borne cereal mosaic virus is not known, but suggests that a gene on 5DL conferring resistance to both viruses may be present in T. aestivum, as well as the D-genome donor Ae. tauschii. 相似文献
17.
A. N. Mishra K. Kaushal G. S. Shirsekar S. R. Yadav R. N. Brahma H. N. Pandey 《Plant Breeding》2005,124(5):514-516
The bread wheat cultivar ‘Thatcher’ is documented to carry the gene Lr22b for adult‐plant resistance to leaf rust. Seedling‐resistance to leaf rust caused by Puccinia triticina in the bread wheat cultivar ‘Thatcher’, the background parent of the near‐isogenic lines for leaf rust resistance genes in wheat, is rare and no published information could be found on its genetic basis. The F2 and F3 analysis of the cross ‘Agra Local’ (susceptible) × ‘Thatcher’ showed that an apparently incompletely dominant gene conditioned seedling‐resistance in ‘Thatcher’ to the three ‘Thatcher’‐avirulent Indian leaf rust pathotypes – 0R8, 0R8‐1 and 0R9. Test of allelism revealed that this gene (temporarily designated LrKr1) was derived from ‘Kanred’, one of the parents of ‘Thatcher’. Absence of any susceptible F2 segregants in a ‘Thatcher’ × ‘Marquis’ cross confirmed that an additional gene (temporarily designated LrMq1) derived from ‘Marquis’, another parent of ‘Thatcher’, was effective against pathotype 0R9 alone. These two genes as well as a second gene in ‘Kanred’ (temporarily designated LrKr2), which was effective against all the three pathotypes, but has not been inherited by ‘Thatcher’, seem to be novel, undocumented leaf rust resistance genes. 相似文献
18.
I. Leonova A. Borner E. Budashkina N. Kalinina O. Unger M. Röuder E. Salina 《Plant Breeding》2004,123(1):93-95
The tetraploid wheat Triticum timopheevii Zhuk (AtAtGG) is known as a source of genes determining resistance to many diseases. An introgressive line 842, with durable resistance to leaf rust was established by crossing T. aestivum cv. ‘Saratovskaya29’ with T. timopheevii ssp. viticulosum and used for mapping leaf rust resistance genes. Molecular analysis of the line 842 with polymorphic microsatellite markers detected introgressions of T. timopheevii into the homoeologous group 2 chromosomes of common wheat. Transloca‐tion breakpoints of introgressed fragments were localized between the markers Xgwm95 and Xgwm817 on chromosome 2A, as well as Xgwm1128 and Xgwm1067 on chromosome 2B. Linkage analysis demonstrated the association of disease resistance at the seedling stage with chromosome 2A. The gene was found to be linked with marker Xgwm817 at a genetic distance of 1.5 cM. The alien leaf rust resistance gene was temporarily designated as lrTt1. 相似文献
19.
Stripe rust (caused by Puccinia striiformis Westend.) is a wheat disease of worldwide importance. Seedlings of 75 accessions
of Triticum boeoticum, 12 of T. monococcum, 16 of T. urartu, 230 of durum wheat (T. turgidum L. var. durum), and 128 amphiploids
(genome AAAABB) involving the crosses of the three diploid species (AA) with T. turgidum (AABB) were evaluated in the greenhouse
for their reaction to P. striiformis race 14E14. Durum wheats and the amphiploids were also evaluated at two field locations
in Mexico with the same race for their adult plant response. Resistant seedling reactions (infection types: 0-3 on a 0-9 scale)
were seen for 10 (13%) accessions of T. boeticum, 19 (8%) accessions of T. turgidum and 32 (25%) amphiploids. The remaining
accessions were either moderately resistant (ITs 4-6) or susceptible (ITs 7-9). The three amphiploids derived from the crosses
of seedling resistant T. boeoticum and T. turgidum, were resistant as seedlings. Among the 51 amphiploids involving one resistant
parent, 29 were resistant and the remaining 22 displayed intermediate to susceptible reactions. Suppressors for resistance
were common in the A and AB genomes and suppression was resistance gene specific. Forty-five (20%) durums showed adequate
field resistance (relative AUDPC <10% of the susceptible check ‘Morocco’). These included the 19 seedling resistant durums.
Presence of genes involved in adult plant resistance was evident, because 26 of the remaining adult plant resistant durums
had displayed intermediate-susceptible seedling reactions. Though the seedling reactions of the amphiploids varied from low
to high, all involving the adult plant resistant durums possessed adequate field resistance. The resistant, newly produced,
AAAABB amphiploids are useful genetic resources for stripe rust resistance which could be transferred to the cultivated T.
turgidum.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
20.
CIMMYT小麦材料的苗期和成株抗叶锈病鉴定 总被引:4,自引:0,他引:4
选择来自CIMMYT的103个小麦品种(系)及35个含有已知抗叶锈基因的对照品种,苗期接种17个中国小麦叶锈菌小种以鉴定这些品种中可能含有的抗叶锈病基因, 并于2008-2009和2009-2010连续2年对这些材料进行成株抗叶锈病鉴定。通过苗期鉴定结合系谱分析和分子检测,在46个品种中共鉴定出Lr26、Lr34、Lr42和Lr47等4个抗叶锈病基因,其中9个品种携带Lr26基因,28个品种含有成株抗叶锈病基因Lr34基因,Lr42可能存在于11个品种中,还有2个材料可能含有Lr47,其他57个品种(系)对供试的15个小种多数表现为高抗,没有鉴定出已知的抗叶锈病基因。通过两年的田间抗叶锈病鉴定共筛选出46个表现慢锈的品种。苗期和田间结果表明,CIMMYT材料中含有丰富的对我国叶锈菌小种有效的苗期和成株抗叶锈基因,这些材料均可应用于我国小麦的抗叶锈病育种。 相似文献