SSR marker tightly linked to the Ti locus in Soybean [Glycine max (L.) Merr.]     

Myung Sik Kim  Min Jung Park  Woo Hyeun Jeong  Ki Chul Nam  Jong Il Chung 《Euphytica》2006,152(3):361-366

Soybean is a major source of protein meal in the world. Soybean kunitz trypsin inhibitor (SKTI) protein is a responsible for the inferior nutritional quality of unheated or incompletely heated soybean meal. The primary objective of this research was to identify DNA markers linked to the Ti locus controlling presence and absence of kunitz trypsin inhibitor protein. Two mapping populations were developed. Population 1 was derived from a cross between cultivar Jinpumkong2 (TiTi) and C242 (titi). Population 2 was made from a mating between cultivar Clark (TiTi) and C242. The F₁ plants were grown in the greenhouse to produce F₂ seeds. Each F₂ seed from F₁ plants was analyzed electrophoretically to determine the presence of the SKTI protein band. One-thousand RAPD primers, 342 AFLP primer sets, and 35 SSR primers were used to map Ti locus in population 1 and 2. The presence of SKTI protein was dominant to the lack of a SKTI protein and kunitz trypsin inhibit protein band was controlled by a single locus. Twelve DNA markers (4 RAPD, 4 AFLP, and 3 SSR) and Ti locus were found to be genetically linked in population 1 consisted with 94 F₂ individual plants. Three SSR markers (Satt409, Satt228, and Satt429) were linked with Ti locus within 10 cM. Satt228 marker was tightly linked with Ti locus. Satt228 marker was tightly linked within 0–3.7 cM of the Ti locus and may be useful in a marker assisted selection program.  相似文献   

A novel aphid resistance locus in cowpea identified by combining SSR and SNP markers          下载免费PDF全文

Francis Kusi  Francis K. Padi  Daniel Obeng‐Ofori  Stephen K. Asante  Richard Y. Agyare  Issah Sugri  Michael P. Timko  Robert Koebner  Bao‐Lam Huynh  Jansen R. P. Santos  Timothy J. Close  Philip A. Roberts 《Plant Breeding》2018,137(2):203-209

The utility of combining simple sequence repeat (SSR) and single nucleotide polymorphism (SNP) marker genotyping was determined for genetically mapping a novel aphid (Aphis craccivora) resistance locus in cowpea breeding line SARC 1‐57‐2 and for introgressing the resistance into elite cultivars by marker‐assisted backcrossing (MABC). The locus was tagged with codominant SSR marker CP 171F/172R with a recombination fraction of 5.91% in an F₂ population from ‘Apagbaala’ x SARC 1‐57‐2. A SNP‐genotyped biparental recombinant inbred line population was genotyped for CP 171F/172R, which was mapped to position 11.5 cM on linkage group (LG) 10 (physical position 30.514 Mb on chromosome Vu10). Using CP 171F/172R for foreground selection and a KASP‐SNP‐based marker panel for background selection in MABC, the resistance from SARC 1‐57‐2 was introduced into elite susceptible cultivar ‘Zaayura’. Five BC₄F₃ lines of improved ‘Zaayura’ that were isogenic except for the resistance locus region had phenotypes similar to SARC 1‐57‐2. This study identified a novel aphid resistance locus and demonstrated the effectiveness of integrating SSR and SNP markers for trait mapping and marker‐assisted breeding.  相似文献   

Investigation and genetic mapping of a Glomerella leaf spot resistance locus in apple          下载免费PDF全文

Yuanxia Liu  Jinhao Lan  Caihong Wang  Baohua Li  Jun Zhu  Chunxiao Liu  Hongyi Dai 《Plant Breeding》2017,136(1):119-125

Apple Glomerella leaf spot (GLS) is a severe fungal disease that damages apple leaves during the summer in China. Breeding new apple varieties that are resistant to the disease is considered the best way of controlling GLS. Fine mapping and tightly linked marker are critically essential for the preselection of resistant seedlings. In this study, a population of 207 F₁ individuals derived from a cross between ‘Golden Delicious’ and ‘Fuji’ was used to construct a fine simple sequence repeat (SSR)‐based genetic linkage map. The position of R_gls, a locus responsible for resistance to GLS, was identified on apple linkage group (LG) 15 using SSR markers CH05g05 and CH01d08, which was adapted from a published set of 300 SSR markers that were developed using the bulked segregant analysis (BSA) method. These two SSR markers flanked the gene, and its recombination rate was 8.7% and 23.2%, respectively. A total of 276 newly developed SSR markers around the target region and designed from the genome apple assembly contig of LG15 were screened. Only nine of these were determined to be linked to the R_gls locus. Thus, a total of 11 SSR markers were in linkage with R_gls, and mapped at distances ranging from 0.5 to 33.8 cM. The closest marker to the R_gls locus was S0405127, which showed a genetic distance of approximately 0.5 cM. The first mapping of the gene R_gls was constructed, and the locations of the 11 effective primers in the ‘Golden Delicious’ apple genome sequence were anchored. This result facilitates better understanding of the molecular mechanisms underlying the trait of resistance to GLS and could be used in improving the breeding efficiency of GLS‐resistant apple varieties.  相似文献   

Identification of SSR markers linked to the Phytophthora resistance gene Rps1-d in soybean   总被引：1，自引：0，他引：1  

T. Sugimoto    S. Yoshida    K. Watanabe    M. Aino    T. Kanto    K. Maekawa    K. Irie 《Plant Breeding》2008,127(2):154-159

To identify markers for the Phytophthora resistance gene, Rps1‐d, 123 F_{2 : 3} families were produced from a cross between Glycine max (L.) Merr. ‘Tanbakuro’ (a Japanese traditional black soybean) and PI103091 (Rps1‐d) as an experimental population. The results of virulence tests produced 33 homozygous resistant, 61 segregating and 29 homozygous susceptible F_{2 : 3} families. The chi‐squared test gave a goodness‐of‐fit for the expected ratio of 1 : 2 : 1 for resistant, segregating and susceptible traits, suggesting that the inheritance of Rps1‐d is controlled by a monogenic dominant gene. Simple sequence repeat (SSR) analyses of this trait were carried out using the cultivars ‘Tanbakuro’ and PI103091. Sixteen SSR primers, which produced 19 polymorphic fragments between the two parents, were identified from 41 SSR primers in MLG N. Eight SSR markers were related to Rps1‐d, based on 32 of the 123 F_{2 : 3} families, consisting of 16 homozygous resistant and 16 homozygous susceptible lines. The remaining 91 families were analysed for these eight markers, and a linkage map was constructed using all 123 F_{2 : 3} families. The length of this linkage group is 44.0 cM. The closest markers, Sat_186 and Satt152, are mapped at 5.7 cM and 11.5 cM, respectively, on either side of the Rps1‐d gene. Three‐way contingency table analysis indicates that dual‐marker‐assisted selection using these two flanking markers would be efficient.  相似文献   

Molecular mapping of a dominant genic male sterility gene Ms in rapeseed (Brassica napus)   总被引：7，自引：1，他引：7  

G. Y. Lu    G. S. Yang  T. D. Fu 《Plant Breeding》2004,123(3):262-265

Rs1046AB is a genic male sterile two‐type line in rapeseed that has great potential for hybrid seed production. The sterility of this line is conditioned by the interaction of two genes, i.e. the dominant genic male sterility gene (Ms) and the suppressor gene (Rf). The present study was undertaken to identify DNA markers for the Ms locus in a BC₁ population developed from a cross between a male‐sterile plant in Rs1046AB and the fertile canola‐type cultivar ‘Samourai’. Bulked segregant analysis was performed using the amplified fragment length polymorphism (AFLP) methodology. From the survey of 480 AFLP primer combinations, five AFLP markers (P10M13₃₅₀, P13M8₄₀₀, P6M6₄₁₀, E7M1₂₃₀ and E3M15₁₀₀) tightly linked to the target gene were identified. Two of them, E3M15₁₀₀ and P6M6₄₁₀, located the closest, at either side of Ms at a distance of 3.7 and 5.9 cM, respectively. The Ms locus was subsequently mapped on linkage group LG10 in the map developed in this laboratory, adding two additional markers weakly linked to it. This suite of markers will be valuable in designing a marker‐assisted genic male sterility three‐line breeding programme.  相似文献   

Amplified fragment length polymorphism- and simple sequence repeat-based molecular tagging and mapping of greenbug resistance gene Gb3 in wheat   总被引：3，自引：0，他引：3  

Y. Weng  M. D. Lazar 《Plant Breeding》2002,121(3):218-223

The greenbug, Schizaphis graminum (Rondani), is the most economically damaging aphid pest of wheat in the southern Great Plains of the USA. In this study, the single, dominant greenbug resistance gene, Gb3, was molecularly tagged and genetically mapped using amplified fragment length polymorphism (AFLP) and simple sequence repeat(SSR) markers. Three AFLP loci were associated with the Gb3 locus in linkage analysis with 75 F_2:3 families from the cross between two near‐isogenic lines (NILs) for Gb3,‘TXGBE273’ and ‘TXGBE281′. Two of these loci, XMgcc Pagg and Xmagg Patg cosegregate with Gb3 in the population analysed. Further analysis indicated that XMgcc Pagg and Xmagg Patg are specific for the Gb3 locus in diverse genetic backgrounds. Two SSR markers, Xgwm111 and Xgwm428 previously mapped in wheat chromosome 7D, were shown to be linked with Gb3, 22.5 cM and 33.1 cM from Gb3, respectively, in an F₂ population of ‘Largo’בTAM 107’, suggesting that Gb3 is located in the long arm of chromosome 7D. The two AFLP markers cosegregating with Gb3 are valuable tools in developing molecular markers for marker‐assisted selection of greenbug resistance in wheat breeding.  相似文献   

Genetic linkage map of Chinese native variety faba bean (Vicia faba L.) based on simple sequence repeat markers     

Yu Ma  Shi‐ying Bao  Tao Yang  Jin‐guo Hu  Jian‐ping Guan  Yu‐hua He  Xue‐Jun Wang  Yu‐ling Wan  Xue‐lian Sun  Jun‐ye Jiang  Cui‐xiang Gong  Xu‐xiao Zong 《Plant Breeding》2013,132(4):397-400

Simple sequence repeat (SSR) marker is a powerful tool for construction of genetic linkage map which can be applied for quantitative trait loci (QTL) and marker‐assisted selection (MAS). In this study, a genetic map of faba bean was constructed with SSR markers using a 129 F₂ individuals population derived from the cross of Chinese native variety 91825 (large seed) and K1563 (small seed). By screening 11 551 SSR primers between two parents, 149 primer pairs were detected polymorphic and used for F₂ population analysis. This SSR‐based genetic linkage map consisted of 15 linkage groups with 128 SSR. The map encompassed 1587 cM with an average genetic distance of 12.4 cM. The genetic map generated in this study will be beneficial for genetic studies of faba bean for identification of marker‐locus‐trait associations as well as comparative mapping among faba bean, pea and grasspea.  相似文献   

Molecular tagging of Asiatic soybean rust resistance in exotic genotype EC 241780 reveals complementation of two genes          下载免费PDF全文

Tukaram J. Bhor  Vivek P. Chimote  Milind P. Deshmukh 《Plant Breeding》2015,134(1):70-77

Asian soybean rust (ASR) caused by Phakopsora pachyrhizi severely reduces seed yield in soybean. Molecular tagging of ASR resistance can help in the process of resistance breeding. In this study, an F₂ population of cross (susceptible cultivar ‘NRC 7’ × resistant exotic genotype EC 241780) was used for bulked segregant analysis (BSA) with 25 SSR (simple sequence repeat) primers linked with six Rpp genes. Among them, five polymorphic SSR markers, viz., Sct 187, SSR 1859, Satt 191 (Rpp1b like loci) and Satt 215, Sat_361 (Rpp2 loci) distinguished the ASR resistant and susceptible bulks and individuals. In combined marker analysis, the markers Satt 191 (Rpp1b like loci) and Satt 215 (Rpp2 loci) were linked with ASR severity score and were also confirmed in individual 110 F₂ segregants. Hence, these markers could be utilized in the marker assisted rust resistance breeding of Rpp1b like and Rpp2 genes. In silico candidate gene analysis for hypersensitive response revealed that Satt 191 linked region was rich in genes encoding apoptotic ATPase having leucine‐rich repeat (LRR) domain.  相似文献   

Density enhancement of a faba bean genetic linkage map (Vicia faba) based on simple sequence repeats markers     

Tao Yang  Junye Jiang  Hongyan Zhang  Rong Liu  Stephen Strelkov  Sheau‐Fang Hwang  Kan‐Fa Chang  Feng Yang  Yamei Miao  Yuhua He  Xuxiao Zong 《Plant Breeding》2019,138(2):207-215

Genetic mapping for faba bean lags far behind other major crops. Density enhancement of the faba bean genetic linkage map was carried out by screening 5,325 genomic SSR primers and 2033 expressed sequence tag (EST)‐SSR primers on the parental cultivars '91825' and 'K1563'. Two hundred and fifteen genomic SSR and 133 EST‐SSR primer pairs that detected polymorphisms in the parents were used to screen 129 F₂ individuals. This study added 337 more SSR markers and extended the previous linkage map by 2928.45 cM to a total of 4516.75 cM. The number of SSR markers in the linkage groups varied from 12 to 136 while the length of each linkage group ranged from 129.35 to 1180.21 cM. The average distance between adjacent loci in the enhanced genetic linkage map was 9.71 cM, which is 2.79 cM shorter than the first linkage map of faba bean. The density‐enhanced genetic map of faba bean will be useful for marker‐assisted selection and breeding in this important legume crop.  相似文献   

Identification of AFLP and SSR markers linked with the male fertility restorer gene of CMS 06J45 in heading Chinese cabbage (Brassica rapa L. ssp. pekinensis)     

Xiaoyong Xu  Xilu Sun  Yu Zhang  Lugang Zhang  Zhiyuan Fang 《Plant Breeding》2014,133(5):615-619

In this study, AFLP and SSR techniques were combined with the bulk segregant analysis (BSA) method to map the restorer gene BrRfp using an F₂‐segregating population comprising 258 individuals developed by crossing the polima (pol)‐like cytoplasmic male sterility (CMS) line 06J45 and the restorer line 01S325 of heading Chinese cabbage. A survey of 2048 AFLP primer pairs identified 21 polymorphic fragments, approximately half of which exhibited high similarity with the A09 chromosome sequence of Brassica rapa in the Brassica database (BRAD). Based on the genome sequence, three specific AFLP fragments linked with BrRfp were successfully converted into sequence‐characterized amplified region (SCAR) markers, named SC1233, SC2673 and SC2141. Subsequently, 178 pairs of SSR primers were redesigned for further screening, with five producing polymorphic amplification patterns. Linkage analysis showed that these markers were distributed along both sides of the BrRfp gene, with two markers, SSR03 and SSR2528, co‐segregating with the BrRfp locus in the F₂ population. These results may be valuable for marker‐assisted selection and map‐based cloning in heading Chinese cabbage.  相似文献   

The first genetic linkage map of crape myrtle (Lagerstroemia) based on amplification fragment length polymorphisms and simple sequence repeats markers     

Dan He  Yang Liu  Ming Cai  Huitang Pan  Qixiang Zhang 《Plant Breeding》2014,133(1):138-144

Lagerstroemia (crape myrtle) are famous ornamental plants with large pyramidal racemes, long flower duration and diverse colours. Genetic maps provide an important genomic resource of basic and applied significance. A genetic linkage map was developed by genotyping 192 F₁ progeny from a cross between L. caudata (female) and L. indica (‘Xiang Xue Yun’) (male) with a combination of amplification fragment length polymorphisms (AFLP) and simple sequence repeats (SSR) markers in a double pseudo‐testcross mapping strategy. A total of 330 polymorphic loci consisting of 284 AFLPs and 46 SSRs showing Mendelian segregation were generated from 383 AFLP primer combinations and 150 SSR primers. The data were analysed using JoinMap 4.0 (evaluation version) to construct the linkage map. The map consisted of 20 linkage groups of 173 loci (160 AFLPs and 13 SSRs) covering 1162.1 cM with a mean distance of 10.69 cM between adjacent markers. The 20 linkage groups contained 2–49 loci and ranged in length from 7.38 to 163.57 cM. This map will serve as a framework for mapping QTLs and provide reference information for future molecular breeding work.  相似文献   

Linkage map construction and mapping QTL for cotton fibre quality using SRAP, SSR and RAPD   总被引：23，自引：0，他引：23  

Z. Lin    D. He    X. Zhang    Y. Nie    X. Guo    C. Feng  J. McD. STEWART 《Plant Breeding》2005,124(2):180-187

Tetraploid cotton is one of the most extensively cultivated species. Two tetraploid species, Gossypium hirsutum L. and G. barbadense L., dominate the world's cotton production. To better understand the genetic basis of cotton fibre traits for the improvement of fibre quality, a genetic linkage map of tetraploid cotton was constructed using sequence‐related amplified polymorphisms (SRAPs), simple sequence repeats (SSRs) and random amplified polymorphic DNAs (RAPDs). A total of 238 SRAP primer combinations, 368 SSR primer pairs and 600 RAPD primers were used to screen polymorphisms between G. hirsutum cv. Handan208 and G. barbadense cv. Pima90 which revealed 749 polymorphic loci in total (205 SSRs, 107 RAPDs and 437 SRAPs). Sixty‐nine F₂ progeny from the interspecific cross of ‘Handan208’בPima90’ were genotyped with the 749 polymorphic markers. A total of 566 loci were assembled into 41 linkage groups with at least three loci in each group. Twenty‐eight linkage groups were assigned to corresponding chromosomes by SSR markers with known chromosome locations. The map covered 5141.8 cM with a mean interlocus space of 9.08 cM. A × test for significance of deviations from the expected ratio (1: 2: 1 or 3: 1) identified 135 loci (18.0%) with skewed segregation, most of which had an excess of maternal parental alleles. In total, 13 QTL associated with fibre traits were detected, among which two QTL were for fibre strength, four for fibre length and seven for micronaire value. These QTL were on nine linkage groups explaining 16.18‐28.92% of the trait variation. Six QTL were located in the A subgenome, six QTL in the D subgenome and one QTL in an unassigned linkage group. There were three QTL for micronaire value clustered on LG1, which would be very useful for improving this trait by molecular marker‐assisted selection.  相似文献   

AFLP–SSR maps of maize × teosinte and maize × maize: comparison of map length and segregation distortion     

Y. Mano    M. Muraki    M. Fujimori    T. Takamizo    B. Kindiger 《Plant Breeding》2005,124(5):432-439

Two genetic linkage maps of Zea mays were constructed: one population comprised 94 F₂ individuals of a dent ‘B64’ × teosinte (Z. mays ssp. huehuetenangensis) cross while the second consisted of 94 F₂ individuals of a ‘B64’ × Caribbean flint ‘Na4’ cross. The level of polymorphism was higher in the ‘B64’ × teosinte combination than the ‘B64’ × ‘Na4’ combination. In the ‘B64’ × teosinte cross, a total of 338 amplified fragment length polymorphism (AFLP) and 75 simple sequence repeat (SSR) markers were mapped to 10 chromosomes, which covered 1402.4 cM. In the ‘B64’ × ‘Na4’ cross, a total of 340 AFLP and 97 SSR markers were mapped to 10 chromosomes, covering 1662.8 cM. Segregation distortion regions were found on chromosomes 4, 5 and 8 in the ‘B64’ × teosinte cross and on chromosome 9 in the ‘B64’ × ‘Na4’ cross. Comparison of the two maps revealed that the maize × teosinte map was 11.5% shorter than the maize × maize map. The maps generated in this study may be useful to identify genes controlling flooding tolerance.  相似文献   

Genetic similarity among European winter triticale elite germplasms assessed with AFLP and comparisons with SSR and pedigree data   总被引：5，自引：0，他引：5  

S. H. Tams    A. E. Melchinger  E. Bauer 《Plant Breeding》2005,124(2):154-160

Genetic similarities (GS) based on molecular markers are well suited for direct exploration of relationships within a germplasm pool. The objectives of this study were to: (i) assess the genetic diversity in the European winter triticale germplasm by using AFLP markers, and (ii) compare the GS estimates of AFLP markers, simple sequence repeat (SSR) markers and MALÉCOT's coancestry coefficient (f). A representative set of 127 European winter triticale varieties and breeding lines, previously investigated with SSR, was assessed with 10 PstI/TaqI primer combinations (PC). AFLP analysis identified 344 polymorphic fragments with an average polymorphic information content per PC of 0.25 and a marker index of 8.56. GS‐values between genotypes (calculated after DICE) averaged 0.61 for AFLP and 0.43 for SSR. The mean f‐value was 0.06. Dendrograms based on ‘unweighted pair‐group method and arithmetic average’ showed no clear groupings within the triticale germplasm pool, but smaller clusters were consistently found. Both molecular marker systems were superior to the coancestry coefficient for genetic diversity assessment within the elite triticale germplasm.  相似文献   

大豆品种成熟期基因型推测的研究   总被引：1，自引：0，他引：1  

宁慧霞  李英慧  刘章雄  常汝镇  关荣霞  罗淑萍  邱丽娟 《作物学报》2008,34(3):382-387

选择不同来源中国大豆品种23份和国外引进的成熟期近等基因系35份进行SSR分析,目的是鉴定与成熟期基因型紧密连锁的标记,进而推测中国大豆品种的成熟期基因型。结果表明,（1）210对SSR标记中125对在成熟期近等基因型中具有多态性,推测与成熟期有关的标记有8个;（2）在Clark近等基因系中,筛选出成熟期基因E3/e3特异性标记Satt229,E4/e4的特异SSR标记Sct_010、Satt294、Satt247、Satt452和Satt156;在Clark和Harosoy近等基因系中,筛选出E7/e7的特异性SSR标记为Satt071、Satt178;（3）根据8个与成熟期相关的标记的分子数据,构建了国外大豆近等基因系的UPGMA聚类图,共聚为4类,背景来源相同或相似的材料被聚为一类,明显分为Clark近等基因系和Harosoy近等基因系。（4）与近等基因系成熟期基因(E7)分子标记比对,推测出25份中国大豆品种的成熟期基因。  相似文献   

AFLP-based STS markers closely linked to a fertility restoration locus (Rfm1) for cytoplasmic male sterility in barley   总被引：3，自引：0，他引：3  

S. Murakami    K. Matsui    T. Komatsuda  Y. Furuta 《Plant Breeding》2005,124(2):133-136

The Rfm1 gene restores the fertility of the msm1 and msm² male‐sterile cytoplasms in barley. Rfm1 is located on the short arm of chromosome 6H. To develop molecular markers tightly linked to Rfm1 for use in sophisticated marker‐assisted selection and map‐based cloning, an amplified fragment‐length polymorphism (AFLP) marker system with isogenic lines and a segregating BC₁F₁ population was used. Nine hundred primer combinations were screened and a linkage map was constructed around the Rfm1 locus by using 25 recombinant plants selected from 214 BC₁F₁ plants. Three AFLP markers were identified, e34m2, e46m19 and e48m17, linked to the locus. The most closely linked markers were e34m2, at 1.0 cM distally and e46m19, at 1.1 cM proximally. The two AFLP markers were converted to dominant STS markers. These markers should accelerate programmes for breeding restorer lines and will be useful for map‐based cloning.  相似文献   

绿豆遗传连锁图谱的整合   总被引：3，自引：0，他引：3  

赵丹  程须珍  王丽侠  王素华  马燕玲 《作物学报》2010,36(6):932-939

利用绿豆及其近缘种的701对SSR引物,对现有绿豆遗传连锁图谱进行补充,结果在高感豆象绿豆栽培种Berken和高抗豆象绿豆野生种ACC41两亲本间筛选到多态性SSR引物104对。群体分析后,结合其他分子数据,使用作图软件Mapmaker/Exp 3.0b,获得一张含有179个遗传标记和12个连锁群,总长1831.8cM、平均图距10.2cM的新遗传连锁图谱,包括97个SSR标记,91个来自绿豆近缘种;RFLP标记76个;RAPD标记4个;STS标记2个。对32个绿豆、小豆共用SSR标记在遗传连锁图谱的分布分析发现,二个基因组间有一定程度的同源性,共用标记在连锁群上的排列顺序基本上一致,只有部分标记显示绿豆和小豆基因组在进化过程中发生了染色体重排;利用新图谱对ACC41的抗绿豆象主效基因重新定位,仍定位于I(9)连锁群,与其相邻分子标记的距离均小于8cM,其中与右翼SSR标记C220的距离约2.7cM。与原图谱比较,新定位的抗性基因与其相邻标记的连锁更加紧密。  相似文献   

QTL analysis of resistance to Fusarium head blight in wheat using a 'Frontana'-derived population   总被引：6，自引：1，他引：6  

M. Mardi    L. Pazouki    H. Delavar    M. B. Kazemi    B. Ghareyazie    B. Steiner    R. Nolz    M. Lemmens    H. Buerstmayr 《Plant Breeding》2006,125(4):313-317

Fusarium head blight (FHB or head scab) has become a major limiting factor for sustainable wheat (Triticum aestivum L.) production around the world. For quantitative trait loci (QTL) analysis of resistance to FHB, F₃ plants and F_{3 : 5} lines, derived from a ‘Frontana’ (moderately resistant)/‘Seri82’ (susceptible) cross, were spray‐inoculated in 2001 and 2002, respectively. Artificial inoculations were carried out under field conditions. Of 273 SSR and AFLP markers, 250 could be mapped and they yielded 42 linkage groups, covering a genetic distance of 1931 cM. QTL analysis was based on the constructed linkage map and area under the disease progress curve (AUDPC). The analyses revealed three consistent QTLs associated with FHB resistance on chromosomes 1BL, 3AL and 7AS explaining 7.9%, 7.7% and 7.6% of the phenotypic variation, respectively, above 2 years. The results confirmed the previously described resistance QTL of ‘Frontana’ on chromosome 3AL. A combination of ‘Frontana’ resistance with ‘Sumai‐3’ resistance may lead to lines with augmented resistance expression.  相似文献   

An SSR marker in the nitrate reductase gene of common bean is tightly linked to a major gene conferring resistance to common bacterial blight   总被引：2，自引：1，他引：2  

Kangfu Yu  Soon J. Park  Bailing Zhang  Margaret Haffner  Vaino Poysa 《Euphytica》2004,138(1):89-95

A simple sequence repeat (SSR) marker composed of a tetra nucleotide repeat is tightly linked to a major gene of common bean (Phaseolus vulgaris L.) conferring resistance to common bacterial blight (CBB) incited by Xanthomonas axonopodis pv. phasoli (Xap). This SSR is located in the third intron region of the common bean nitrate reductase (NR) gene, which is mapped to linkage group (LG) H7, corresponding to LG B7 of the bean Core map. Co-segregation analysis between the SSR marker and CBB resistance in a recombinant inbred line (RIL) population demonstrated a tight linkage between the NR gene-specific marker and the major gene for CBB resistance. In total, the marker explained approximately 70% of the phenotypic variation in the population. Because it is co-dominant, this SSR marker should be more efficient for marker-assisted selection (MAS) than dominant/recessive random amplified polymorphic DNA (RAPD) or sequence characterized amplified region (SCAR) markers that have been developed, especially for early generation selection. This revised version was published online in August 2006 with corrections to the Cover Date.  相似文献   

Mapping of a gene for leaf scald resistance in barley line 'B87/14' and validation of microsatellite and RFLP markers for marker-assisted selection     

K. Williams    P. Bogacki    L. Scott    A. Karakousis  H. Wallwork   《Plant Breeding》2001,120(4):301-304

Seedlings of the barley line ‘B87/14’ were resistant to 22 out of 23 Australian isolates of Rhynchosporium secalis, the causal agent of leaf scald.‘B87/14’‐based populations were developed to determine the location of the resistance locus. Scald resistance segregated as a single dominant trait in BC₁F₂ and BC₁F₃ populations. Bulked segregant analysis identified amplified fragment length polymorphisms (AFLPs) with close linkage to the resistance locus. Fully mapped populations not segregating for scald resistance located these AFLP markers on chromosome 3H, possibly within the complex Rrs1 scald locus. Microsatellite and restriction fragment length polymorphism markers adjacent to the AFLP markers were identified and validated for their linkage to scald resistance in a second segregating population, with the closest marker 2.2 cM from the resistance locus. These markers can be used for selection of the Rrs.B87 scald‐resistance locus, and other genes at the chromosome 3H Rrs1 locus.  相似文献