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1.
小麦赤霉病抗性QTL分析 总被引:13,自引:1,他引:13
以小麦赤霉病抗源望水白与感病品种Alondra杂交产生的104个重组自交系为材料,采用JoinMap®3.0软件构建了含有2个RAPD、109个SSR和105个AFLP标记共25个连锁群的遗传连锁图,其中24个连锁群可以确定为相应的染色体;采用自然发病和土表接种方法,对该重组自交系群体在建阳和苏州进行了连续两年赤霉病抗性鉴定,结果表明: 相似文献
2.
玉米抗穗粒腐病QTL定位 总被引:5,自引:0,他引:5
用已构建的包括88个AFLP标记和151个SSR标记的遗传图谱和230个F2植株用于抗病QTL定位研究,在四川雅安、绵阳对F2株系进行抗病性鉴定,采用复合区间定位法进行抗病QTL检测。在雅安检测到位于第2、3、4、6和9染色体上的抗病QTL 6个,解释表型变异的8.3%~25.7%;在绵阳检测到位于第1、6、7和9染色体上的抗病QTL 4个,解释表型变异的11.3%~26.4%。在10个抗病QTL中,位于第6和第9染色体上的2个同时在两点被检测到,贡献率均超过15%,表明玉米穗粒腐病确实存在遗传抗病性。利用2个环境抗病指数的平均值进行抗性QTL检测,共检测到位于第1、6和7连锁群上的3个抗性QTL,单个QTL的贡献率在8.9%~17.2%之间。结果有助于了解玉米穗粒腐病的抗性机制,并为分子标记辅助选择提供理论支撑。 相似文献
3.
QTL mapping and marker-assisted selection for Fusarium head blight resistance in wheat: a review 总被引:2,自引:0,他引:2
During the past decade, numerous studies have been published on molecular mapping of Fusarium head blight (FHB) resistance in wheat. We summarize the relevant findings from 52 quantitative trait loci (QTL) mapping studies, nine research articles on marker-assisted selection and seven on marker-assisted germplasm evaluation. QTL for FHB resistance were found on all wheat chromosomes except chromosome 7D. Some QTL were found in several independent mapping studies indicating that such QTL are stable and therefore useful in breeding programmes. We summarize and update current knowledge on the genetics of FHB resistance in wheat resulting from QTL mapping investigations and review and suggest FHB breeding strategies based on the available information and DNA markers. 相似文献
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QTL analysis of resistance to Fusarium head blight in wheat using a 'Wangshuibai'-derived population 总被引:9,自引:1,他引:9
M. Mardi H. Buerstmayr B. Ghareyazie M. Lemmens S. A. Mohammadi R. Nolz P. Ruckenbauer 《Plant Breeding》2005,124(4):329-333
Fusarium head blight (FHB) is a devastating disease that reduces the yield, quality and economic value of wheat. For quantitative trait loci (QTL) analysis of resistance to FHB, F3 plants and F3:5 lines, derived from a ‘Wangshuibai’ (resistant)/‘Seri82’(susceptible) cross, were spray inoculated during 2001 and 2002, respectively. Artificial inoculation was carried out under field conditions. Of 420 markers, 258 amplified fragment length polymorphism and 39 simple sequence repeat (SSR) markers were mapped and yielded 44 linkage groups covering a total genetic distance of 2554 cM. QTL analysis was based on the constructed linkage map and area under the disease progress curve. The analyses revealed a QTL in the map interval Xgwm533‐Xs18/m12 on chromosome 3BS accounting for up to 17% of the phenotypic variation. In addition, a QTL was detected in the map interval Xgwm539‐Xs15/m24 on chromosome 2DL explaining up to 11% of the phenotypic variation. The QTL alleles originated from ‘Wangshuibai’ and were tagged with SSR markers. Using these SSR markers would facilitate marker‐assisted selection to improve FHB resistance in wheat. 相似文献
6.
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 F3 : 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
7.
Development of near-isogenic lines for a major QTL on 3BL conferring Fusarium crown rot resistance in hexaploid wheat 总被引:1,自引:0,他引:1
By essentially fixing the genetic background, near-isogenic lines (NILs) are ideal for studies of the function of specific
loci. We report in this paper the development of NILs for a major QTL located on the long arm of chromosome 3B conferring
Fusarium crown rot (FCR) resistance in hexaploid wheat. These NILs were generated based on the method of the heterogeneous inbred
family analysis. 13 heterozygous lines were initially selected from three segregating populations using a single SSR marker
linked with the major FCR QTL. The two isolines for each of the putative NILs obtained showed no obvious morphological differences,
but differences among the NIL pairs were large. Significant differences in FCR resistance between the isolines were detected
for nine of the 13 putative NIL pairs. The presence of the FCR allele from the resistant parent reduced FCR severity by 29.3–63.9%
with an average of 45.2% across these NILs. These NILs will be invaluable in further characterising this major FCR locus,
in studying the mechanism of FCR resistance and in investigating possible interactions between FCR resistance and other traits
of agronomic importance. 相似文献
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We report on the identification of FHB ( Fusarium head blight) resistance quantitative trait loci (QTL) of the donor 'G93010' (Bussard/Ning8026) in the background of elite breeding material adapted to the central European climate. With a multiple interval mapping method, two major resistance QTL were identified. Qfhs.lfl-7BS/5BL and Qfhs.lfl-6BS reduced FHB severity individually by 30% and 24%. The combination of both QTL decreased disease severity most effectively by about one half. Qfhs.lfl-6BS is most likely identical to Fhb2 , thus, the effectiveness of Fhb2 in central European breeding material has been validated. Qfhs.lfl-7BS/5BL overlapped with QTL for plant height and heading date. Nevertheless, the selection of lines combining a good FHB resistance level with an acceptable plant height was possible. As the donors of the QTL have probably not yet been utilized in European breeding material, we identified well-adapted lines of the mapping population as valuable donors for marker-assisted breeding programmes. 相似文献
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Ning Li Jian Sun Jingguo Wang Hualong Liu Hongliang Zheng Luomiao Yang Yingpei Liang Xianwei Li Detang Zou 《Plant Breeding》2017,136(6):881-891
Alkaline stress causes injuries to rice seedlings in many parts of the world and is therefore an important factor affecting rice production in such areas. In this study, we preliminarily located quantitative trait loci (QTLs) for survival days of seedlings (SDS) and the concentrations of Na+ and K+ in shoots (SNC and SKC) and roots (RNC and RKC) under alkaline stress using an F2:3 population, which was derived from a cross between Caidao and WD20342 with 151 simple sequence repeat (SSR) markers. A total of seven QTLs were detected. Of these QTLs, qSNC3 had the largest effect, which explained 21.24% of the total phenotypic and is a major QTL. Next, a mapping population consisting of 190 BC2F2 plants was constructed using WD20342 as a donor parent to verify qSNC3. As a result, qSNC3 was delimited to an 81.7‐kb region between markers RM1221 and RM4404. In this region, LOC_Os03 g62500 and LOC_Os03 g62620 exhibited different expression between Caidao and WD20342 under alkaline stress. These results provide a basis for identifying genes related to alkaline tolerance in rice. 相似文献
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Identification of QTL controlling high levels of partial resistance to Fusarium solani f. sp. pisi in pea 
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下载免费PDF全文 Clarice J. Coyne Marie‐Laure Pilet‐Nayel Rebecca J. McGee Lyndon D. Porter Petr Smýkal Niklaus J. Grünwald 《Plant Breeding》2015,134(4):446-453
Fusarium root rot is a common biotic restraint on pea yields, and genetic resistance is the most feasible method for improving pea production. This study was conducted to discover quantitative trait loci (QTL) controlling genetic partial resistance to Fusarium root rot caused by Fusarium solani (Mart.) Sacc. f.sp. pisi (F.R. Jones) W.C. Snyder & H.N. Hans (Fsp). A RIL population was screened in a Fusarium root rot field disease nursery for 3 years. Composite interval mapping was employed for QTL detection using the means of disease severity from three growing seasons. Five QTL were identified, including one QTL identified in all three years. The multiyear QTL Fsp‐Ps2.1 contributed to a significant portion of the phenotypic variance (22.1–72.2%), while a second QTL, Fsp‐Ps6.1, contributed 17.3% of the phenotypic variance. The other single growing season QTL are of additional interest as they colocate with previously reported pea–Fusarium root rot resistance QTL. QTL Fsp‐Ps2.1, Fsp‐Ps3.1, Fsp‐4.1 and Fsp‐Ps7.1 are flanked by codominant SSRs and may be useful in marker‐assisted breeding of pea for high levels of partial resistance to Fsp. 相似文献
13.
水稻株高QTL分析及其与产量QTL的关系 总被引:18,自引:6,他引:18
分别应用具有112和160个标记位点的两个籼/籼交组合的F2群体的连锁图,对控制水稻株高的数量性状基因(QTL)进行了研究.各定位了4个和3个株高QTL,每个QTL的贡献率在5.6%~22.9%之间.在一个群体中,4个QTL都表现为完全显性或超显性;在另一个群体中,3个QTL均表现为部分显性.分别检测到7对和5对影响株高的双基因互作,其中一个群体以 相似文献
14.
QTL for popping characteristics in popcorn 总被引:1,自引:0,他引:1
Popping volume (PV), flake size (FS) and popping rate (PR) are three important popping characteristics in popcorn ( Zea mays L.). We developed 259 F2:3 lines from a cross between a dent corn inbred 'Dan232' and a popcorn inbred 'N04' that were grown during spring and summer to evaluate the three popping characteristics. Fifteen quantitative trait loci (QTL) were detected on chromosomes 1, 2, 5, 6, 7 and 8 using composite interval mapping. The numbers of QTL were 6, 4 and 5 for PV, FS and PR, respectively, with phenotypic variance explained ranging from 4.9% to 15.6% for a single QTL, accounting for a total of 54.0%, 34.5% and 39.1% of the total phenotypic variance respectively. Partially dominance and overdominance effects played an important role in popping characteristics. Only 13 pairs of digenic interactions were detected. The QTL on chromosome bin 1.05–1.06 for PV and PR, and 5.07 for FS were in accordance with previous reports and could be good candidate QTL for marker-assisted selection. There was a significant correlation amongst QTL on chromosomes 1, 6 and 8 for PV and PR. 相似文献
15.
Ljiljana Tamburic‐Ilincic 《Plant Breeding》2012,131(6):722-727
The objectives of this study were to investigate (i) the correlations between Fusarium head blight (FHB) index, deoxynivalenol (DON) accumulation and percentage of Fusarium‐damaged kernels (FDK) with agronomic and quality traits and (ii) the effect associated with the presence of single QTLs for FHB resistance on agronomic and quality traits in winter wheat. The population was derived from the cross between ‘RCATL33' (FHB resistance derived from ‘Sumai 3’ and ‘Frontana’) and ‘RC Strategy’. Parental lines and recombinant inbred lines (RILs) were genotyped with SSR markers associated with the 3B, 5A and 3A QTLs. The population was planted in FHB‐inoculated nurseries and in agronomy trials. Lines in the 3B QTL class had the lowest FHB index, DON content and FDK level and did not have a significantly lower yield, thousand kernel weight or protein content compared with the lines grouped in other QTL classes (including no QTL class). Marker‐assisted selection of the 3B QTL for FHB resistance into high‐yielding FHB‐susceptible winter wheat is the recommended approach for the development of lines with increased FHB resistance without significant yield and quality penalties. 相似文献
16.
The improvement of energy efficiency in the greenhouse production of cut rose and pot rose can be achieved through the use
of rose cultivars having vigorous growth. A better understanding of the inheritance of vigour and its related traits will
assist the breeding activities. Quantitative trait locus (QTL) analyses were performed with the help of an integrated linkage
map of a diploid rose population originating from a cross between Rosa multiflora-derived genotypes. The underlying datasets for ten vigour-related traits were collected in an evaluation study of this population
in two greenhouse experiments with suboptimal temperatures for growth. We identified ten chromosomal regions, scattered over
the seven linkage groups, containing QTLs for these traits. Considering each trait separately, we detected a total of 42 QTLs.
Among these QTLs, 24 were found in both of the experiments, eight and ten were specific to either of the two experiments.
The number of QTLs for individual traits varied from three to five with a respective contribution to the phenotypic variation
from 12 to 35%. QTLs for highly correlated traits frequently co-localized, indicating a common genetic basis. Clustering of
QTLs for different traits was noted in some chromosome regions, for instance, one on chromosome 2 included major QTLs for
eight of ten traits under study, suggesting co-localization of several separate genes or/and the occurrence of various genes
having pleiotropic effects. The discovery of markers associated to QTL regions is in roses the first step towards marker-assisted
selection for vigour improvement enabling the transfer of useful QTL-alleles of R. multiflora to pot and cut roses. 相似文献
17.
大豆光合气体交换参数的QTL分析 总被引:3,自引:0,他引:3
光合气体交换参数是用来表示植物光合能力的常用指标。利用来自大豆品种科丰1号和南农1138-2的重组自交系群体NJRIKY(184个家系)及其分子遗传图谱,通过两年盆栽试验定位与光合速率、气孔导度、胞间CO2浓度和蒸腾速率有关的QTL。结果表明,4个参数的遗传力中等偏低,在0.48~0.60之间;两两间存在极显著正相关关系,相关系数在0.192~0.686之间;两年共检测到15个QTL,分别位于C1、C2、D2、E、H、I和O连锁群上,LOD值在2.25~6.31之间,贡献率为4.80%~12.30%,;有6个QTL在不同环境下稳定表达,它们分别是控制光合速率的qPnC1.1、控制气孔导度的qSCD2.1和qSCI.1、控制胞间CO2浓度的qCiI.1和qCiO.1,以及控制蒸腾速率的qTrO.1;检测到4个同时控制两个或两个以上参数的标记区间,它们分别是C1连锁群上控制光合速率和气孔导度的sat_311~sct_191区间,E连锁群上控制光合速率、气孔导度和胞间CO2浓度的sat_172~satt268区间,I连锁群上控制气孔导度和胞间CO2浓度的satt726~satt330区间,以及D2连锁群上控制气孔导度和胞间CO2浓度的sat_296~sat_277区间。 相似文献
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Mixed modelling for QTL × environment interaction analysis 总被引:2,自引:0,他引:2
Phenotypic data for quantitative trait loci (QTL) mapping studies are typically generated at multiple environments in order
to broaden the inference space. Many aspects of the usually complex design call for a mixed modelling approach taking into
account various sources of variation, e.g., incomplete blocks, a spatial error structure, genetic correlations due to the
pedigree, and random environmental effects, including QTL × E interaction. Perhaps the most important source of random variation
is the genetic correlation across environment, which arises when the same set of lines is tested in each environment. This
correlation is likely to be positive, and ignoring it will lead to an increased rate of false positives. In this paper, we
present a mixed modelling framework for QTL mapping based on complex data from multiple environments. Our main focus is on
an appropriate modelling for the non-QTL part. The methodology will be illustrated using a barley data set from a BC2F2:5 advanced backcross trial.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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QTL analysis for grain weight in common wheat 总被引:6,自引:0,他引:6
Neeraj Kumar Pawan L. Kulwal Anupama Gaur Akhilesh K. Tyagi Jitendra P. Khurana Paramjit Khurana Harindra S. Balyan Pushpendra K. Gupta 《Euphytica》2006,151(2):135-144
Quantitative trait loci (QTL) analysis for grain weight (GW = 1000 grain weight) in common wheat was conducted using a set of 100 recombinant inbred lines (RILs) derived from a cross ‘Rye Selection 111 (high GW) × Chinese Spring (low GW)’. The RILs and their two parental genotypes were evaluated for GW in six different environments (three locations × two years). Genotyping of RILs was carried out using 449 (30 SSRs, 299 AFLP and 120 SAMPL) polymorphic markers. Using the genotyping data of RILs, framework linkage maps were prepared for three chromosomes (1A, 2B, 7A), which were earlier identified by us to carry important/major genes for GW following monosomic analysis. QTL analysis for GW was conducted following genome-wide single marker regression analysis (SMA) and composite interval mapping (CIM) using molecular maps for the three chromosomes. Following SMA, 12 markers showed associations with GW, individual markers explaining 6.57% to 10.76% PV (phenotypic variation) for GW in individual environments. The high grain weight parent, Rye Selection111, which is an agronomically superior genotype, contributed favourable alleles for GW at six of the 12 marker loci identified through SMA. The CIM identified two stable and definitive QTLs, one each on chromosome arms 2BS and 7AS, which were also identified through SMA, and a third suggestive QTL on 1AS. These QTLs explained 9.06% to 19.85% PV for GW in different environments. The QTL for GW on 7AS is co-located with a QTL for heading date suggesting the occurrence of a QTL having a positive pleiotropic effect on the two traits. Some of the markers identified during the present study may prove useful for marker-assisted selection, while breeding for high GW in common wheat. 相似文献