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1.
Zhang Z Rong J Waghmare VN Chee PW May OL Wright RJ Gannaway JR Paterson AH 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,123(7):1075-1088
Seventeen backcross-self families from crosses between two Gossypium hirsutum recurrent parent lines (CA3084, CA3093) and G. tomentosum were used to identify quantitative trait loci (QTLs) controlling fiber quality traits. A total of 28 QTLs for fiber quality
traits were identified (P < 0.001), including four for fiber elongation, eight for fiber fineness, four for fiber length, four for fiber strength,
six for fiber uniformity, one for boll weight, and one for boll number. Three statistically significant marker–trait associations
for lint yield were found in a single environment, but need further validation. Two-way analysis of variance revealed one
locus with significant genotype × family interaction (P < 0.001) for fiber strength and a second locus with significant genotype × environment interaction (P < 0.001) in the CA3084 background, and two loci with significant genotype × background interaction (P < 0.001) for the 28 common markers segregating in both of the two recurrent backgrounds. Co-location of many QTLs for fiber
quality traits partially explained correlations among these traits. Some G. tomentosum alleles were associated with multiple favorable effects, offering the possibility of rapid genetic gain by introgression.
Many G. tomentosum alleles were recalcitrant to homozygosity, suggesting that they might be most effectively deployed in hybrid cottons. DNA
markers linked to G. tomentosum QTLs identified in the present study promise to assist breeders in transferring and maintaining valuable traits from this
exotic source during Upland cotton cultivar development. This study also adds further evidence to prior studies indicating
that the majority of genetic variation associated with fiber quality in tetraploid cotton traces to the D-subgenome from a
diploid ancestor that does not produce spinnable fiber. 相似文献
2.
Identification of novel QTL contributing resistance to aflatoxin accumulation in maize 总被引:1,自引:0,他引:1
Marilyn L. Warburton Thomas D. Brooks Gary L. Windham W. Paul Williams 《Molecular breeding : new strategies in plant improvement》2011,27(4):491-499
The toxic metabolic product aflatoxin produced by the opportunistic fungus Aspergillus flavus (Link:Fr) in maize (Zea mays L.) can cause disease and economic harm when levels exceed very minute quantities. The selection of resistant germplasm has
great potential to reduce the problem, but the highly quantitative nature of the trait makes this a difficult endeavor. The
identification of aflatoxin accumulation resistance quantitative trait loci (QTL) from resistant donor lines and the discovery
of linked markers could speed this task. To identify marker–trait associations for marker-assisted breeding, a genetic mapping
population of F2:3 families was developed from Mp715, a maize inbred line resistant to aflatoxin accumulation, and T173, a susceptible, southern-adapted
maize inbred line. QTL, some with large phenotypic effects, were identified in multiple years on chromosomes 1, 3, 5, and
10, and smaller QTL identified in only 1 year were found on chromosomes 4 and 9. The phenotypic effect of each QTL ranged
from 2.7 to 18.5%, and models created with multiple QTL could explain up to 45.7% of the phenotypic variation across years,
indicating that the variation associated with the trait can be manipulated using molecular markers. 相似文献
3.
Ibrokhim Y. Abdurakhmonov Sukumar Saha Jonnie N. Jenkins Zabardast T. Buriev Shukhrat E. Shermatov Brain E. Scheffler Alan E. Pepper John Z. Yu Russell J. Kohel Abdusattor Abdukarimov 《Genetica》2009,136(3):401-417
Cotton is the world’s leading cash crop, but it lags behind other major crops for marker-assisted breeding due to limited
polymorphisms and a genetic bottleneck through historic domestication. This underlies a need for characterization, tagging,
and utilization of existing natural polymorphisms in cotton germplasm collections. Here we report genetic diversity, population
characteristics, the extent of linkage disequilibrium (LD), and association mapping of fiber quality traits using 202 microsatellite
marker primer pairs in 335 G. hirsutum germplasm grown in two diverse environments, Uzbekistan and Mexico. At the significance threshold (r
2 ≥ 0.1), a genome-wide average of LD extended up to genetic distance of 25 cM in assayed cotton variety accessions. Genome
wide LD at r
2 ≥ 0.2 was reduced to ~5–6 cM, providing evidence of the potential for association mapping of agronomically important traits
in cotton. Results suggest linkage, selection, inbreeding, population stratification, and genetic drift as the potential LD-generating
factors in cotton. In two environments, an average of ~20 SSR markers was associated with each main fiber quality traits using
a unified mixed liner model (MLM) incorporating population structure and kinship. These MLM-derived significant associations
were confirmed in general linear model and structured association test, accounting for population structure and permutation-based
multiple testing. Several common markers, showing the significant associations in both Uzbekistan and Mexican environments,
were determined. Between 7 and 43% of the MLM-derived significant associations were supported by a minimum Bayes factor at
‘moderate to strong’ and ‘strong to very strong’ evidence levels, suggesting their usefulness for marker-assisted breeding
programs and overall effectiveness of association mapping using cotton germplasm resources.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
4.
QTL mapping of yield and fiber traits based on a four-way cross population in <Emphasis Type="Italic">Gossypium hirsutum</Emphasis> L. 总被引:2,自引:0,他引:2
Qin H Guo W Zhang YM Zhang T 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2008,117(6):883-894
Four-way cross (4WC) involving four different inbred lines frequently appears in the cotton breeding programs. However, linkage
analysis and quantitative trait loci (QTL) mapping with molecular markers in cotton has largely been applied to populations
derived from a cross between two inbred lines, and few results of QTL dissection were conducted in a 4WC population. In this
study, an attempt was made to construct a linkage map and identify QTL for yield and fiber quality traits in 4WC derived from
four different inbred lines in Gossypium hirsutum L. A linkage map was constructed with 285 SSR loci and one morphological locus, covering 2113.3 cM, approximately 42% of
the total recombination length of the cotton genome. A total of 31 QTL with 5.1–25.8% of the total phenotypic variance explained
were detected. Twenty-four common QTL across environments showed high stability, and six QTL were environment-specific. Several
genomic segments affecting multiple traits were identified. The advantage of QTL mapping using a 4WC were discussed. This
study presents the first example of QTL mapping using a 4WC population in upland cotton. The results presented here will enhance
the understanding of the genetic basis of yield and fiber quality traits and enable further marker-assisted selection in cultivar
populations in upland cotton. 相似文献
5.
Dongfang Cai Yingjie Xiao Wei Yang Wei Ye Bo Wang Muhammad Younas Jiangsheng Wu Kede Liu 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2014,127(1):85-96
Yield is one of the most important traits for rapeseed (Brassica napus L.) breeding, but its genetic basis remains largely ambiguous. Association mapping has provided a robust approach to understand the genetic basis of complex agronomic traits in crops. In this study, a panel of 192 inbred lines of B. napus from all over the world was genotyped using 451 single-locus microsatellite markers and 740 amplified fragment length polymorphism markers. Six yield-related traits of these inbred lines were investigated in three consecutive years with three replications, and genome-wide association studies were conducted for these six traits. Using the model controlling both population structure and relative kinship (Q + K), a total of 43 associations (P < 0.001) were detected using the means of the six yield-related traits across 3 years, with two to fourteen markers associated with individual traits. Among these, 18 markers were repeatedly detected in at least 2 years, and 12 markers were located within or close to QTLs identified in previous studies. Six markers commonly associated with correlated traits. Conditional association analysis indicated that five of the associations between markers and correlated traits are caused by one QTL with pleiotropic effects, and the remaining association is caused by linked but independent QTLs. The combination of favorable alleles of multiple associated markers significantly enhances trait performance, illustrating a great potential of utilization of the associations in rapeseed breeding programs. 相似文献
6.
Li X Yan W Agrama H Jia L Shen X Jackson A Moldenhauer K Yeater K McClung A Wu D 《Planta》2011,234(2):347-361
Yield is the most important and complex trait for genetic improvement in crops, and marker-assisted selection enhances the
improvement efficiency. The USDA rice mini-core collection derived from over 18,000 accessions of global origins is an ideal
panel for association mapping. We phenotyped 203 O. sativa accessions for 14 agronomic traits and identified 5 that were highly and significantly correlated with grain yield per plant:
plant height, plant weight, tillers, panicle length, and kernels/branch. Genotyping with 155 genome-wide molecular markers
demonstrated 5 main cluster groups. Linkage disequilibrium (LD) decayed at least 20 cM and marker pairs with significant LD
ranged from 4.64 to 6.06% in four main groups. Model comparisons revealed that different dimensions of principal component
analysis affected yield and its correlated traits for mapping accuracy, and kinship did not improve the mapping in this collection.
Thirty marker–trait associations were highly significant, 4 for yield, 3 for plant height, 6 for plant weight, 9 for tillers,
5 for panicle length and 3 for kernels/branch. Twenty-one markers contributed to the 30 associations, because 8 markers were
co-associated with 2 or more traits. Allelic analysis of OSR13, RM471 and RM7003 for their co-associations with yield traits
demonstrated that allele 126 bp of RM471 and 108 bp of RM7003 should receive greater attention, because they had the greatest
positive effect on yield traits. Tagging the QTLs responsible for multiple yield traits may simultaneously help dissect the
complex yield traits and elevate the efficiency to improve grain yield using marker-assisted selection in rice. 相似文献
7.
Weiwei Wen Hanwei Mei Fangjun Feng Sibin Yu Zhicheng Huang Jinhong Wu Liang Chen Xiaoyan Xu Lijun Luo 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2009,119(3):459-470
The majority of 170 rice accessions used in this study were diverse landraces or varieties from a putative mini-core collection
of Chinese germplasm along with some widely used parental lines in genetic analysis or breeding (a few from abroad). The population
was genotyped using 84 SSR or InDel markers on chromosome 7 and 48 markers on other chromosomes. The phenotyping of heading
date, plant height and panicle length were carried out in different locations for 2 years. Based on morphological characterization,
distance-based clustering and model-based estimation of marker data, the population showed a predominant structure with two
subpopulations in correspondence with indica and japonica subspecies. The estimation of linkage disequilibrium in 2 Mb windows varied along chromosome 7 and showed parallel changes
with inter-subspecies differentiation of marker loci (Fst). Based on the mixed linear model considering population structure and family relatedness [i.e. the (Q + K) model], one to three associated markers (P ≤ 0.0001) per trait per experiment were scanned out on rice chromosome 7. Most significant loci were repeated for the data
from both field experiments while two loci were associated with two or three traits. Marker-based allelic effects were shown
in a couple of associated markers as examples. The application of association results in breeding program was also discussed.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
8.
Associations between DNA markers and resistance to diseases in sugarcane and effects of population substructure 总被引:2,自引:2,他引:0
Wei X Jackson PA McIntyre CL Aitken KS Croft B 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2006,114(1):155-164
Association between markers and sugarcane diseases were investigated in a collection of 154 sugarcane clones, consisting of important ancestors or parents, and cultivars. 1,068 polymorphic AFLP and 141 SRR markers were scored across all clones. Data on the four most important diseases in the Australian sugarcane industry were obtained; these diseases being pachymetra root rot (Pachymetra chaunorhiza B.J. Croft & M.W. Dick), leaf scald (Xanthomonas albilineans Dowson), Fiji leaf gall (Fiji disease virus), and smut (Ustilago scitaminea H. & P. Sydow). By a simple regression analysis, association between markers and diseases could be readily detected. However, many of these associations were due to the effects of embedded population structure and random effects. After taking population structure into account, we found that 59% of the phenotypic variation in smut resistance ratings could be accounted for by 11 markers, 32% of variation for leaf scald and pachymetra root rot rating by 4 markers, and 26% of Fiji leaf gall by 5 markers. The results suggest that marker–trait associations can be readily detected in populations generated from modern sugarcane breeding programs. This may be due to special features of past sugarcane breeding programs leading to persistent linkage disequilibrium in modern parental populations.Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users. 相似文献
9.
Zorrilla-Fontanesi Y Cabeza A Domínguez P Medina JJ Valpuesta V Denoyes-Rothan B Sánchez-Sevilla JF Amaya I 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,123(5):755-778
Breeding for fruit quality traits in strawberry (Fragaria × ananassa, 2n = 8x = 56) is complex due to the polygenic nature of these traits and the octoploid constitution of this species. In order to
improve the efficiency of genotype selection, the identification of quantitative trait loci (QTL) and associated molecular
markers will constitute a valuable tool for breeding programs. However, the implementation of these markers in breeding programs
depends upon the complexity and stability of QTLs across different environments. In this work, the genetic control of 17 agronomical
and fruit quality traits was investigated in strawberry using a F1 population derived from an intraspecific cross between two contrasting selection lines, ‘232’ and ‘1392’. QTL analyses were
performed over three successive years based on the separate parental linkage maps and a pseudo-testcross strategy. The integrated
strawberry genetic map consists of 338 molecular markers covering 37 linkage groups, thus exceeding the 28 chromosomes. 33
QTLs were identified for 14 of the 17 studied traits and approximately 37% of them were stable over time. For each trait,
1–5 QTLs were identified with individual effects ranging between 9.2 and 30.5% of the phenotypic variation, indicating that
all analysed traits are complex and quantitatively inherited. Many QTLs controlling correlated traits were co-located in homoeology
group V, indicating linkage or pleiotropic effects of loci. Candidate genes for several QTLs controlling yield, anthocyanins,
firmness and l-ascorbic acid are proposed based on both their co-localization and predicted function. We also report conserved QTLs among
strawberry and other Rosaceae based on their syntenic location. 相似文献
10.
Identification of loci governing eight agronomic traits using a GBS‐GWAS approach and validation by QTL mapping in soya bean
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Humira Sonah Louise O'Donoughue Elroy Cober Istvan Rajcan François Belzile 《Plant biotechnology journal》2015,13(2):211-221
Soya bean is a major source of edible oil and protein for human consumption as well as animal feed. Understanding the genetic basis of different traits in soya bean will provide important insights for improving breeding strategies for this crop. A genome‐wide association study (GWAS) was conducted to accelerate molecular breeding for the improvement of agronomic traits in soya bean. A genotyping‐by‐sequencing (GBS) approach was used to provide dense genome‐wide marker coverage (>47 000 SNPs) for a panel of 304 short‐season soya bean lines. A subset of 139 lines, representative of the diversity among these, was characterized phenotypically for eight traits under six environments (3 sites × 2 years). Marker coverage proved sufficient to ensure highly significant associations between the genes known to control simple traits (flower, hilum and pubescence colour) and flanking SNPs. Between one and eight genomic loci associated with more complex traits (maturity, plant height, seed weight, seed oil and protein) were also identified. Importantly, most of these GWAS loci were located within genomic regions identified by previously reported quantitative trait locus (QTL) for these traits. In some cases, the reported QTLs were also successfully validated by additional QTL mapping in a biparental population. This study demonstrates that integrating GBS and GWAS can be used as a powerful complementary approach to classical biparental mapping for dissecting complex traits in soya bean. 相似文献
11.
A genome‐wide association study of 2098 progeny‐tested Nordic Holstein bulls genotyped for 36 387 SNPs on 29 autosomes was conducted to confirm and fine‐map quantitative trait loci (QTL) for mastitis traits identified earlier using linkage analysis with sparse microsatellite markers in the same population. We used linear mixed model analysis where a polygenic genetic effect was fitted as a random effect and single SNPs were successively included as fixed effects in the model. We detected 143 SNP‐by‐trait significant associations (P < 0.0001) on 20 chromosomes affecting mastitis‐related traits. Among them, 21 SNP‐by‐trait combinations exceeded the genome‐wide significant threshold. For 12 chromosomes, both the present association study and the previous linkage study detected QTL, and of these, six were in the same chromosomal locations. Strong associations of SNPs with mastitis traits were observed on bovine autosomes 6, 13, 14 and 20. Possible candidate genes for these QTL were identified. Identification of SNPs in linkage disequilibrium with QTL will enable marker‐based selection for mastitis resistance. The candidate genes identified should be further studied to detect candidate polymorphisms underlying these QTL. 相似文献
12.
S. Nibouche L. M. Raboin J.-Y. Hoarau A. D’Hont L. Costet 《Molecular breeding : new strategies in plant improvement》2012,29(1):129-135
The spotted stem borer (SSB) Chilo sacchariphagus is a major pest of sugarcane, causing substantial losses in cane weight and in sucrose yield. SSB resistance is an important
trait to be taken into account for sugarcane breeding programs. In order to analyse the genetic basis of the resistance to
SSB, we undertook a quantitative trait allele (QTA) mapping study based on a population of 147 progenies derived from the
selfing of the resistant modern cultivar R570. The experimental population was evaluated in a replicated trial for borer damage
under natural infestation in two successive crop cycles. A single-factor analysis using 1,405 polymorphic markers was performed
to detect marker–trait associations. Statistical thresholds based on permutation tests designed to control type I errors at
a low level allowed the detection of nine QTAs whose individual size ranged between 6 and 10% of the total variation. These
nine QTAs are distributed over five of the eight homeology groups of the polyploid R570 genome. Two QTAs were found to co-localize
with two typical resistance gene analog clusters. Overall, eight QTAs explain altogether 42% of the total phenotypic variance. 相似文献
13.
David D Fang Johnie N Jenkins Dewayne D Deng Jack C McCarty Ping Li Jixiang Wu 《BMC genomics》2014,15(1)
Background
Upland cotton (Gossypium hirsutum L.) accounts for about 95% of world cotton production. Improving Upland cotton cultivars has been the focus of world-wide cotton breeding programs. Negative correlation between yield and fiber quality is an obstacle for cotton improvement. Random-mating provides a potential methodology to break this correlation. The suite of fiber quality traits that affect the yarn quality includes the length, strength, maturity, fineness, elongation, uniformity and color. Identification of stable fiber quantitative trait loci (QTL) in Upland cotton is essential in order to improve cotton cultivars with superior quality using marker-assisted selection (MAS) strategy.Results
Using 11 diverse Upland cotton cultivars as parents, a random-mated recombinant inbred (RI) population consisting of 550 RI lines was developed after 6 cycles of random-mating and 6 generations of self-pollination. The 550 RILs were planted in triplicates for two years in Mississippi State, MS, USA to obtain fiber quality data. After screening 15538 simple sequence repeat (SSR) markers, 2132 were polymorphic among the 11 parents. One thousand five hundred eighty-two markers covering 83% of cotton genome were used to genotype 275 RILs (Set 1). The marker-trait associations were analyzed using the software program TASSEL. At p < 0.01, 131 fiber QTLs and 37 QTL clusters were identified. These QTLs were responsible for the combined phenotypic variance ranging from 62.3% for short fiber content to 82.8% for elongation. The other 275 RILs (Set 2) were analyzed using a subset of 270 SSR markers, and the QTLs were confirmed. Two major QTL clusters were observed on chromosomes 7 and 16. Comparison of these 131 QTLs with the previously published QTLs indicated that 77 were identified before, and 54 appeared novel.Conclusions
The 11 parents used in this study represent a diverse genetic pool of the US cultivated cotton, and 10 of them were elite commercial cultivars. The fiber QTLs, especially QTL clusters reported herein can be readily implemented in a cotton breeding program to improve fiber quality via MAS strategy. The consensus QTL regions warrant further investigation to better understand the genetics and molecular mechanisms underlying fiber development.Electronic supplementary material
The online version of this article (doi:10.1186/1471-2164-15-397) contains supplementary material, which is available to authorized users. 相似文献14.
Genetic diversity and population structure of a diverse set of rice germplasm for association mapping 总被引:4,自引:0,他引:4
Liang Jin Yan Lu Peng Xiao Mei Sun Harold Corke Jinsong Bao 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2010,121(3):475-487
Germplasm diversity is the mainstay for crop improvement and genetic dissection of complex traits. Understanding genetic diversity,
population structure, and the level and distribution of linkage disequilibrium (LD) in target populations is of great importance
and a prerequisite for association mapping. In this study, 100 genome-wide simple sequence repeat (SSR) markers were used
to assess genetic diversity, population structure, and LD of 416 rice accessions including landraces, cultivars and breeding
lines collected mostly in China. A model-based population structure analysis divided the rice materials into seven subpopulations.
63% of the SSR pairs in these accessions were in LD, which was mostly due to an overall population structure, since the number
of locus pairs in LD was reduced sharply within each subpopulation, with the SSR pairs in LD ranging from 5.9 to 22.9%. Among
those SSR pairs showing significant LD, the intrachromosomal LD had an average of 25–50 cM in different subpopulations. Analysis
of the phenotypic diversity of 25 traits showed that the population structure accounted for an average of 22.4% of phenotypic
variation. An example association mapping for starch quality traits using both the candidate gene mapping and genome-wide
mapping strategies based on the estimated population structure was conducted. Candidate gene mapping confirmed that the Wx and starch synthase IIa (SSIIa) genes could be identified as strongly associated with apparent amylose content (AAC) and pasting temperature (PT), respectively.
More importantly, we revealed that the Wx gene was also strongly associated with PT. In addition to the major genes, we found five and seven SSRs were associated with
AAC and PT, respectively, some of which have not been detected in previous linkage mapping studies. The results suggested
that the population may be useful for the genome-wide marker–trait association mapping. This new association population has
the potential to identify quantitative trait loci (QTL) with small effects, which will aid in dissecting complex traits and
in exploiting the rich diversity present in rice germplasm. 相似文献
15.
Huaiyong Luo Manish K. Pandey Aamir W. Khan Jianbin Guo Bei Wu Yan Cai Li Huang Xiaojing Zhou Yuning Chen Weigang Chen Nian Liu Yong Lei Boshou Liao Rajeev K. Varshney Huifang Jiang 《Plant biotechnology journal》2019,17(7):1248-1260
Cultivated peanut (Arachis hypogaea L.) is an important grain legume providing high‐quality cooking oil, rich proteins and other nutrients. Shelling percentage (SP) is the 2nd most important agronomic trait after pod yield and this trait significantly affects the economic value of peanut in the market. Deployment of diagnostic markers through genomics‐assisted breeding (GAB) can accelerate the process of developing improved varieties with enhanced SP. In this context, we deployed the QTL‐seq approach to identify genomic regions and candidate genes controlling SP in a recombinant inbred line population (Yuanza 9102 × Xuzhou 68‐4). Four libraries (two parents and two extreme bulks) were constructed and sequenced, generating 456.89–790.32 million reads and achieving 91.85%–93.18% genome coverage and 14.04–21.37 mean read depth. Comprehensive analysis of two sets of data (Yuanza 9102/two bulks and Xuzhou 68‐4/two bulks) using the QTL‐seq pipeline resulted in discovery of two overlapped genomic regions (2.75 Mb on A09 and 1.1 Mb on B02). Nine candidate genes affected by 10 SNPs with non‐synonymous effects or in UTRs were identified in these regions for SP. Cost‐effective KASP (Kompetitive Allele‐Specific PCR) markers were developed for one SNP from A09 and three SNPs from B02 chromosome. Genotyping of the mapping population with these newly developed KASP markers confirmed the major control and stable expressions of these genomic regions across five environments. The identified candidate genomic regions and genes for SP further provide opportunity for gene cloning and deployment of diagnostic markers in molecular breeding for achieving high SP in improved varieties. 相似文献
16.
Jér?me Bartholomé Marco CAM Bink Joost van Heerwaarden Emilie Chancerel Christophe Boury Isabelle Lesur Fikret Isik Laurent Bouffier Christophe Plomion 《PloS one》2016,11(11)
BackgroundIncreasing our understanding of the genetic architecture of complex traits, through analyses of genotype-phenotype associations and of the genes/polymorphisms accounting for trait variation, is crucial, to improve the integration of molecular markers into forest tree breeding. In this study, two full-sib families and one breeding population of maritime pine were used to identify quantitative trait loci (QTLs) for height growth and stem straightness, through linkage analysis (LA) and linkage disequilibrium (LD) mapping approaches.ResultsThe populations used for LA consisted of two unrelated three-generation full-sib families (n = 197 and n = 477). These populations were assessed for height growth or stem straightness and genotyped for 248 and 217 markers, respectively. The population used for LD mapping consisted of 661 founders of the first and second generations of the breeding program. This population was phenotyped for the same traits and genotyped for 2,498 single-nucleotide polymorphism (SNP) markers corresponding to 1,652 gene loci. The gene-based reference genetic map of maritime pine was used to localize and compare the QTLs detected by the two approaches, for both traits. LA identified three QTLs for stem straightness and two QTLs for height growth. The LD study yielded seven significant associations (P ≤ 0.001): four for stem straightness and three for height growth. No colocalisation was found between QTLs identified by LA and SNPs detected by LD mapping for the same trait.ConclusionsThis study provides the first comparison of LA and LD mapping approaches in maritime pine, highlighting the complementary nature of these two approaches for deciphering the genetic architecture of two mandatory traits of the breeding program. 相似文献
17.
David E. Carr Michele R. Dudash 《Evolution; international journal of organic evolution》1997,51(6):1797-1807
In prior work we detected no significant inbreeding depression for pollen and ovule production in the highly selfing Mimulus micranthus, but both characters showed high inbreeding depression in the mixed-mating M. guttatus. The goal of this study was to determine if the genetic load for these traits in M. guttatus could be purged in a program of enforced selfing. These characters should have been under much stronger selection in our artificial breeding program than previously reported characters such as biomass and total flower production because, for example, plants unable to produce viable pollen could not contribute to future generations. Purging of genetic load was investigated at the level of both the population and the individual maternal line within two populations of M. guttatus. Mean ovule number, pollen number, and pollen viability declined significantly as plants became more inbred. The mean performance of outcross progeny generated from crosses between pairs of maternal inbred lines always exceeded that of self progeny and was fairly constant for each trait through all five generations. The consistent performance of outcross progeny and the universally negative relationships between performance and degree of inbreeding are interpreted as evidence for the weakness of selection relative to the quick fixation of deleterious alleles due to drift during the inbreeding process. The selective removal (purging) of deleterious alleles from our population would have been revealed by an increase in performance of outcross progeny or an attenuation of the effects of increasing homozygosity. The relationships between the mean of each of these traits and the expected inbreeding coefficient were linear, but one population displayed a significant negative curvilinear relationship between the log of male fertility (a function of pollen number and viability) and the inbreeding coefficient. The generally linear form of the responses to inbreeding were taken as evidence consistent with an additive model of gene action, but the negative curvilinear relationship between male fertility and the inbreeding coefficient suggested reinforcing epistasis. Within both populations there was significant genetic variation among maternal lineages for the response to inbreeding in all traits. Although all inbred lineages declined at least somewhat in performance, several maternal lines maintained levels of performance just below outcross means even after four or five generations of selfing. We suggest that selection among maternal lines will have a greater effect than selecting within lines in lowering the genetic load of populations. 相似文献
18.
Chee PW Draye X Jiang CX Decanini L Delmonte TA Bredhauer R Smith CW Paterson AH 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2005,111(4):772-781
A backcross-self population from a cross between Gossypium hirsutum and G. barbadense was used to dissect the molecular basis of genetic variation governing 15 parameters that reflect fiber length. Applying a detailed restriction fragment length polymorphism (RFLP) map to 3,662 BC3F2 plants from 24 independently derived BC3 families, we detected 28, nine, and eight quantitative trait loci (QTLs) for fiber length, length uniformity, and short fiber content, respectively. For eight, six, and two chromosomal regions containing quantitative trait loci (QTLs) for fiber length, length uniformity, and short fiber content (respectively), two-way analysis of variance showed a significant (P<0.001) among-family genotypic effect. A total of 13, two, and four loci showed genotype × family interaction, illustrating some of the complexities that are likely to be faced in introgression of exotic germplasm into the gene pool of cultivated cotton. Co-location of many QTLs for fiber length, length uniformity, and short fiber content accounted for correlations among these traits, while the discovery of many QTLs unique to each trait suggests that maximum genetic gain will require breeding efforts that target each trait (or an index including all three). The availability of DNA markers linked to G. barbadense QTLs identified in this and other studies promise to assist breeders in transferring and maintaining valuable traits from exotic sources during cultivar development.Electronic Supplementary Material Supplementary material is available for this article at 相似文献
19.
Ting Peng Xiaochun Sun Rita H. Mumm 《Molecular breeding : new strategies in plant improvement》2014,33(1):105-115
Multiple trait integration (MTI) is a multi-step process of converting an elite variety/hybrid for value-added traits (e.g. transgenic events) through backcross breeding. From a breeding standpoint, MTI involves four steps: single event introgression, event pyramiding, trait fixation, and version testing. This study explores the feasibility of marker-aided backcross conversion of a target maize hybrid for 15 transgenic events in the light of the overall goal of MTI of recovering equivalent performance in the finished hybrid conversion along with reliable expression of the value-added traits. Using the results to optimize single event introgression (Peng et al. Optimized breeding strategies for multiple trait integration: I. Minimizing linkage drag in single event introgression. Mol Breed, 2013) which produced single event conversions of recurrent parents (RPs) with ≤8 cM of residual non-recurrent parent (NRP) germplasm with ~1 cM of NRP germplasm in the 20 cM regions flanking the event, this study focused on optimizing process efficiency in the second and third steps in MTI: event pyramiding and trait fixation. Using computer simulation and probability theory, we aimed to (1) fit an optimal breeding strategy for pyramiding of eight events into the female RP and seven in the male RP, and (2) identify optimal breeding strategies for trait fixation to create a ‘finished’ conversion of each RP homozygous for all events. In addition, next-generation seed needs were taken into account for a practical approach to process efficiency. Building on work by Ishii and Yonezawa (Optimization of the marker-based procedures for pyramiding genes from multiple donor lines: I. Schedule of crossing between the donor lines. Crop Sci 47:537–546, 2007a), a symmetric crossing schedule for event pyramiding was devised for stacking eight (seven) events in a given RP. Options for trait fixation breeding strategies considered selfing and doubled haploid approaches to achieve homozygosity as well as seed chipping and tissue sampling approaches to facilitate genotyping. With selfing approaches, two generations of selfing rather than one for trait fixation (i.e. ‘F2 enrichment’ as per Bonnett et al. in Strategies for efficient implementation of molecular markers in wheat breeding. Mol Breed 15:75–85, 2005) were utilized to eliminate bottlenecking due to extremely low frequencies of desired genotypes in the population. The efficiency indicators such as total number of plants grown across generations, total number of marker data points, total number of generations, number of seeds sampled by seed chipping, number of plants requiring tissue sampling, and number of pollinations (i.e. selfing and crossing) were considered in comparisons of breeding strategies. A breeding strategy involving seed chipping and a two-generation selfing approach (SC + SELF) was determined to be the most efficient breeding strategy in terms of time to market and resource requirements. Doubled haploidy may have limited utility in trait fixation for MTI under the defined breeding scenario. This outcome paves the way for optimizing the last step in the MTI process, version testing, which involves hybridization of female and male RP conversions to create versions of the converted hybrid for performance evaluation and possible commercial release. 相似文献
20.
Shao Y Jin L Zhang G Lu Y Shen Y Bao J 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,122(5):1005-1016
Phytochemicals such as phenolics and flavonoids in rice grain are antioxidants that are associated with reduced risk of developing
chronic diseases including cardiovascular disease, type-2 diabetes and some cancers. Understanding the genetic basis of these
traits is necessary for the improvement of nutritional quality by breeding. Association mapping based on linkage disequilibrium
has emerged as a powerful strategy for identifying genes or quantitative trait loci (QTL) underlying complex traits in plants.
In this study, genome-wide association mapping using models controlling both population structure (Q) and relative kinship
(K) were performed to identify the marker loci/QTLs underlying the naturally occurring variations of grain color and nutritional
quality traits in 416 rice germplasm accessions including red and black rice. A total of 41 marker loci were identified for
all the traits, and it was confirmed that Ra (i.e., Prp-b for purple pericarp) and Rc (brown pericarp and seed coat) genes were main-effect loci for rice grain color and nutritional quality traits. RM228, RM339,
fgr (fragrance gene) and RM316 were important markers associated with most of the traits. Association mapping for the traits
of the 361 white or non-pigmented rice accessions (i.e., excluding the red and black rice) revealed a total of 11 markers
for four color parameters, and one marker (RM346) for phenolic content. Among them, Wx gene locus was identified for the color parameters of lightness (L*), redness (a*) and hue angle (H
o). Our study suggested that the markers identified in this study can feasibly be used to improve nutritional quality or health
benefit properties of rice by marker-assisted selection if the co-segregations of the marker–trait associations are validated
in segregating populations. 相似文献