Development of public immortal mapping populations, molecular markers and linkage maps for rapid cycling Brassica rapa and B. oleracea

Iñiguez-Luy, Federico L.; Lukens, Lewis; Farnham, Mark W.; Amasino, Richard M.; Osborn, Thomas C.

doi:10.1007/s00122-009-1157-4

Cited by 95 publications

(115 citation statements)

References 54 publications

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“…Many comparative genetic mapping studies between Brassica species and A. thaliana have highlighted the complexity of the Brassica genome with its extensive replicated nature, as well as frequent appearance of chromosomal rearrangements (Kim et al 2009, Parkin et al 2005, Suwabe et al 2006. In the present study, comparison of B. rapa map with A. thaliana using 147 UGMS and SSR markers loci revealed majority large syntenic regions showing consistency with previously reported syntenic regions (Choi et al 2007, Iniguez-Luy et al 2009, Kim et al 2009, Li et al 2009, Suwabe et al 2006. However, we could not detect all the previously reported conserved chromosomal segments in B. rapa genome due to the lack of molecular markers.…”

Section: Discussionsupporting

confidence: 91%

Development and linkage mapping of unigene-derived microsatellite markers in Brassica rapa L.

Ramchiary

Wang

et al. 2011

Breed. Sci.

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Brassica rapa plants are highly important as vegetables, sources of oilseeds and fodder crop. Here, we developed 450 unigene derived microsatellite (UGMS) markers in B. rapa using unigenes downloaded from the National Center for Biotechnology Information database. Of the 450 UGMS primer pairs, 428 (95.1%) produced repeatable and reliable amplifications of expected size in at least one parental line of B. rapa, and 70 UGMS markers gave 72 polymorphic loci between the two contrasting parental lines. Cross-species transferability analysis of these 70 polymorphic UGMS markers in five other cultivated Brassica species showed varying transferability rates ranging from 82.9% in B. nigra to 97.1% in B. juncea and B. napus, and overall 53 UGMS markers amplified targets in all five species. The B. rapa linkage map was constructed using the 72 UGMS polymorphic loci and 154 previously developed SSRs. The newly developed UGMS markers and linkage map in this study would help in future studies to better understand the organization and evolution of Brassica genomes with respect to unigenes, in addition to mapping, tagging and cloning of economically important trait QTL/gene(s) and marker-assisted breeding in Brassica crops.

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Section: Discussionsupporting

confidence: 91%

Development and linkage mapping of unigene-derived microsatellite markers in Brassica rapa L.

Ramchiary

Wang

et al. 2011

Breed. Sci.

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“…The map length of 1099.4 cM was similar to the map length, 1112, 1048, and 1197.9 cM of [22,28,35], respectively, and longer than the map lengths, 891.4, 320.5, 928.7 cM of [18,19,27], respectively. In our map, the average interval between markers was 6.1 cM, indicating that the length and marker distribution of our map were suitable for QTL analysis of Xcc resistance.…”

Section: N18(c8)mentioning

confidence: 55%

Comparison of Positions of QTLs Conferring Resistance to Xanthomonas campestris pv. campestris in Brassica oleracea

Tonu¹,

Doullah²,

Shimizu³

et al. 2013

AJPS

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Black rot, caused by Xanthomonas campestris pv. campestris (Xcc) is possibly the most important disease of Brassica worldwide. To compare chromosomal positions of Xcc resistance loci in Brassica oleracea between the present and published studies and to develop marker assisted selection (MAS) to resistance against Xcc race 1, we constructed a B. oleracea map, including pW, pX and BoCL markers that were closely linked to previously reported Xcc resistance QTLs. We also analyzed Xcc resistance QTLs by improving our previously reported map derived from the cross of a susceptible double-haploid line (GC P09) with a resistant double-haploid line (Reiho P01). In the nine linkage groups obtained (C1-C9), the major QTL, XccBo(Reiho)2, was derived from Reiho with a maximum LOD score (7.7) in C8. The QTL (LOD 4.4) located in C9, XccBo(GC)1 was derived from the susceptible GC. The other QTL (LOD 4.4), XccBo(Reiho)1, was found in C5. Based on common markers, it was possible to compare our finding Xcc resistance QTLs with the B. oleraceaXcc loci reported by previous authors; XccBo(Reiho)1 and XccBo(GC)1 may be identical to the Xcc resistance QTLs reported previously or a different member contained in the same resistance gene cluster. Our map includes public SSR markers linked to Xcc resistance genes that will promote pyramiding Xcc resistance genes in B. oleracea. The present study will also contribute to a better understanding of genetic control of Xcc resistance.

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“…Furthermore, the intensity of selection for integration/modularity may have varied in these parents (and between cultivars and wild genotypes in general), and this population of RILs is therefore of interest to investigate integration/modularity in B. rapa. To form the RILs, the two parents were crossed, the F1 generation was selfed, and the progeny were advanced by single seed descent to the S6 generation to form 150 RILs (Iniguez-Luy et al, 2009).…”

Section: Study Systemmentioning

confidence: 99%

“…The linkage map used in this study was described previously by Iniguez-Luy et al (2009) and is composed of 224 RFLP and microsatellite markers spanning 10 linkage groups, with an average marker density of 5.7 cM per marker. QTL mapping of genotypic estimates of each trait in each treatment was carried out using composite interval mapping as implemented in Windows QTL Cartographer ver.…”

Section: Qtl Mappingmentioning

confidence: 99%

The quantitative-genetic and QTL architecture of trait integration and modularity in Brassica rapa across simulated seasonal settings

Edwards

Weinig

2010

Heredity

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Within organisms, groups of traits with different functions are frequently modular, such that variation among modules is independent and variation within modules is tightly integrated, or correlated. Here, we investigated patterns of trait integration and modularity in Brassica rapa in response to three simulated seasonal temperature/photoperiod conditions. The goals of this research were to use trait correlations to understand patterns of trait integration and modularity within and among floral, vegetative and phenological traits of B. rapa in each of three treatments, to examine the QTL architecture underlying patterns of trait integration and modularity, and to quantify how variation in temperature and photoperiod affects the correlation structure and QTL architecture of traits. All floral organs of B. rapa were strongly correlated, and contrary to expectations, floral and vegetative traits were also correlated. Extensive QTL co-localization suggests that covariation of these traits is likely due to pleiotropy, although physically linked loci that independently affect individual traits cannot be ruled out. Across treatments, the structure of genotypic and QTL correlations was generally conserved. Any observed variation in genetic architecture arose from genotype Â environment interactions (GEIs) and attendant QTL Â E in response to temperature but not photoperiod.

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Development of public immortal mapping populations, molecular markers and linkage maps for rapid cycling Brassica rapa and B. oleracea

Cited by 95 publications

References 54 publications

Development and linkage mapping of unigene-derived microsatellite markers in Brassica rapa L.

Development and linkage mapping of unigene-derived microsatellite markers in Brassica rapa L.

Comparison of Positions of QTLs Conferring Resistance to <i>Xanthomonas campestris</i> pv. <i>campestris</i> in <i>Brassica oleracea</i>

The quantitative-genetic and QTL architecture of trait integration and modularity in Brassica rapa across simulated seasonal settings

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Development of public immortal mapping populations, molecular markers and linkage maps for rapid cycling Brassica rapa and B. oleracea

Cited by 95 publications

References 54 publications

Development and linkage mapping of unigene-derived microsatellite markers in Brassica rapa L.

Development and linkage mapping of unigene-derived microsatellite markers in Brassica rapa L.

Comparison of Positions of QTLs Conferring Resistance to &lt;i&gt;Xanthomonas campestris&lt;/i&gt; pv. &lt;i&gt;campestris&lt;/i&gt; in &lt;i&gt;Brassica oleracea&lt;/i&gt;

The quantitative-genetic and QTL architecture of trait integration and modularity in Brassica rapa across simulated seasonal settings

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Comparison of Positions of QTLs Conferring Resistance to <i>Xanthomonas campestris</i> pv. <i>campestris</i> in <i>Brassica oleracea</i>