Linkage and association mapping of the LRP5 locus on chromosome 11q13 in type 1 diabetes
Rebecca C.J. TwellsCharles A. MeinFelicity PayneRiitta VeijolaMatthew GilbeyMatthew BrightAndrew E. TimmsYusuke NakagawaHywel SnookSarah NutlandHelen RancePhilippa CarrFrank DudbridgeHeather J. CordellJason D. CooperEva Tuomilehto‐WolfJaakko TuomilehtoMichael PhillipsMichael L. MetzkerJ. Fred HessJohn A. Todd
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Genetic linkage
Genetic Association
Microsatellites are tandem duplications with a simple motif of one to six bases as the repeat unit. Microsatellites provide an excellent opportunity for developing genetic markers of high utility because the number of repeats is highly polymorphic, and the assay to score microsatellite polymorphisms is quick and reliable because the procedure is based on the polymerase chain reaction (PCR). We have identified 404 microsatellite-containing clones of which 219 were suitable as microsatellite markers. Primers for 151 of these microsatellites were developed and used to detect polymorphisms in DNA samples extracted from the parents of two reference populations and three resource populations. Sixty, 39, 46, 49, and 61% of the microsatellites exhibited length polymorphisms in the East Lansing reference population, the Compton reference population, resource population No. 1 (developed to identify resistance genes to Marek's disease), resource population No. 2 (developed to identify genes involved in abdominal fat), and resource population No. 3 (developed to identify genes involved in production traits), respectively. The 91 microsatellites that were polymorphic in the East Lansing reference population were genotyped and 86 genetic markers were eventually mapped. In addition, 11 new random amplified polymorphic DNA (RAPD) markers and 24 new markers based on the chicken CR1 element were mapped. The addition of these markers increases the total number of markers on the East Lansing genetic map to 273, of which 243 markers are resolved into 32 linkage groups. The map coverage within linkage groups is 1,402 cM with an average spacing of 6.7 cM between loci. The utility of the genetic map is greatly enhanced by adding 86 microsatellite markers. Based on our current map, approximately 2,550 cM of the chicken genome is within 20 cM of at least one microsatellite marker.
Genetic linkage
Dinucleotide Repeat
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The technique of microsatellite marker is one of the genetic marker methods used in DNA analysis. Microsatellite markers are applied to the analysis of species genetic diversity, population genetic structure, and genomic mapping of fishes. These markers also are applied to classification, identification of parentage, conservation and breeding of fishes.
Identification
Genetic Analysis
Population Genetics
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Genetic linkage
Linkage (software)
Chromosome 20
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A 356-marker linkage map of Glycine max (L.) Merr. (2n = 20) was established by anchoring 106 RAPD markers to an existing RFLP map built with a large recombinant inbred line population (330 RILs). This map comprises 24 major and 11 minor linkage groups for this genome which is estimated to be approximately 3275 cM. The RAPD markers show similar distribution throughout the genome and identified similar levels of polymorphism as the RFLP markers used in the framework. By using a subset population to anchor the RAPD markers, it was possible to enhance the throughput of selecting and adding reliable marker loci to the existing map. The procedures to generate a dependable genetic linkage map are also described in this report.
Genetic linkage
Linkage (software)
Genetic linkage map
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Marker assays based on the polymerase chain reaction (PCR) offer a far more user-friendly marker system. PCR based techniques such as RAPDs are unreliable and generally not transferable between crosses. However, microsatellites (dior tri-nucleotide repeat sequences) also known as simple sequence repeats (SSRs) are highly reliable, co-dominant markers. Microsatellites are becoming more widely used for marker assisted breeding and variety identification due to their high level of polymorphism and ease of use.
Molecular marker
Identification
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Microsatellite polymorphisms are finding increasing use in genetics. The objectives of this study were 1) to enlarge the number of markers to contribute to a well-defined linkage map of the chicken genome; and 2) to create a preliminary linkage map only based on microsatellite markers. The need for microsatellite markers is high for performing a whole genome scan for the identification of quantitative trait loci. Seventy-seven newly developed microsatellite markers that were polymorphic on either one or both of the reference populations were mapped and in combination with all previously described markers, used to construct a preliminary linkage map of the chicken genome. The 128 microsatellite markers mapped thus far cover 23 of the 38 linkage groups of the East Lansing reference population. In the case of the Compton reference population, 20 linkage groups out of 40 are covered with microsatellite markers. No linkage was found in the East Lansing population with five markers, and in the case of the Compton population four markers were unlinked. About 42 and 32% of the East Lansing and Compton maps, respectively, were covered by the 128 microsatellite markers. The microsatellite markers are well dispersed among the various linkage groups and there was no evidence for clustering of the markers within the map. With the 38 markers that were mapped on both reference populations, 10 of the East Lansing linkage groups could be associated with 13 of the Compton linkage groups.
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We report detection of DNA polymorphisms in grapevine by the use of microsatellite-flanking primer pairs from soybean and rice. These “cross species” microsatellite-derived markers were checked for their inheritance patterns in controlled grapevine crosses. They produced multiple bands that segregated and can be scored as individual genetic markers of dominant type. Employed in genetic mapping studies they offer advantages such as improved reproducibility in comparison to commonly used multi-locus marker systems like RAPDs and AFLPs.
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Molecular marker
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Genetic linkage
Linkage (software)
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Genetic linkage
Linkage (software)
Identification
Genetic linkage map
Molecular marker
Marker-Assisted Selection
Molecular breeding
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Despite the great advances in genomic technology observed in several crop species, the availability of molecular tools such as microsatellite markers has been limited in melon (Cucumis melo L.) and cucurbit species. The development of microsatellite markers will have a major impact on genetic analysis and breeding of melon, especially on the generation of marker saturated genetic maps and implementation of marker assisted breeding programs. Genomic microsatellite enriched libraries can be an efficient alternative for marker development in such species. Seven hundred clones containing microsatellite sequences from a Tsp-AG/TC microsatellite enriched library were identified and one-hundred and forty-four primer pairs designed and synthesized. When 67 microsatellite markers were tested on a panel of melon and other cucurbit accessions, 65 revealed DNA polymorphisms among the melon accessions. For some cucurbit species, such as Cucumis sativus, up to 50% of the melon microsatellite markers could be readily used for DNA polymophism assessment, representing a significant reduction of marker development costs. A random sample of 25 microsatellite markers was extracted from the new microsatellite marker set and characterized on 40 accessions of melon, generating an allelic frequency database for the species. The average expected heterozygosity was 0.52, varying from 0.45 to 0.70, indicating that a small set of selected markers should be sufficient to solve questions regarding genotype identity and variety protection. Genetic distances based on microsatellite polymorphism were congruent with data obtained from RAPD marker analysis. Mapping analysis was initiated with 55 newly developed markers and most primers showed segregation according to Mendelian expectations. Linkage analysis detected linkage between 56% of the markers, distributed in nine linkage groups. Genomic library microsatellite enrichment is an efficient procedure for marker development in melon. One-hundred and forty-four new markers were developed from Tsp-AG/TC genomic library. This is the first reported attempt of successfully using enriched library for microsatellite marker development in the species. A sample of the microsatellite markers tested proved efficient for genetic analysis of melon, including genetic distance estimates and identity tests. Linkage analysis indicated that the markers developed are dispersed throughout the genome and should be very useful for genetic analysis of melon.
Cucumis
Melon
Molecular marker
Marker-Assisted Selection
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