C. Gessler scite author profile

A new set of 148 apple microsatellite markers has been developed and mapped on the apple reference linkage map Fiesta x Discovery. One-hundred and seventeen markers were developed from genomic libraries enriched with the repeats GA, GT, AAG, AAC and ATC; 31 were developed from EST sequences. Markers derived from sequences containing dinucleotide repeats were generally more polymorphic than sequences containing trinucleotide repeats. Additional eight SSRs from published apple, pear, and Sorbus torminalis SSRs, whose position on the apple genome was unknown, have also been mapped. The transferability of SSRs across Maloideae species resulted in being efficient with 41% of the markers successfully transferred. For all 156 SSRs, the primer sequences, repeat type, map position, and quality of the amplification products are reported. Also presented are allele sizes, ranges, and number of SSRs found in a set of nine cultivars. All this information and those of the previous CH-SSR series can be searched at the apple SSR database (http://www. hidras.unimi.it) to which updates and comments can be added. A large number of apple ESTs containing SSR repeats are available and should be used for the development of new apple SSRs. The apple SSR database is also meant to become an international platform for coordinating this effort. The increased coverage of the apple genome with SSRs allowed the selection of a set of 86 reliable, highly polymorphic, and overall the apple genome well-scattered SSRs. These SSRs cover about 85% of the genome with an average distance of one marker per 15 cM.

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Creating a saturated reference map for the apple (Malus × domestica Borkh.) genome

Liebhard

Koller²,

et al. 2003

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The availability of a high quality linkage map is essential for the detection and the analysis of quantitative traits. Such a map should cover a significant part of the genome, should be densely populated with markers, and in order to gain the maximum advantage should be transferable to populations or cultivars other than the ones on which it has been constructed. An apple genetic linkage map has been constructed on the basis of a segregating population of the cross between the cultivars Fiesta and Discovery. A total of 840 molecular markers, 475 AFLPs, 235 RAPDs, 129 SSRs and 1 SCAR, were used for the two parental maps constructed with JoinMap and spanning 1,140 cM and 1,450 cM, respectively. Large numbers of codominant markers, like SSRs, enable a rapid transfer of the map to other populations or cultivars, allowing the investigation of any chosen trait in another genetic background. This map is currently the most advanced linkage map in apple with regard to genome coverage and marker density. It represents an ideal starting point for future mapping projects in Malus since the stable and transferable SSR frame of the map can be saturated quickly with dominant AFLP markers.

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Simple sequence repeats for the genetic analysis of apple

Gianfranceschi¹,

Seglias²,

et al. 1998

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Bayesian QTL analyses using pedigreed families of an outcrossing species, with application to fruit firmness in apple

Bink

Jansen

Madduri³

et al. 2014

Theor Appl Genet

141

180

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Proof of concept of Bayesian integrated QTL analyses across pedigree-related families from breeding programs of an outbreeding species. Results include QTL confidence intervals, individuals' genotype probabilities and genomic breeding values. Bayesian QTL linkage mapping approaches offer the flexibility to study multiple full sib families with known pedigrees simultaneously. Such a joint analysis increases the probability of detecting these quantitative trait loci (QTL) and provide insight of the magnitude of QTL across different genetic backgrounds. Here, we present an improved Bayesian multi-QTL pedigree-based approach on an outcrossing species using progenies with different (complex) genetic relationships. Different modeling assumptions were studied in the QTL analyses, i.e., the a priori expected number of QTL varied and polygenic effects were considered. The inferences include number of QTL, additive QTL effect sizes and supporting credible intervals, posterior probabilities of QTL genotypes for all individuals in the dataset, and QTL-based as well as genome-wide breeding values. All these features have been implemented in the FlexQTL(™) software. We analyzed fruit firmness in a large apple dataset that comprised 1,347 individuals forming 27 full sib families and their known ancestral pedigrees, with genotypes for 87 SSR markers on 17 chromosomes. We report strong or positive evidence for 14 QTL for fruit firmness on eight chromosomes, validating our approach as several of these QTL were reported previously, though dispersed over a series of studies based on single mapping populations. Interpretation of linked QTL was possible via individuals' QTL genotypes. The correlation between the genomic breeding values and phenotypes was on average 90 %, but varied with the number of detected QTL in a family. The detailed posterior knowledge on QTL of potential parents is critical for the efficiency of marker-assisted breeding.

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Identification of Microsatellite Markers and Their Application to Population Genetics of Venturia inaequalis

Tenzer¹,

Ivanissevich²,

Morgante³

et al. 1999

Phytopathology®

143

140

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Microsatellite markers of Venturia inaequalis were developed using genomic libraries of V. inaequalis enriched for the simple sequence repeats (TC)(n) and (AAC)(n). Seven markers, three with (TC)(n) repeats and four with (AAC)(n) repeats, were selected for the analyses of 350 isolates of V. inaequalis collected from 11 sites in Europe. Polymorphism in the (TC)(n) repeats was higher than in the (AAC)(n) repeats. Nei's expected genetic diversity (H(E)) varied between 0.52 and 0.96 for the microsatellites containing (TC)(n) stretches and between 0.09 and 0.36 for the microsatellites containing (AAC)(n) stretches. Within-population diversity (H(S)) was very high with values ranging from 0.28 to 0.49, whereas differentiation among all European populations (G(ST)) was low with an average of 0.07. In the population from Ahrensburg (northern Germany) where isolates were mainly collected from apple varieties carrying the Vf gene, usually resistant to V. inaequalis, we showed a bottleneck effect with reduced diversity and loss of alleles. The great advantages of microsatellite markers over random amplified polymorphic DNA and polymerase chain reaction-restriction fragment length polymorphism markers are their high specificity, high polymorphism, good reproducibility, and unambiguous scorability.

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C. Gessler

Microsatellite markers spanning the apple (Malus x domestica Borkh.) genome

Creating a saturated reference map for the apple (Malus × domestica Borkh.) genome

Simple sequence repeats for the genetic analysis of apple

Bayesian QTL analyses using pedigreed families of an outcrossing species, with application to fruit firmness in apple

Identification of Microsatellite Markers and Their Application to Population Genetics of Venturia inaequalis

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