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3. The apple REFPOP—a reference population for genomics-assisted breeding in apple

Author

Jung, Michaela, Roth, Morgane, Aranzana, Maria José, Auwerkerken, Annemarie, Bink, Marco, Denancé, Caroline, Dujak, Christian, Durel, Charles-Eric, Font i Forcada, Carolina, Cantin, Celia M., Guerra, Walter, Howard, Nicholas P., Keller, Beat, Lewandowski, Mariusz, Ordidge, Matthew, Rymenants, Marijn, Sanin, Nadia, Studer, Bruno, Zurawicz, Edward, Laurens, François, Patocchi, Andrea, and Muranty, Hélène

Published
2020
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7. Marker-assisted breeding (MAB) on apple and pear and new approaches for QTLs and major gene genotyping involved in disease resistance

Author

Petiteau, A., Denancé, Caroline, Muranty, Hélène, Durel, Charles-Eric, García-Gómez, Beatriz E., Aranzana, Maria José, Lebreton, F., Guérif, P., Cournol, M., Petit, B., Guyader, A., Laurens, François, Petiteau, A., Denancé, Caroline, Muranty, Hélène, Durel, Charles-Eric, García-Gómez, Beatriz E., Aranzana, Maria José, Lebreton, F., Guérif, P., Cournol, M., Petit, B., Guyader, A., and Laurens, François

Abstract

Apple and pear breeding is a long process that can take more than 20 years. Considering the future challenges of fruit tree growing in a climate change scenario (high fruit quality and regular production), improving breeding program efficiency is essential. A good strategy to increase breeding program efficiency is the development of SNP-type molecular markers and their application in marker-assisted breeding (MAB). Several tools such as the Illumina 20K chip and the Affymetrix-Axiom 480K (apple-fruit) and 70K (pear) chips have been developed to map SNP markers on the respective genomes. However, the practical use of molecular markers by breeders is still disconnected from academic knowledge. To overcome this gap, we selected several SNP-type molecular markers in apple and pear, and assayed and validated them in apple and pear breeding programs. After an evaluation of their benefits and limitations, they were applied in the progenitor and elite genotype selections to increase the efficiency of the breeding process. To do so, published SNP-type molecular markers associated with major genes in apple and developed new markers linked to QTLs involved in disease resistance in pear were assayed and validated. This set of validated molecular markers is now routinely applied as MAB in our breeding programs. In this paper, we present two different methodologies for searching and validating SNP-type molecular markers, discuss the uses and limitations of these markers within apple and pear breeding programs and propose some strategies to improve their breeding efficiency.

Published
2023

8. An integrated approach for increasing breeding efficiency in apple and peach in Europe

Author

Laurens, Francois, Aranzana, Maria José, Arus, Pere, Bassi, Daniele, Bink, Marco, Bonany, Joan, Caprera, Andrea, Corelli-Grappadelli, Luca, Costes, Evelyne, Durel, Charles-Eric, Mauroux, Jehan-Baptiste, Muranty, Hélène, Nazzicari, Nelson, Pascal, Thierry, Patocchi, Andrea, Peil, Andreas, Quilot-Turion, Bénédicte, Rossini, Laura, Stella, Alessandra, Troggio, Michela, Velasco, Riccardo, and van de Weg, Eric

Published
2018
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10. Genetic architecture and genomic predictive ability of apple quantitative traits across environments

Author

European Commission, Generalitat de Catalunya, Ministerio de Economía y Competitividad (España), Jung, Michaela, Keller, Beat, Roth, Morgane, Aranzana, Maria José, Auwerkerken, Annemarie, Guerra, Walter, Al-Rifaï, Mehdi, Lewandowski, Mariusz, Sanin, Nadia, Rymenants, Marijn, Didelot, Frédérique, Dujak, Christian, Font i Forcada, Carolina, Knauf, Andrea, Laurens, François, Studer, Bruno, Muranty, Hélène, Patocchi, Andrea, European Commission, Generalitat de Catalunya, Ministerio de Economía y Competitividad (España), Jung, Michaela, Keller, Beat, Roth, Morgane, Aranzana, Maria José, Auwerkerken, Annemarie, Guerra, Walter, Al-Rifaï, Mehdi, Lewandowski, Mariusz, Sanin, Nadia, Rymenants, Marijn, Didelot, Frédérique, Dujak, Christian, Font i Forcada, Carolina, Knauf, Andrea, Laurens, François, Studer, Bruno, Muranty, Hélène, and Patocchi, Andrea

Abstract

Implementation of genomic tools is desirable to increase the efficiency of apple breeding. Recently, the multi-environment apple reference population (apple REFPOP) proved useful for rediscovering loci, estimating genomic predictive ability, and studying genotype by environment interactions (G × E). So far, only two phenological traits were investigated using the apple REFPOP, although the population may be valuable when dissecting genetic architecture and reporting predictive abilities for additional key traits in apple breeding. Here we show contrasting genetic architecture and genomic predictive abilities for 30 quantitative traits across up to six European locations using the apple REFPOP. A total of 59 stable and 277 location-specific associations were found using GWAS, 69.2% of which are novel when compared with 41 reviewed publications. Average genomic predictive abilities of 0.18-0.88 were estimated using main-effect univariate, main-effect multivariate, multi-environment univariate, and multi-environment multivariate models. The G × E accounted for up to 24% of the phenotypic variability. This most comprehensive genomic study in apple in terms of trait-environment combinations provided knowledge of trait biology and prediction models that can be readily applied for marker-assisted or genomic selection, thus facilitating increased breeding efficiency.

Published
2022

14. Genetic architecture and genomic predictive ability of apple quantitative traits across environments

Author

Jung, Michaela, primary, Keller, Beat, additional, Roth, Morgane, additional, Aranzana, Maria José, additional, Auwerkerken, Annemarie, additional, Guerra, Walter, additional, Al-Rifaï, Mehdi, additional, Lewandowski, Mariusz, additional, Sanin, Nadia, additional, Rymenants, Marijn, additional, Didelot, Frédérique, additional, Dujak, Christian, additional, Font i Forcada, Carolina, additional, Knauf, Andrea, additional, Laurens, François, additional, Studer, Bruno, additional, Muranty, Hélène, additional, and Patocchi, Andrea, additional

Published
2022
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15. Development and validation of the Axiom®Apple480K SNP genotyping array

Author

Bianco, Luca, Cestaro, Alessandro, Linsmith, Gareth, Muranty, Hélène, Denancé, Caroline, Théron, Anthony, Poncet, Charles, Micheletti, Diego, Kerschbamer, Emanuela, Di Pierro, Erica A., Larger, Simone, Pindo, Massimo, Van de Weg, Eric, Davassi, Alessandro, Laurens, François, Velasco, Riccardo, Durel, Charles-Eric, and Troggio, Michela

Published
2016
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16. Pedigree reconstruction for triploid apple cultivars using single nucleotide polymorphism array data.

Author

Howard, Nicholas P., Micheletti, Diego, Luby, James J., Durel, Charles‐Eric, Denancé, Caroline, Muranty, Hélène, Ordidge, Matthew, and Albach, Dirk C.

Subjects
SINGLE nucleotide polymorphisms, APPLE growing, APPLES, CULTIVARS, GENEALOGY
Abstract

Societal Impact Statement: Many economically, culturally, and historically important apple cultivars are triploids, which have three copies of each chromosome instead of the more typical two copies in diploids. Despite their prevalence and importance, there have been conflicting reports regarding their origin and their ability to beget diploids. New genetic analysis methodologies outlined in this study have clarified the genetic origin of triploid apple cultivars and suggest that triploidy has been a dead end in historic apple pedigrees. The specific results of this study have resolved the pedigrees of many cultivars, including the famous English cultivar Cox's Orange Pippin and the oldest known US cultivar Roxbury Russet. Summary: In apple (Malus × domestica), most cultivars are diploid, though a sizeable number are triploids, which tend to be stronger growing, more robust, and bear larger fruit. However, triploidy is also associated with strongly reduced fertility. Some recorded pedigrees for historical apple cultivars include triploids as parents of diploids, despite this reputation of poor fertility. This information, coupled with some initiatives using triploids in breeding efforts, result in confusion about how possible or common it is for triploids to be parents of diploid offspring. To date, no studies have systematically evaluated and identified pedigrees of triploid apple cultivars to resolve these contradictions.Here, we describe a method to make triploid genotype calls using Illumina Infinium single nucleotide polymorphism (SNP) array data through a novel Python script: ploidyClassifier. SNP data for 219 unique triploids was compared alongside 2498 unique diploid apple accessions to conduct pedigree reconstruction.Unreduced gamete‐donating parents were identified for over half of the triploid accessions. From those, reduced gamete‐donating parents were identified for nearly half. Full or partial pedigrees for many classic triploids were uncovered, including that of the oldest known American cultivar, 'Roxbury Russet'. All tested pedigrees from literature that listed triploids as parents of diploids were deemed false, including that of the well‐known 'Cox's Orange Pippin', whose previously unreported second parent was also identified here as 'Rosemary Russet'.These results together suggest that historic triploids are mostly or solely the product of diploid parentage and that triploidy has been a dead end in historic apple pedigrees. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Genetic architecture and genomic prediction accuracy of apple quantitative traits across environments

Author

Jung, Michaela, primary, Keller, Beat, additional, Roth, Morgane, additional, Aranzana, Maria José, additional, Auwerkerken, Annemarie, additional, Guerra, Walter, additional, Al-Rifaï, Mehdi, additional, Lewandowski, Mariusz, additional, Sanin, Nadia, additional, Rymenants, Marijn, additional, Didelot, Frédérique, additional, Dujak, Christian, additional, Font i Forcada, Carolina, additional, Knauf, Andrea, additional, Laurens, François, additional, Studer, Bruno, additional, Muranty, Hélène, additional, and Patocchi, Andrea, additional

Published
2021
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22. Apple FBo-Hi elite material mid-density genotypic data

Author

Howard, Nicholas P., van de Weg, Eric, Troggio, Michela, Muranty, Hélène, Howard, Nicholas P., van de Weg, Eric, Troggio, Michela, and Muranty, Hélène

Abstract

This dataset corresponds to the genotypic data used for the elite material in the FBo-Hi panel used by Cazenave et al (2021) "Combining genetic resources and elite material populations to improve the accuracy of genomic prediction in apple" G3: Genes, Genomes, Genetics. The dataset was obtained using the 20K apple SNP array (Bianco et al, 2014). These data were obtained in the frame of the EU seventh Framework Programme project FruitBreedomics: Integrated Approach for increasing breeding efficiency in fruit tree crops (http://www.fruitbreedomics.com/).

Published
2021

23. Genome-wide association study based on highthroughput phenotyping reveals genomic regions invovlved in the control of architectural and physiological traits in Apple tree

Author

Costes, Evelyne, COUPEL-LEDRU, Aude, Pallas, Benoit, Delalande, Magalie, GUITTON, Baptiste, Segura, Vincent, Boudon, Frédéric, Muranty, Hélène, Durel, Charles-Eric, Regnard, Jean-Luc, Institut de Recherche en Horticulture et Semences (IRHS), Université d'Angers (UA)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Amélioration génétique et adaptation des plantes méditerranéennes et tropicales (UMR AGAP), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Département Systèmes Biologiques (Cirad-BIOS), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), and Centre for Research in Agriculture Genomics (CRAG)

Subjects
[SDV.GEN.GPL]Life Sciences [q-bio]/Genetics/Plants genetics, Genomics of dormancy, Architecture and other traits, Genomics of biotic, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Abiotic stress, [SDV.SA.HORT]Life Sciences [q-bio]/Agricultural sciences/Horticulture
Abstract

International audience; Genotypic variations in fruit tree architectural and functional traits have been reported but their genetic bases and the existence of common geneticdeterminants have rarely been investigated in wide genetic diversity. We made use of innovative in-eld high-throughput phenotyping on anassociation panel of 241 genotypes to quantify architectural and functional traits on 4-years old apple trees. T-Lidar technology was used for estimatingarchitectural traits (number of branches, tree height, STAR…), airborne thermal and multispectral imagery for assessing canopy temperature (a proxyof transpiration rate) and vegetation indices (NDVI, MCARI2, GNDVI). This dataset was complemented with yield-related traits (number of fruits, averagefruit weight). We explored genome wide associations on 16 traits with high density (275K) genotypic data. GWAS was run with a multi-locus mixedmodel using genetic kinship matrix and assuming different thresholds for SNP signicance: (i) the Bonferroni correction (Bonfth, -logpval > 6.7), (ii) acorrection based on an estimated number of independent SNPs (Bonfcor, -logpval > 5.7) and (iii) value based on common practices (-logpval = 5).Signicant SNPs with -logpval > 5 were detected for most traits with a number of them displaying -logpval above Bonfcor and above Bonfth. One to foursignicant SNPs were identied by variable with a proportion of variance explained by each SNP ranging from 6% to 14% and the total proportion ofvariance explained by all signicant SNPs exceeding up to 30% for the number of branches, STAR, MCARI2, number of fruit and crop load. SNPscontrolling different traits were detected on LG9 (height, STAR, volume) and LG13 (volume, MCARI2, NDVI, GNDVI). Analyses of the LD between SNPsallowed determining possible colocations within regions. Notably, some signicant SNPs were localized in genomic regions previously reported as QTLsfor similar traits in bi-parental population. This suggests their robustness and encourages further investigations.

Published
2020

24. Exploiting favourable alleles in Apple genetic resources using genomic selection

Author

Cazenave, Xabi, Durel, Charles-Eric, Muranty, Hélène, Institut de Recherche en Horticulture et Semences (IRHS), Université d'Angers (UA)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), and Centre for Research in Agriculture Genomics (CRAG)

Subjects
[SDV.GEN.GPL]Life Sciences [q-bio]/Genetics/Plants genetics, new breeding tools, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], genomics-informed breeding, [SDV.SA.HORT]Life Sciences [q-bio]/Agricultural sciences/Horticulture
Abstract

International audience; Although more than 10.000 apple cultivars have been documented worldwide, modern commercial apple production is dominated by only a fewcultivars. Broadening the genetic diversity used in breeding programs thus appears as a necessity in order to reduce the vulnerability resulting fromgenetic uniformity. In this context, the identication of genetic resources that contain favourable alleles absent or rare in elite material is of primaryimportance for breeders. Harnessing this genetic diversity will probably require several generations of crosses starting from genetic resources, so thatparents carrying the identied favourable alleles are ready to be used in breeding programs. In order to effciently transfer these alleles, we propose touse genomic selection, a breeding approach that aims to estimate the breeding value of selection candidates using only genetic markers information.To do so, apple genetic resources (i.e. old varieties), elite material and hybrids between them have been genotyped and phenotyped so that predictionequations can be developed in order to evaluate the potential of genetic resources. As a preliminary step, these equations were built using data fromeither elite material or genetic resources and prediction accuracies were assessed and compared. To further improve the choice of the individuals usedto build the model, various optimisation algorithms were also used before estimating these accuracies. Given the differences in allele frequencies andlinkage disequilibrium patterns between the two datasets, the predictive ability of these models is expected to differ. One way to account for the differences is to combine these datasets and to use models that allow the estimation of population-specic effects. We will discuss the assets of suchan approach and how it could be effective to evaluate selection candidates. The obtained results should help us identify breeding strategies intendedto effciently transfer interesting alleles from genetic resources into elite material.

Published
2020

25. The apple refpop ? A multi-environment reference population for genomics-assisted breeding in apple

Author

Jung, Michaela, Roth, Morgane, Aranzana, Maria Jose, Auwerkerken, Annemarie, Bink, Marco, Denancé, Caroline, Dujak, Christian, Durel, Charles-Eric, Guerra, Walter, Howard, Nicholas P., Lewandowski, Mariusz, Ordidge, Matthew, Rymenants, Marijn, Studer, Bruno, Zurawicz, Edward, Laurens, Francois, Patocchi, Andrea, Muranty, Hélène, Molecular Plant Breeding, Institute of Agricultural Sciences, ETH Zurich, Agroscope Changins-Wädenswil Research Station ACW, Agroscope, Centre de Recerca en Economia i Desenvolupament Agroalimentaris (CREDA -UPC - IRTA), Institute of Agrifood Research and Technology (IRTA), Better3Fruit N.V., Partenaires INRAE, Biometris, Wageningen University and Research, Institut de Recherche en Horticulture et Semences (IRHS), Université d'Angers (UA)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Consorci CSIC-IRTA-UAB-UB, Center for Research in Agricultural Genomics, Research Centre Laimburg, University of Minnesota, St Paul, MN United States, Research Institute of Horticulture, School of Agriculture, Policy and Development, University of Reading, and Centre for Research in Agriculture Genomics (CRAG)

Subjects
[SDV.GEN.GPL]Life Sciences [q-bio]/Genetics/Plants genetics, Genomics-informed breeding, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], fungi, New breeding tools, [SDV.SA.HORT]Life Sciences [q-bio]/Agricultural sciences/Horticulture
Abstract

Resumen del trabajo presentado a la 10th Rosaceae Genomics Conference (RGC), celebrada de forma virtual del 9 al 11 de diciembre de 2020.

Published
2020

26. MOESM9 of Using whole-genome SNP data to reconstruct a large multi-generation pedigree in apple germplasm

Author

Muranty, Hélène, Denancé, Caroline, Feugey, Laurence, Crépin, Jean-Luc, Barbier, Yves, Tartarini, Stefano, Ordidge, Matthew, Troggio, Michela, Lateur, Marc, Nybom, Hilde, Frantisek Paprstein, Laurens, François, and Charles-Eric Durel

Abstract

Additional file 9: Figure S1. Pedigrees linking the founder ‘Calville Rouge’ to all its offspring, over three generations. Cultivar names are in their short version (see Additional file 1: Table 1). The coloring of the name bars indicates the level of information known for the individual(s) in the pedigree: blue, individuals with both parents known; cream, individuals with one parent known; orange, unknown individual with both parents known; dark green, founders. Relationships are represented by black lines as the mother and the father cannot be identified with our data. The figure was drawn using data extracted from Additional file 8 and the Pedimap software [57]

Published
2020
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27. The apple REFPOP—a reference population for genomics-assisted breeding in apple

Author

European Commission, Generalitat de Catalunya, Ministerio de Economía y Competitividad (España), Jung, Michaela, Roth, Morgane, Aranzana, Maria José, Auwerkerken, Annemarie, Bink, Marco, Denancé, Caroline, Dujak, Christian, Durel, Charles-Eric, Font i Forcada, Carolina, Cantín, Celia M., Guerra, Walter, Howard, Nicholas P., Keller, Beat, Lewandowski, Mariusz, Ordidge, Matthew, Rymenants, Marijn, Sanin, Nadia, Studer, Bruno, Zurawicz, Edward, Laurens, François, Patocchi, Andrea, Muranty, Hélène, European Commission, Generalitat de Catalunya, Ministerio de Economía y Competitividad (España), Jung, Michaela, Roth, Morgane, Aranzana, Maria José, Auwerkerken, Annemarie, Bink, Marco, Denancé, Caroline, Dujak, Christian, Durel, Charles-Eric, Font i Forcada, Carolina, Cantín, Celia M., Guerra, Walter, Howard, Nicholas P., Keller, Beat, Lewandowski, Mariusz, Ordidge, Matthew, Rymenants, Marijn, Sanin, Nadia, Studer, Bruno, Zurawicz, Edward, Laurens, François, Patocchi, Andrea, and Muranty, Hélène

Abstract

Breeding of apple is a long-term and costly process due to the time and space requirements for screening selection candidates. Genomics-assisted breeding utilizes genomic and phenotypic information to increase the selection efficiency in breeding programs, and measurements of phenotypes in different environments can facilitate the application of the approach under various climatic conditions. Here we present an apple reference population: the apple REFPOP, a large collection formed of 534 genotypes planted in six European countries, as a unique tool to accelerate apple breeding. The population consisted of 269 accessions and 265 progeny from 27 parental combinations, representing the diversity in cultivated apple and current European breeding material, respectively. A high-density genome-wide dataset of 303,239 SNPs was produced as a combined output of two SNP arrays of different densities using marker imputation with an imputation accuracy of 0.95. Based on the genotypic data, linkage disequilibrium was low and population structure was weak. Two well-studied phenological traits of horticultural importance were measured. We found marker–trait associations in several previously identified genomic regions and maximum predictive abilities of 0.57 and 0.75 for floral emergence and harvest date, respectively. With decreasing SNP density, the detection of significant marker–trait associations varied depending on trait architecture. Regardless of the trait, 10,000 SNPs sufficed to maximize genomic prediction ability. We confirm the suitability of the apple REFPOP design for genomics-assisted breeding, especially for breeding programs using related germplasm, and emphasize the advantages of a coordinated and multinational effort for customizing apple breeding methods in the genomics era.

Published
2020

29. Tracing the color: quantitative trait loci analysis reveals new insights into red-flesh pigmentation in apple (Malus domestica)

Author

Bouillon, Pierre, Fanciullino, Anne-Laure, Belin, Etienne, Hanteville, Sylvain, Muranty, Hélène, Bernard, Frédéric, and Celton, Jean-Marc

Abstract

Red-flesh color development in apple fruit is known to depend upon a particular allele of the MdMYB10 gene. While the anthocyanin metabolic pathway is well characterized, current genetic models do not explain the observed variations in red-flesh pigmentation intensity. Previous studies focused on total anthocyanin content as a phenotypic trait to characterize overall flesh color. While this approach led to a global understanding of the genetic mechanisms involved in color expression, it is essential to adopt a more quantitative approach, by analyzing the variations of other phenolic compound classes, in order to better understand the molecular mechanisms involved in the subtle flesh color variation and distribution. In this study, we performed pedigree-based quantitative trait loci (QTL) mapping, using the FlexQTL™ software, to decipher the genetic determinism of red-flesh color in five F1 inter-connected families segregating for the red-flesh trait. A total of 452 genotypes were evaluated for flesh color and phenolic profiles during 3 years (2021–2023). We identified a total of 24 QTLs for flesh color intensity and phenolic compound profiles. Six QTLs were detected for red-flesh color on LG1, LG2, LG8, LG9, LG11, and LG16. Several genes identified in QTL confidence intervals were related to anthocyanin metabolism. Further analyses allowed us to propose a model in which the competition between anthocyanins and flavan-3-ols (monomer and oligomer) end-products is decisive for red-flesh color development. In this model, alleles favorable to high red-flesh color intensity can be inherited from both white-flesh and red-flesh parents.

Published
2024
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30. An integrated approach for increasing breeding efficiency in apple and peach in Europe

Author

Laurens, Francois, Aranzana, Maria José, Arús i Gorina, Pere, Bassi, Daniele, Bink, Marco, Bonany, Joan, Caprera, Andrea, Corelli-Grappadelli, Luca, Costes, Evelyne, Durel, Charles-Eric, Mauroux, Jehan-Baptiste, Muranty, Hélène, Nazzicari, Nelson, Pascal, Thierry, Patocchi, Andrea, Peil, Andreas, Quilot-Turion, Bénédicte, Rossini, Laura, Stella, Alessandra, Troggio, Michela, Velasco, Riccardo, van de Weg, Eric, Producció Vegetal, Genòmica i Biotecnologia, Institut de Recherche en Horticulture et Semences (IRHS), AGROCAMPUS OUEST-Institut National de la Recherche Agronomique (INRA)-Université d'Angers (UA), CSIC-IRTA Consorci CSIC-IRTA de Genetica Molecular Vegetal, Consorci CSIC-IRTA de Genetica Molecular Vegetal, Université d'Angers (UA)-Institut National de la Recherche Agronomique (INRA)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), European Project: 265582,EC:FP7:KBBE,FP7-KBBE-2010-4,FRUIT BREEDOMICS(2011), European Commission, Laurens, Francois, Aranzana, Maria José, Arus, Pere, Bassi, Daniele, Bink, Marco, Bonany, Joan, Caprera, Andrea, Corelli-Grappadelli, Luca, Costes, Evelyne, Durel, Charles-Eric, Mauroux, Jehan-Baptiste, Muranty, Hélène, Nazzicari, Nelson, Pascal, Thierry, Patocchi, Andrea, Peil, Andrea, Quilot-Turion, Bénédicte, Rossini, Laura, Stella, Alessandra, Troggio, Michela, Velasco, Riccardo, and Van De Weg, Eric

Subjects
pommier, approche intégrée, Plant Science, Review Article, Horticulture, Biochemistry, PBR Biodiversiteit en Genetische Variatie, pêcher, Genetic, lcsh:Botany, Life Science, genetics, analyse génomique, lcsh:QH301-705.5, bioinformatique, peach genomics, base de données, Vegetal Biology, apple genomics, PE&RC, lcsh:QK1-989, Agricultural sciences, Settore AGR/07 - GENETICA AGRARIA, [SDV.BV.AP]Life Sciences [q-bio]/Vegetal Biology/Plant breeding, lcsh:Biology (General), breeding, EPS, europe, 633 - Cultius i produccions, PBR Biodiversity and genetic variation, Biologie végétale, Sciences agricoles, amélioration des plantes, Biotechnology
Abstract

Despite the availability of whole genome sequences of apple and peach, there has been a considerable gap between genomics and breeding. To bridge the gap, the European Union funded the FruitBreedomics project (March 2011 to August 2015) involving 28 research institutes and private companies. Three complementary approaches were pursued: (i) tool and software development, (ii) deciphering genetic control of main horticultural traits taking into account allelic diversity and (iii) developing plant materials, tools and methodologies for breeders. Decisive breakthroughs were made including the making available of ready-to-go DNA diagnostic tests for Marker Assisted Breeding, development of new, dense SNP arrays in apple and peach, new phenotypic methods for some complex traits, software for gene/QTL discovery on breeding germplasm via Pedigree Based Analysis (PBA). This resulted in the discovery of highly predictive molecular markers for traits of horticultural interest via PBA and via Genome Wide Association Studies (GWAS) on several European genebank collections. FruitBreedomics also developed pre-breeding plant materials in which multiple sources of resistance were pyramided and software that can support breeders in their selection activities. Through FruitBreedomics, significant progresses were made in the field of apple and peach breeding, genetics, genomics and bioinformatics of which advantage will be made by breeders, germplasm curators and scientists. A major part of the data collected during the project has been stored in the FruitBreedomics database and has been made available to the public. This review covers the scientific discoveries made in this major endeavour, and perspective in the apple and peach breeding and genomics in Europe and beyond., This work has been funded under the EU seventh Framework Programme by the FruitBreedomics project No. 265582: Integrated Approach for increasing breeding efficiency in fruit tree crops (http://www.fruitbreedomics.com/).

Published
2017
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34. An integrated approach for increasing breeding efficiency in apple and peach in Europe

Author

European Commission, Laurens, François, Aranzana, Maria José, Arús, Pere, Bassi, Daniele, Bink, Marco, Bonany, Joan, Caprera, Andrea, Corelli-Grappadelli, Luca, Costes, Evelyne, Durel, Charles-Eric, Mauroux, Jehan-Baptiste, Muranty, Hélène, Nazzicari, Nelson, Pascal, Thierry, Patocchi, Andrea, Peil, Andreas, Quilot-Turion, Benedicte, Rossini, Laura, Stella, Alessandra, Troggio, Michela, Velasco, Riccardo, Weg, Eric van de, European Commission, Laurens, François, Aranzana, Maria José, Arús, Pere, Bassi, Daniele, Bink, Marco, Bonany, Joan, Caprera, Andrea, Corelli-Grappadelli, Luca, Costes, Evelyne, Durel, Charles-Eric, Mauroux, Jehan-Baptiste, Muranty, Hélène, Nazzicari, Nelson, Pascal, Thierry, Patocchi, Andrea, Peil, Andreas, Quilot-Turion, Benedicte, Rossini, Laura, Stella, Alessandra, Troggio, Michela, Velasco, Riccardo, and Weg, Eric van de

Abstract

Despite the availability of whole genome sequences of apple and peach, there has been a considerable gap between genomics and breeding. To bridge the gap, the European Union funded the FruitBreedomics project (March 2011 to August 2015) involving 28 research institutes and private companies. Three complementary approaches were pursued: (i) tool and software development, (ii) deciphering genetic control of main horticultural traits taking into account allelic diversity and (iii) developing plant materials, tools and methodologies for breeders. Decisive breakthroughs were made including the making available of ready-to-go DNA diagnostic tests for Marker Assisted Breeding, development of new, dense SNP arrays in apple and peach, new phenotypic methods for some complex traits, software for gene/QTL discovery on breeding germplasm via Pedigree Based Analysis (PBA). This resulted in the discovery of highly predictive molecular markers for traits of horticultural interest via PBA and via Genome Wide Association Studies (GWAS) on several European genebank collections. FruitBreedomics also developed pre-breeding plant materials in which multiple sources of resistance were pyramided and software that can support breeders in their selection activities. Through FruitBreedomics, significant progresses were made in the field of apple and peach breeding, genetics, genomics and bioinformatics of which advantage will be made by breeders, germplasm curators and scientists. A major part of the data collected during the project has been stored in the FruitBreedomics database and has been made available to the public. This review covers the scientific discoveries made in this major endeavour, and perspective in the apple and peach breeding and genomics in Europe and beyond.

Published
2018

35. Genome-Wide Association Mapping of Flowering and Ripening Periods in Apple

Author

Leforestier, Diane, Ravon, Elisa, Muranty, Hélène, Cornille, Amandine, Lemaire, Christophe, Giraud, Tatiana, Durel, Charles-Eric, Branca, Antoine, Institut de Recherche en Horticulture et Semences (IRHS), Université d'Angers (UA)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Ecologie Systématique et Evolution (ESE), Centre National de la Recherche Scientifique (CNRS)-AgroParisTech-Université Paris-Sud - Paris 11 (UP11), EU seventh Framework Programme by FruitBreedomics project: Integrated Approach for increasing breeding efficiency in fruit tree crops, and N°265582 (grant)

Subjects
Malus x domestica Borkh, association genetics, [SDV.BV.AP]Life Sciences [q-bio]/Vegetal Biology/Plant breeding, adaptive traits, germplasm collection, fungi, quantitative trait loci, GWAS, microsynteny, SNP
Abstract

International audience; Deciphering the genetic control of flowering and ripening periods in apple is essential for breeding cultivars adapted to their growing environments. We implemented a large Genome-Wide Association Study (GWAS) at the European level using an association panel of 1,168 different apple genotypes distributed over six locations and phenotyped for these phenological traits. The panel was genotyped at a high-density of SNPs using the Axiom®Apple 480 K SNP array. We ran GWAS with a multi-locus mixed model (MLMM), which handles the putatively confounding effect of significant SNPs elsewhere on the genome. Genomic regions were further investigated to reveal candidate genes responsible for the phenotypic variation. At the whole population level, GWAS retained two SNPs as cofactors on chromosome 9 for flowering period, and six for ripening period (four on chromosome 3, one on chromosome 10 and one on chromosome 16) which, together accounted for 8.9 and 17.2% of the phenotypic variance, respectively. For both traits, SNPs in weak linkage disequilibrium were detected nearby, thus suggesting the existence of allelic heterogeneity. The geographic origins and relationships of apple cultivars accounted for large parts of the phenotypic variation. Variation in genotypic frequency of the SNPs associated with the two traits was connected to the geographic origin of the genotypes (grouped as North+East, West and South Europe), and indicated differential selection in different growing environments. Genes encoding transcription factors containing either NAC or MADS domains were identified as major candidates within the small confidence intervals computed for the associated genomic regions. A strong microsynteny between apple and peach was revealed in all the four confidence interval regions. This study shows how association genetics can unravel the genetic control of important horticultural traits in apple, as well as reduce the confidence intervals of the associated regions identified by linkage mapping approaches. Our findings can be used for the improvement of apple through marker-assisted breeding strategies that take advantage of the accumulating additive effects of the identified SNPs.

Published
2017
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36. High-quality de novo assembly of the apple genome and methylome dynamics of early fruit development

Author

Daccord, Nicolas, Celton, Jean-Marc, Linsmith, Gareth, Becker, Claude, Choisne, Nathalie, Schijlen, Elio, van de Geest, Henri, Bianco, Luca, Micheletti, Diego, Velasco, Riccardo, Di Pierro, Erica Adele, Gouzy, Jérôme, Rees, D.J.G., Guérif, Philippe, Muranty, Hélène, Durel, Charles Eric, Laurens, François, Lespinasse, Yves, Gaillard, Sylvain, Aubourg, Sébastien, Quesneville, Hadi, Weigel, Detlef, van de Weg, Eric, Troggio, Michela, Bucher, Etienne, Daccord, Nicolas, Celton, Jean-Marc, Linsmith, Gareth, Becker, Claude, Choisne, Nathalie, Schijlen, Elio, van de Geest, Henri, Bianco, Luca, Micheletti, Diego, Velasco, Riccardo, Di Pierro, Erica Adele, Gouzy, Jérôme, Rees, D.J.G., Guérif, Philippe, Muranty, Hélène, Durel, Charles Eric, Laurens, François, Lespinasse, Yves, Gaillard, Sylvain, Aubourg, Sébastien, Quesneville, Hadi, Weigel, Detlef, van de Weg, Eric, Troggio, Michela, and Bucher, Etienne

Abstract

Using the latest sequencing and optical mapping technologies, we have produced a high-quality de novo assembly of the apple (Malus domestica Borkh.) genome. Repeat sequences, which represented over half of the assembly, provided an unprecedented opportunity to investigate the uncharacterized regions of a tree genome; we identified a new hyper-repetitive retrotransposon sequence that was over-represented in heterochromatic regions and estimated that a major burst of different transposable elements (TEs) occurred 21 million years ago. Notably, the timing of this TE burst coincided with the uplift of the Tian Shan mountains, which is thought to be the center of the location where the apple originated, suggesting that TEs and associated processes may have contributed to the diversification of the apple ancestor and possibly to its divergence from pear. Finally, genome-wide DNA methylation data suggest that epigenetic marks may contribute to agronomically relevant aspects, such as apple fruit development.

Published
2017

37. Genome-wide association mapping of flowering and ripening periods in apple

Author

Urrestarazu, Jorge, Muranty, Hélène, Denancé, Caroline, Leforestier, Diane, Ravon, Elisa, Guyader, Arnaud, Guisnel, Rémi, Feugey, Laurence, Aubourg, Sébastien, Celton, Jean Marc, Daccord, Nicolas, Dondini, Luca, Gregori, Roberto, Lateur, Marc, Houben, Patrick, Ordidge, Matthew, Paprstein, Frantisek, Sedlak, Jiri, Nybom, Hilde, Garkava-Gustavsson, Larisa, Troggio, Michela, Bianco, Luca, Velasco, Riccardo, Poncet, Charles, Théron, Anthony, Moriya, Shigeki, Bink, Marco C.A.M., Laurens, François, Tartarini, Stefano, Durel, Charles Eric, Urrestarazu, Jorge, Muranty, Hélène, Denancé, Caroline, Leforestier, Diane, Ravon, Elisa, Guyader, Arnaud, Guisnel, Rémi, Feugey, Laurence, Aubourg, Sébastien, Celton, Jean Marc, Daccord, Nicolas, Dondini, Luca, Gregori, Roberto, Lateur, Marc, Houben, Patrick, Ordidge, Matthew, Paprstein, Frantisek, Sedlak, Jiri, Nybom, Hilde, Garkava-Gustavsson, Larisa, Troggio, Michela, Bianco, Luca, Velasco, Riccardo, Poncet, Charles, Théron, Anthony, Moriya, Shigeki, Bink, Marco C.A.M., Laurens, François, Tartarini, Stefano, and Durel, Charles Eric

Abstract

Deciphering the genetic control of flowering and ripening periods in apple is essential for breeding cultivars adapted to their growing environments. We implemented a large Genome-Wide Association Study (GWAS) at the European level using an association panel of 1,168 different apple genotypes distributed over six locations and phenotyped for these phenological traits. The panel was genotyped at a high-density of SNPs using the Axiom®Apple 480 K SNP array. We ran GWAS with a multi-locus mixed model (MLMM), which handles the putatively confounding effect of significant SNPs elsewhere on the genome. Genomic regions were further investigated to reveal candidate genes responsible for the phenotypic variation. At the whole population level, GWAS retained two SNPs as cofactors on chromosome 9 for flowering period, and six for ripening period (four on chromosome 3, one on chromosome 10 and one on chromosome 16) which, together accounted for 8.9 and 17.2% of the phenotypic variance, respectively. For both traits, SNPs in weak linkage disequilibrium were detected nearby, thus suggesting the existence of allelic heterogeneity. The geographic origins and relationships of apple cultivars accounted for large parts of the phenotypic variation. Variation in genotypic frequency of the SNPs associated with the two traits was connected to the geographic origin of the genotypes (grouped as North+East, West and South Europe), and indicated differential selection in different growing environments. Genes encoding transcription factors containing either NAC or MADS domains were identified as major candidates within the small confidence intervals computed for the associated genomic regions. A strong microsynteny between apple and peach was revealed in all the four confidence interval regions. This study shows how association genetics can unravel the genetic control of important horticultural traits in apple, as well as reduce the confidence intervals of the associated regions identified by

Published
2017

38. Genome-Wide Association Mapping of Flowering and Ripening Periods in Apple

Author

Urrestarazu, Jorge, primary, Muranty, Hélène, additional, Denancé, Caroline, additional, Leforestier, Diane, additional, Ravon, Elisa, additional, Guyader, Arnaud, additional, Guisnel, Rémi, additional, Feugey, Laurence, additional, Aubourg, Sébastien, additional, Celton, Jean-Marc, additional, Daccord, Nicolas, additional, Dondini, Luca, additional, Gregori, Roberto, additional, Lateur, Marc, additional, Houben, Patrick, additional, Ordidge, Matthew, additional, Paprstein, Frantisek, additional, Sedlak, Jiri, additional, Nybom, Hilde, additional, Garkava-Gustavsson, Larisa, additional, Troggio, Michela, additional, Bianco, Luca, additional, Velasco, Riccardo, additional, Poncet, Charles, additional, Théron, Anthony, additional, Moriya, Shigeki, additional, Bink, Marco C. A. M., additional, Laurens, François, additional, Tartarini, Stefano, additional, and Durel, Charles-Eric, additional

Published
2017
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39. High-quality de novo assembly of the apple genome and methylome dynamics of early fruit development

Author

Daccord, Nicolas, primary, Celton, Jean-Marc, additional, Linsmith, Gareth, additional, Becker, Claude, additional, Choisne, Nathalie, additional, Schijlen, Elio, additional, van de Geest, Henri, additional, Bianco, Luca, additional, Micheletti, Diego, additional, Velasco, Riccardo, additional, Di Pierro, Erica Adele, additional, Gouzy, Jérôme, additional, Rees, D Jasper G, additional, Guérif, Philippe, additional, Muranty, Hélène, additional, Durel, Charles-Eric, additional, Laurens, François, additional, Lespinasse, Yves, additional, Gaillard, Sylvain, additional, Aubourg, Sébastien, additional, Quesneville, Hadi, additional, Weigel, Detlef, additional, van de Weg, Eric, additional, Troggio, Michela, additional, and Bucher, Etienne, additional

Published
2017
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40. A high-density, multi-parental SNP genetic map on apple validates a new mapping approach for outcrossing species

Author

Di Pierro, Erica A., Gianfranceschi, Luca, Di Guardo, Mario, Koehorst-Van Putten, Herma J.J., Kruisselbrink, Johannes W., Longhi, Sara, Troggio, Michela, Bianco, Luca, Muranty, Hélène, Pagliarani, Giulia, Bink, Marco C.A.M., Voorrips, Roeland E., van de Weg, Eric, Di Pierro, Erica A., Gianfranceschi, Luca, Di Guardo, Mario, Koehorst-Van Putten, Herma J.J., Kruisselbrink, Johannes W., Longhi, Sara, Troggio, Michela, Bianco, Luca, Muranty, Hélène, Pagliarani, Giulia, Bink, Marco C.A.M., Voorrips, Roeland E., and van de Weg, Eric

Abstract

Quantitative trait loci (QTL) mapping approaches rely on the correct ordering of molecular markers along the chromosomes, which can be obtained from genetic linkage maps or a reference genome sequence. For apple (Malus domestica Borkh), the genome sequence v1 and v2 could not meet this need; therefore, a novel approach was devised to develop a dense genetic linkage map, providing the most reliable marker-loci order for the highest possible number of markers. The approach was based on four strategies: (i) the use of multiple full-sib families, (ii) the reduction of missing information through the use of HaploBlocks and alternative calling procedures for single-nucleotide polymorphism (SNP) markers, (iii) the construction of a single backcross-type data set including all families, and (iv) a two-step map generation procedure based on the sequential inclusion of markers. The map comprises 15 417 SNP markers, clustered in 3 K HaploBlock markers spanning 1 267 cM, with an average distance between adjacent markers of 0.37 cM and a maximum distance of 3.29 cM. Moreover, chromosome 5 was oriented according to its homoeologous chromosome 10. This map was useful to improve the apple genome sequence, design the Axiom Apple 480 K SNP array and perform multifamily-based QTL studies. Its collinearity with the genome sequences v1 and v3 are reported. To our knowledge, this is the shortest published SNP map in apple, while including the largest number of markers, families and individuals. This result validates our methodology, proving its value for the construction of integrated linkage maps for any outbreeding species.

Published
2016

41. A high-density, multi-parental SNP genetic map on apple validates a new mapping approach for outcrossing species

Author

Di Pierro, Erica A, primary, Gianfranceschi, Luca, additional, Di Guardo, Mario, additional, Koehorst-van Putten, Herma JJ, additional, Kruisselbrink, Johannes W, additional, Longhi, Sara, additional, Troggio, Michela, additional, Bianco, Luca, additional, Muranty, Hélène, additional, Pagliarani, Giulia, additional, Tartarini, Stefano, additional, Letschka, Thomas, additional, Lozano Luis, Lidia, additional, Garkava-Gustavsson, Larisa, additional, Micheletti, Diego, additional, Bink, Marco CAM, additional, Voorrips, Roeland E, additional, Aziz, Ebrahimi, additional, Velasco, Riccardo, additional, Laurens, François, additional, and van de Weg, W Eric, additional

Published
2016
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42. Accuracy and responses of genomic selection on key traits in apple breeding

Author

Muranty, Hélène, Troggio, Michela, Ben Sadok, Inès, Al Rifaï, Mehdi, Auwerkerken, Annemarie, Banchi, E., Velasco, Riccardo, Stevanato, P., van de Weg, W.E., Di Guardo, M., Kumar, S., Laurens, François, Bink, M.C.A.M., Muranty, Hélène, Troggio, Michela, Ben Sadok, Inès, Al Rifaï, Mehdi, Auwerkerken, Annemarie, Banchi, E., Velasco, Riccardo, Stevanato, P., van de Weg, W.E., Di Guardo, M., Kumar, S., Laurens, François, and Bink, M.C.A.M.

Abstract

The application of genomic selection in fruit tree crops is expected to enhance breeding efficiency by increasing prediction accuracy, increasing selection intensity and decreasing generation interval. The objectives of this study were to assess the accuracy of prediction and selection response in commercial apple breeding programmes for key traits. The training population comprised 977 individuals derived from 20 pedigreed full-sib families. Historic phenotypic data were available on 10 traits related to productivity and fruit external appearance and genotypic data for 7829 SNPs obtained with an Illumina 20K SNP array. From these data, a genome-wide prediction model was built and subsequently used to calculate genomic breeding values of five application full-sib families. The application families had genotypes at 364 SNPs from a dedicated 512 SNP array, and these genotypic data were extended to the high-density level by imputation. These five families were phenotyped for 1 year and their phenotypes were compared to the predicted breeding values. Accuracy of genomic prediction across the 10 traits reached a maximum value of 0.5 and had a median value of 0.19. The accuracies were strongly affected by the phenotypic distribution and heritability of traits. In the largest family, significant selection response was observed for traits with high heritability and symmetric phenotypic distribution. Traits that showed non-significant response often had reduced and skewed phenotypic variation or low heritability. Among the five application families the accuracies were uncorrelated to the degree of relatedness to the training population. The results underline the potential of genomic prediction to accelerate breeding progress in outbred fruit tree crops that still need to overcome long generation intervals and extensive phenotyping costs.

Published
2015

43. Accuracy and responses of genomic selection on key traits in apple breeding

Author

Muranty, Hélène, primary, Troggio, Michela, additional, Sadok, Inès Ben, additional, Rifaï, Mehdi Al, additional, Auwerkerken, Annemarie, additional, Banchi, Elisa, additional, Velasco, Riccardo, additional, Stevanato, Piergiorgio, additional, van de Weg, W Eric, additional, Di Guardo, Mario, additional, Kumar, Satish, additional, Laurens, François, additional, and Bink, Marco C A M, additional

Published
2015
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45. Development and validation of the Axiom®Apple480K SNP genotyping array.

Author

Bianco, Luca, Cestaro, Alessandro, Linsmith, Gareth, Muranty, Hélène, Denancé, Caroline, Théron, Anthony, Poncet, Charles, Micheletti, Diego, Kerschbamer, Emanuela, Di Pierro, Erica A., Larger, Simone, Pindo, Massimo, Van de Weg, Eric, Davassi, Alessandro, Laurens, François, Velasco, Riccardo, Durel, Charles‐Eric, and Troggio, Michela

Subjects
SINGLE nucleotide polymorphisms, PLANT genetics, APPLE varieties, GENOTYPES, BIOMARKERS
Abstract

Cultivated apple ( Malus × domestica Borkh.) is one of the most important fruit crops in temperate regions, and has great economic and cultural value. The apple genome is highly heterozygous and has undergone a recent duplication which, combined with a rapid linkage disequilibrium decay, makes it difficult to perform genome-wide association ( GWA) studies. Single nucleotide polymorphism arrays offer highly multiplexed assays at a relatively low cost per data point and can be a valid tool for the identification of the markers associated with traits of interest. Here, we describe the development and validation of a 487K SNP Affymetrix Axiom® genotyping array for apple and discuss its potential applications. The array has been built from the high-depth resequencing of 63 different cultivars covering most of the genetic diversity in cultivated apple. The SNPs were chosen by applying a focal points approach to enrich genic regions, but also to reach a uniform coverage of non-genic regions. A total of 1324 apple accessions, including the 92 progenies of two mapping populations, have been genotyped with the Axiom®Apple480K to assess the effectiveness of the array. A large majority of SNPs (359 994 or 74%) fell in the stringent class of poly high resolution polymorphisms. We also devised a filtering procedure to identify a subset of 275K very robust markers that can be safely used for germplasm surveys in apple. The Axiom®Apple480K has now been commercially released both for public and proprietary use and will likely be a reference tool for GWA studies in apple. [ABSTRACT FROM AUTHOR]

Published
2016
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47. Genetic variation of the riparian pioneer tree species Populus nigra. II. Variation in susceptibility to the foliar rustMelampsora larici-populina.

Author

Legionnet, Agnès, Muranty, Hélène, Lefèvre, François, and LEGIONNET, AGNÈS

Subjects
*BLACK poplar, *MELAMPSORA, *PRINCIPAL components analysis
Abstract

Partial resistance of Populus nigra L. to three races of the foliar rust Melampsora larici-populina Kleb. was studied in a field trial and in laboratory tests, using a collection of P. nigra originating from different places throughout France. No total resistance was found. The partial resistance was split into epidemiological components, which proved to be under genetic control. Various patterns of association of epidemiological components values were found. Principal components analysis revealed their relationships. Only 24% of the variance of the field susceptibility could be explained by the variation of the epidemiological components of susceptibility. This variable was significantly correlated with susceptibility to the most ancient and widespread race of the pathogen, and with the variables related to the size of the lesions of the different races. Analysis of variance showed significant differences in susceptibility between regions and between stands within one region. Up to 20% of variation was between regions, and up to 22% between stands, so that these genetic factors appeared to be more differentiated than the neutral diversity (up to 3.5% Legionnet & Lefèvre, 1996). However, no clear pattern of geographical distribution of diversity was detected. [ABSTRACT FROM AUTHOR]

Published
1999
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48. The apple REFPOP—a reference population for genomics-assisted breeding in apple

Author

Jung, Michaela, Roth, Morgane, Jose Aranzana, Maria, Auwerkerken, Annemarie, Bink, Marco, Denance, Caroline, Dujak, Christian, Durel, Charles-Eric, Font i Forcada, Carolina, Cantin, Celia M., Guerra, Walter, Howard, Nicholas P., Keller, Beat, Lewandowski, Mariusz, Ordidge, Matthew, Rymenants, Marijn, Sanin, Nadia, Studer, Bruno, Zurawicz, Edward, Laurens, François, Patocchi, Andrea, and Muranty, Hélène

Subjects
2. Zero hunger, fungi
Abstract

Breeding of apple is a long-term and costly process due to the time and space requirements for screening selection candidates. Genomics-assisted breeding utilizes genomic and phenotypic information to increase the selection efficiency in breeding programs, and measurements of phenotypes in different environments can facilitate the application of the approach under various climatic conditions. Here we present an apple reference population: the apple REFPOP, a large collection formed of 534 genotypes planted in six European countries, as a unique tool to accelerate apple breeding. The population consisted of 269 accessions and 265 progeny from 27 parental combinations, representing the diversity in cultivated apple and current European breeding material, respectively. A high-density genome-wide dataset of 303,239 SNPs was produced as a combined output of two SNP arrays of different densities using marker imputation with an imputation accuracy of 0.95. Based on the genotypic data, linkage disequilibrium was low and population structure was weak. Two well-studied phenological traits of horticultural importance were measured. We found marker–trait associations in several previously identified genomic regions and maximum predictive abilities of 0.57 and 0.75 for floral emergence and harvest date, respectively. With decreasing SNP density, the detection of significant marker–trait associations varied depending on trait architecture. Regardless of the trait, 10,000 SNPs sufficed to maximize genomic prediction ability. We confirm the suitability of the apple REFPOP design for genomics-assisted breeding, especially for breeding programs using related germplasm, and emphasize the advantages of a coordinated and multinational effort for customizing apple breeding methods in the genomics era., Horticulture Research, 7 (1)

49. Combining genetic resources and elite material populations to improve the accuracy of genomic prediction in apple.

Author

Cazenave, Xabi, Petit, Bernard, Lateur, Marc, Nybom, Hilde, Sedlak, Jiri, Tartarini, Stefano, Laurens, François, Durel, Charles-Eric, and Muranty, Hélène

Subjects
*GERMPLASM, *SEXUAL cycle, *GENETIC variation, *FORECASTING, *MATHEMATICAL optimization
Abstract

Genomic selection is an attractive strategy for apple breeding that could reduce the length of breeding cycles. A possible limitation to the practical implementation of this approach lies in the creation of a training set large and diverse enough to ensure accurate predictions. In this study, we investigated the potential of combining two available populations, i.e., genetic resources and elite material, in order to obtain a large training set with a high genetic diversity. We compared the predictive ability of genomic predictions within-population, across-population or when combining both populations, and tested a model accounting for population-specific marker effects in this last case. The obtained predictive abilities were moderate to high according to the studied trait and small increases in predictive ability could be obtained for some traits when the two populations were combined into a unique training set. We also investigated the potential of such a training set to predict hybrids resulting from crosses between the two populations, with a focus on the method to design the training set and the best proportion of each population to optimize predictions. The measured predictive abilities were very similar for all the proportions, except for the extreme cases where only one of the two populations was used in the training set, in which case predictive abilities could be lower than when using both populations. Using an optimization algorithm to choose the genotypes in the training set also led to higher predictive abilities than when the genotypes were chosen at random. Our results provide guidelines to initiate breeding programs that use genomic selection when the implementation of the training set is a limitation. [ABSTRACT FROM AUTHOR]

Published
2022
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50. Genomic selection in apple: lessons from preliminary studies

Author

Muranty, Helene, Jung, Michaela, Roth, Morgane, Cazenave, Xabi, Patocchi, Andrea, Laurens, Francois, Durel, Charles-Eric, and MURANTY, Hélène

Subjects
[SDV.SA.HORT] Life Sciences [q-bio]/Agricultural sciences/Horticulture, [SDV.GEN.GPL] Life Sciences [q-bio]/Genetics/Plants genetics, [SDV.BV.AP] Life Sciences [q-bio]/Vegetal Biology/Plant breeding, Horticulture
Published
2023
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