Trait Overview
Traitepicatechin content
Trait Categorybiochemical trait
AbbreviationECAT
Definitionamount of polyphenolic compound epicatechin in fruit
QTLs[view all 140]
QTLs
Download Table
QTL/MTLLinkage GroupPeakStartStopDatasetMapViewer
ECAT-fl-T1.9A-ch1.1LG1111.1585.18138.14Japanese_plum-flavanol_content-Pacheco-2021View
ECAT-sk-T1.9A-ch1.2LG1111.1583.08138.82Japanese_plum-flavanol_content-Pacheco-2021View
qECAT.232×1392-LGI-2.2013LGI-232.3423137.5Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGI-2.2014LGI-234.53434.235.6Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGIII-3.2014LGIII-380.55979.581.7Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGIV-1.2013LGIV-147.04246.348.6Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGV-1.2014LGV-116.1441517.4Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGV-2.2013LGV-217.26415.618.5Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGV-3.2015LGV-339.45625.645.3Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGV-4.2013LGV-428.03227.728.3Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGV-4.2013.1LGV-434.1233.639.8Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGV-4.2014LGV-418.74618.319.2Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGV-4.2014.1LGV-434.9193136.2Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGV-4.2014.2LGV-434.1227.741.1Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGVI-7.2014LGVI-725.52122.136.5Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.232×1392-LGVII-2.2014LGVII-272.4472.177.5Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020View
qECAT.RGxBr.20008-ch16(BB)LG16---Apple fruit polyphenolic composition traits-Chagne-2012View
qECAT.RGxBr.2008-ch16(BB)LG16---Apple fruit polyphenolic composition traits-Chagne-2012View
qECAT.RGxBr.2008-ch16(RG)LG16---Apple fruit polyphenolic composition traits-Chagne-2012View
qECAT.RGxBr.2008-ch16(RG).1LG16---Apple fruit polyphenolic composition traits-Chagne-2012View
qECAT.RGxBr.2010-ch16(BB)LG16---Apple fruit polyphenolic composition traits-Chagne-2012View
qECAT.RGxBr.2010-ch16(BB).1LG16---Apple fruit polyphenolic composition traits-Chagne-2012View
qECAT.RGxBr.2010-ch16(RG)LG16---Apple fruit polyphenolic composition traits-Chagne-2012View
qECAT.RGxBr.2010-ch16(RG).1LG16---Apple fruit polyphenolic composition traits-Chagne-2012View
qECAT.X5210X8402-LG12.F09----Apple-polyphenol_content-Laurens-2014-
qECAT.X5210X8402-LG12.J09----Apple-polyphenol_content-Laurens-2014-
qECAT.X5210X8402-LG14.J09----Apple-polyphenol_content-Laurens-2014-
qECAT.X5210X8402-LG15.J10----Apple-polyphenol_content-Laurens-2014-
qECAT.X5210X8402-LG16.J10----Apple-polyphenol_content-Laurens-2014-
qECAT.X5210X8402-LG1.J09----Apple-polyphenol_content-Laurens-2014-
qECAT.X5210X8402-LG1.J10----Apple-polyphenol_content-Laurens-2014-
qECAT.X5210X8402-LG6.J09----Apple-polyphenol_content-Laurens-2014-
GWAS0001226----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001233----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001240----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001249----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001252----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001274----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001301----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001327----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001334----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001340----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001347----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001355----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001360----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001366----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001372----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001385----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001394----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001401----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0001407----Apple_phytochemicals_GWAS_Kumar_2022View
GWAS0004085----Apple_polyphenols_GWAS_McClure_2019View
GWAS0004982----Apple_polyphenols_GWAS_Li_2025View
GWAS0004983----Apple_polyphenols_GWAS_Li_2025View
GWAS0004984----Apple_polyphenols_GWAS_Li_2025View
GWAS0004985----Apple_polyphenols_GWAS_Li_2025View
GWAS0004986----Apple_polyphenols_GWAS_Li_2025View
GWAS0004987----Apple_polyphenols_GWAS_Li_2025View
GWAS0004988----Apple_polyphenols_GWAS_Li_2025View
GWAS0004989----Apple_polyphenols_GWAS_Li_2025View
GWAS0004990----Apple_polyphenols_GWAS_Li_2025View
GWAS0004991----Apple_polyphenols_GWAS_Li_2025View
GWAS0004992----Apple_polyphenols_GWAS_Li_2025View
GWAS0004993----Apple_polyphenols_GWAS_Li_2025View
GWAS0004994----Apple_polyphenols_GWAS_Li_2025View
GWAS0004995----Apple_polyphenols_GWAS_Li_2025View
GWAS0004996----Apple_polyphenols_GWAS_Li_2025View
GWAS0004997----Apple_polyphenols_GWAS_Li_2025View
GWAS0004998----Apple_polyphenols_GWAS_Li_2025View
GWAS0004999----Apple_polyphenols_GWAS_Li_2025View
GWAS0005000----Apple_polyphenols_GWAS_Li_2025View
GWAS0005001----Apple_polyphenols_GWAS_Li_2025View
GWAS0005002----Apple_polyphenols_GWAS_Li_2025View
GWAS0005003----Apple_polyphenols_GWAS_Li_2025View
GWAS0005004----Apple_polyphenols_GWAS_Li_2025View
GWAS0005005----Apple_polyphenols_GWAS_Li_2025View
GWAS0005006----Apple_polyphenols_GWAS_Li_2025View
GWAS0005007----Apple_polyphenols_GWAS_Li_2025View
GWAS0005008----Apple_polyphenols_GWAS_Li_2025View
GWAS0005009----Apple_polyphenols_GWAS_Li_2025View
GWAS0005010----Apple_polyphenols_GWAS_Li_2025View
GWAS0005011----Apple_polyphenols_GWAS_Li_2025View
GWAS0005012----Apple_polyphenols_GWAS_Li_2025View
GWAS0005013----Apple_polyphenols_GWAS_Li_2025View
GWAS0005014----Apple_polyphenols_GWAS_Li_2025View
GWAS0005015----Apple_polyphenols_GWAS_Li_2025View
GWAS0005016----Apple_polyphenols_GWAS_Li_2025View
GWAS0005017----Apple_polyphenols_GWAS_Li_2025View
GWAS0005018----Apple_polyphenols_GWAS_Li_2025View
GWAS0005019----Apple_polyphenols_GWAS_Li_2025View
GWAS0005020----Apple_polyphenols_GWAS_Li_2025View
GWAS0005021----Apple_polyphenols_GWAS_Li_2025View
GWAS0005022----Apple_polyphenols_GWAS_Li_2025View
GWAS0005023----Apple_polyphenols_GWAS_Li_2025View
GWAS0005024----Apple_polyphenols_GWAS_Li_2025View
GWAS0005025----Apple_polyphenols_GWAS_Li_2025View
GWAS0005026----Apple_polyphenols_GWAS_Li_2025View
GWAS0005027----Apple_polyphenols_GWAS_Li_2025View
GWAS0005028----Apple_polyphenols_GWAS_Li_2025View
GWAS0005029----Apple_polyphenols_GWAS_Li_2025View
GWAS0005030----Apple_polyphenols_GWAS_Li_2025View
GWAS0005031----Apple_polyphenols_GWAS_Li_2025View
GWAS0005032----Apple_polyphenols_GWAS_Li_2025View
GWAS0005033----Apple_polyphenols_GWAS_Li_2025View
GWAS0005034----Apple_polyphenols_GWAS_Li_2025View
GWAS0005035----Apple_polyphenols_GWAS_Li_2025View
GWAS0005036----Apple_polyphenols_GWAS_Li_2025View
GWAS0005037----Apple_polyphenols_GWAS_Li_2025View
GWAS0005038----Apple_polyphenols_GWAS_Li_2025View
GWAS0005039----Apple_polyphenols_GWAS_Li_2025View
GWAS0005040----Apple_polyphenols_GWAS_Li_2025View
GWAS0005041----Apple_polyphenols_GWAS_Li_2025View
GWAS0005042----Apple_polyphenols_GWAS_Li_2025View
GWAS0005043----Apple_polyphenols_GWAS_Li_2025View
GWAS0005044----Apple_polyphenols_GWAS_Li_2025View
GWAS0005045----Apple_polyphenols_GWAS_Li_2025View
GWAS0005046----Apple_polyphenols_GWAS_Li_2025View
GWAS0005047----Apple_polyphenols_GWAS_Li_2025View
GWAS0005048----Apple_polyphenols_GWAS_Li_2025View
GWAS0005049----Apple_polyphenols_GWAS_Li_2025View
GWAS0005050----Apple_polyphenols_GWAS_Li_2025View
GWAS0005051----Apple_polyphenols_GWAS_Li_2025View
GWAS0005052----Apple_polyphenols_GWAS_Li_2025View
GWAS0005053----Apple_polyphenols_GWAS_Li_2025View
GWAS0005054----Apple_polyphenols_GWAS_Li_2025View
GWAS0005055----Apple_polyphenols_GWAS_Li_2025View
GWAS0005056----Apple_polyphenols_GWAS_Li_2025View
GWAS0005057----Apple_polyphenols_GWAS_Li_2025View
GWAS0005058----Apple_polyphenols_GWAS_Li_2025View
GWAS0005059----Apple_polyphenols_GWAS_Li_2025View
GWAS0005060----Apple_polyphenols_GWAS_Li_2025View
GWAS0005061----Apple_polyphenols_GWAS_Li_2025View
GWAS0005062----Apple_polyphenols_GWAS_Li_2025View
GWAS0005063----Apple_polyphenols_GWAS_Li_2025View
GWAS0005064----Apple_polyphenols_GWAS_Li_2025View
GWAS0005065----Apple_polyphenols_GWAS_Li_2025View
GWAS0005066----Apple_polyphenols_GWAS_Li_2025View
GWAS0005067----Apple_polyphenols_GWAS_Li_2025View
GWAS0005068----Apple_polyphenols_GWAS_Li_2025View
GWAS0005069----Apple_polyphenols_GWAS_Li_2025View
YearPublication
2024Li Z, Gao C, Fan T, Cui Y, Liu Z, Li L, Qian Q, Cheng M, Zhan X, Niu C, Ma F, Yang P, Guan Q, Integrative Analysis of Genome-wide Association Studies of Polyphenols in Apple Fruits Identifies the MdDof2.4-MdPAT10 Module That Promotes Procyanidin Accumulation, Horticulture Research, 2024 Dec 12; uhae349
2022Kumar S, Molloy C, Hunt M, Deng CH, Wiedow C, Andre C, Dare A, McGhie T. GWAS provides new insights into the genetic mechanisms of phytochemicals production and red skin colour in apple.. Horticulture research. 2022; 9:uhac218.
2021Battistoni B, Salazar J, Vega W, Valderrama-Soto D, Jiménez-Muñoz P, Sepúlveda-González A, Ahumada S, Cho I, Gardana C, Morales H, Peña Á, Silva H, Maldonado J, González M, Infante R and Pacheco I (2022) An Upgraded, Highly Saturated Linkage Map of the Japanese Plum (Prunus salicina Lindl.), and the Identification of a New Major Locus Controlling the Flavan-3-ol Composition in Fruits. Front. Plant Sci. 13:805744. doi: 10.3389/fpls.2022.805744
2020Rymenants M, van de Weg E, Auwerkerken A, De Wit I, Czech A, Nijland B, Heuven H, De Storme N, and Keulemans W. Detection of QTL for apple fruit acidity and sweetness using sensorial evaluation in multiple pedigreed full-sib families. Tree Genetics & Genomes 16, 71 (2020). https://doi.org/10.1007/s11295-020-01466-8
2020Pott DM, Vallarino JG, Cruz-Rus E, Willmitzer L, Sánchez-Sevilla JF, Amaya I, Osorio S. Genetic analysis of phenylpropanoids and antioxidant capacity in strawberry fruit reveals mQTL hotspots and candidate genes.. Scientific reports. 2020 Nov 19; 10(1):20197.
2019Kendra AM, YuiHui G, Jun S, Melinda V, Leslie CP, Lihua F, Karen B, ZhaoQi Z, Jean-Marc C, Charles FF, Zoë M, Sean M, Genome-wide association studies in apple reveal loci of large effect controlling apple polyphenols, Horticulture Research, Volume 6, 2019, 107
2016Bianco L, Cestaro A, Linsmith G, Muranty H, Denance C, Théron A, Poncet C, Micheletti D, Kerschbamer E, Di Pierro EA, Larger S, Pindo M, van de Weg E, Davassi A, Laurens F, Velasco R, Durel CE, Troggio M. Development and validation of the Axiom(®) Apple480K SNP genotyping array. The Plant journal : for cell and molecular biology. 2016 Feb 26.
2014Bianco L, Cestaro A, Sargent DJ, Banchi E, Derdak S, Di Guardo M, Salvi S, Jansen J, Viola R, Gut I, Laurens F, Chagné D, Velasco R, van de Weg E, Troggio M. Development and Validation of a 20K Single Nucleotide Polymorphism (SNP) Whole Genome Genotyping Array for Apple (Malus × domestica Borkh). PloS one. 2014; 9(10):e110377.
2014Verdu CF, Guyot S, Childebrand N, Bahut M, Celton J-M, Gaillard S, Lasserre-Zuber P, Troggio M, Guilet D, Laurens F. QTL Analysis and Candidate Gene Mapping for the Polyphenol Content in Cider Apple. PLoS ONE. 2014; 9(10):e107103.
2012QTL and candidate gene mapping for polyphenolic composition in apple fruit. BMC Plant Biology 2012, 12:12
2012Antanaviciute L, Fernández-Fernández F, Jansen J, Banchi E, Evans KM, Viola R, Velasco R, Dunwell JM, Troggio M, Sargent DJ. Development of a dense SNP-based linkage map of an apple rootstock progeny using the Malus Infinium whole genome genotyping array. BMC genomics. 2012; 13:203.
2010Velasco R, Zharkikh A, Affourtit J, Dhingra A, Cestaro A, Kalyanaraman A, Fontana P, Bhatnagar SK, Troggio M, Pruss D, Salvi S, Pindo M, Baldi P, Castelletti S, Cavaiuolo M, Coppola G, Costa F, Cova V, Dal Ri A, Goremykin V, Komjanc M, Longhi S, Magnago P, Malacarne G, Malnoy M, Micheletti D, Moretto M, Perazzolli M, Si-Ammour A, Vezzulli S, Zini E, Eldredge G, Fitzgerald LM, Gutin N, Lanchbury J, Macalma T, Mitchell JT, Reid J, Wardell B, Kodira C, Chen Z, Desany B, Niazi F, Palmer M, Koepke T, Jiwan D, Schaeffer S, Krishnan V, Wu C, Chu VT, King ST, Vick J, Tao Q, Mraz A, Stormo A, Stormo K, Bogden R, Ederle D, Stella A, Vecchietti A, Kater MM, Masiero S, Lasserre P, Lespinasse Y, Allan AC, Bus V, Chagné D, Crowhurst RN, Gleave AP, Lavezzo E, Fawcett JA, Proost S, Rouzé P, Sterck L, Toppo S, Lazzari B, Hellens RP, Durel CE, Gutin A, Bumgarner RE, Gardiner SE, Skolnick M, Egholm M, Van de Peer Y, Salamini F, Viola R. The genome of the domesticated apple (Malus x domestica Borkh.). Nature Genetics. 2010 Oct; 42(10):833-839.