GDR

Trait Overview

Descriptors

QTLs/MTLs

Dataset

Publications

Trait Overview

Trait	phenolic compound content
Trait Category	biochemical trait
Abbreviation	PHE
Definition	amount of phenolic compounds in fruit
Descriptors	[view all 2]
QTLs	[view all 130]

Descriptors

Group	Descriptor
GRIN_RUBUS	PHENOLICS
STRAWBERRY_CRS	TP

QTLs

Download Table

QTL/MTL	Linkage Group	Peak	Start	Stop	Dataset	MapViewer
qPHE.232×1392-LGI-2.2013	LGI-2	32.342	31	33.3	Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020	View
qPHE.232×1392-LGII-2.2013	LGII-2	34.893	32.2	38.1	Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020	View
qPHE.232×1392-LGIII-3.2013	LGIII-3	77.123	76.5	78.5	Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020	View
qPHE.232×1392-LGIV-1.2013	LGIV-1	42.5	39.1	49.9	Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020	View
qPHE.232×1392-LGIV-3.2014	LGIV-3	24.472	22.8	31.9	Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020	View
qPHE.232×1392-LGVI-4.2013	LGVI-4	64.41	63.8	64.9	Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020	View
qPHE.232×1392-LGVI-5.2014	LGVI-5	38.364	28.2	40.4	Strawberry-phenylpropanoids_and_antioxidant-QTL-Pott-2020	View
qPHE.BT-Ch2-2009	LG2	1.47	-	-	Peach-Fruit quality-Gogorcena-2016	View
qPHE.CA×CF.IIb.France	2B	91.6	-	-	Strawberry-Flavonoids-QTL-Labadie-2020	View
qPHE.CA×CF.IIIc1.France	3C	25.4	-	-	Strawberry-Flavonoids-QTL-Labadie-2020	View
qPHE.CA×CF.IIIc.France	3C	18.8	-	-	Strawberry-Flavonoids-QTL-Labadie-2020	View
qPHE.CA×CF.VIa.France	6A	92	-	-	Strawberry-Flavonoids-QTL-Labadie-2020	View
qPHE.CA×CF.VIa.France.1	6A	96	-	-	Strawberry-Flavonoids-QTL-Labadie-2020	View
qPHE.CA×CF.VIb.France	6B	13.7	-	-	Strawberry-Flavonoids-QTL-Labadie-2020	View
qPHE.CA×CF.VIb.France.1	6B	125.8	-	-	Strawberry-Flavonoids-QTL-Labadie-2020	View
qPHE.CA×CF.VId.France	6D	38.4	-	-	Strawberry-Flavonoids-QTL-Labadie-2020	View
qPHE.V-Ch2_2-2009	LG2_2	-	-	-	Peach-Fruit quality-Gogorcena-2016	View
qPHE.V-Ch4-Mean	LG4	45.5	-	-	Peach-Fruit quality-Gogorcena-2016	View
qPHE.X5210X8402-LG10.J09.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG10.J09.quercitrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG11.J10.procyanidinCc	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG12.F08.DPnProcyanidins	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG12.F08.phloretinXyloglucoside	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG12.F09.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG12.J09.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG12.J09.procyanidinC1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG12.J10.procyanidinCa	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG12.J10.procyanidinCd	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG12.J10.procyanidinG	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG13.F08.otherProcyanidin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG13.F09.quercitrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG13.J10.quercitrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG14.F08.DPnProcyanidins	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG14.F08.reynoutrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG14.J010.4CaffeoylquinicAcid	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG14.J09.4CaffeoylquinicAcid	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.F08.avicularin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.F08.DPnFlavanols	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.F08.hyperin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.F08.isoquercitrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.F08.otherProcyanidin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.F08.reynoutrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.F09.isoquercitrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.F09.reynoutrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J09.hyperin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J09.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.hyperin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.phloretinXyloglucoside	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinC1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinCa	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinCb	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinCc	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinCd.1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinCd.2	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinDa	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinEa	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.procyanidinG	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.unknownFlavanol245	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG15.J10.unknownFlavanol518	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG16.F08.DPnFlavanols	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG16.F08.DPnProcyanidins	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG16.F08.reynoutrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG16.F09.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG16.J09.hyperin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG16.J10.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG17.F08.5CaffeoylquinicAcid.1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG17.F08.5CaffeoylquinicAcid.2	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG17.F08.rutin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG17.F09.5CaffeoylquinicAcid.1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG17.F09.5CaffeoylquinicAcid.2	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG17.F09.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG17.F09.quercitrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG17.J09.5CaffeoylquinicAcid.1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG17.J09.5CaffeoylquinicAcid.2	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.F08.DPnProcyanidins	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.F08.otherProcyanidin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.F08.phloridzin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.F08.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.F09.ideain	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.F09.otherProcyanidin.1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.F09.otherProcyanidin.2	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.F09.reynoutrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J09.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J09.procyanidinB5	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J09.procyanidinC1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.4CaffeoylquinicAcid	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.5CaffeoylquinicAcid	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.phloridzin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.procyanidinB5	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.procyanidinC1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.procyanidinCa	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.procyanidinCb	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.procyanidinDb	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.procyanidinEa	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.procyanidinEb	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.quercitrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.unknownFlavanol245	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J10.unknownProcyanidin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG1.J17.5CaffeoylquinicAcid	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG3.J09.5CaffeoylquinicAcid	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG3.J09.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG3.J09.procyanidinB5	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG3.J09.procyanidinC1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG3.J10.phloretinXyloglucoside	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG3.J10.procyanidinCa	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG4.J10.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG4.J10.procyanidinCa	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG4.J10.procyanidinCc	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG4.J10.procyanidinDa	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG5.F08.DPnFlavanols	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG5.F08.otherProcyanidin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG5.F08.phloretinXyloglucoside	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG5.F09.ideain	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG5.F09.isoquercitrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG5.F09.phloretinXyloglucoside	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG5.J09.avicularin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG5.J09.phloridzin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG6.J09.procyanidinB1	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG6.J10.procyanidinCd	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG7.F09.isoquercitrin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG7.J09.procyanidinB5	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG7.J10.unknownFlavanol245	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG8.J09.rutin	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG8.J10.procyanidinB5	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
qPHE.X5210X8402-LG9.J10.procyanidinG	-	-	-	-	Apple-polyphenol_content-Laurens-2014	-
GWAS0004262	-	-	-	-	Apple_ripening_traits_GWAS_Watts_2023	View
GWAS0004263	-	-	-	-	Apple_ripening_traits_GWAS_Watts_2023	View
GWAS0004268	-	-	-	-	Apple_flesh_browning_GWAS_Tazawa_2021	View


Dataset	Type
Strawberry_CRS_phenotyping_2011	phenotype
Strawberry_CRS_phenotyping_2012	phenotype
RUBUS.PERKINS.ANTIOXIDANT.2002	phenotype


Year	Publication
2023	Watts S, Migicovsky Z, Myles S. Large-scale apple GWAS reveals NAC18.1 as a master regulator of ripening traits. Fruit Research, 2023 Nov 9; 3:32
2021	Kunihisa M, Hayashi T, Hatsuyama Y, Fukasawa-Akada T, Uenishi H, Matsumoto T, Kon T, Kasai S, Kudo T, Oshino H, Yamamoto T, Tazawa J. Genome-wide association study for apple flesh browning: detection, validation, and physiological roles of QTLs. Tree Genetics & Genomes, 2021 Feb 2 17, 11.
2020	Rymenants 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
2020	Pott 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.
2020	Labadie M, Vallin G, Petit A, Ring L, Hoffmann T, Gaston A, Potier A, Schwab W, Rothan C, Denoyes B. Metabolite Quantitative Trait Loci for Flavonoids Provide New Insights into the Genetic Architecture of Strawberry (Fragaria × ananassa) Fruit Quality. Journal of agricultural and food chemistry. 2020; 68(25):6927-6939.
2016	Bianco 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.
2016	José Luis Zeballos, Walid Abidi , Rosa Giménez, Antonio J. Monforte, María Ángeles Moreno, Yolanda Gogorcena. Mapping QTLs associated with fruit quality traits in peach [Prunus persica (L.) Batsch] using SNP maps. Tree Genetics & Genomes June 2016, 12:37
2014	Bianco 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.
2014	Verdu 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.
2012	Antanaviciute 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.
2010	Velasco 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.