Trait Overview
Traitfruit shape
Trait Categoryplant morphology trait; Quality; quality trait
AbbreviationFRSHAPE
Definitionshape of fruit
Descriptors[view all 15]
QTLs[view all 95]
Descriptors
GroupDescriptor
GRIN_APPLEFRUITSHAPE
GRIN_PLUMFRUITSHAPE
GRIN_RUBUSFRUITSHAPE
GRIN_STRAWBERRYFRUITSHAPE
GRIN_APRICOTFRUITSHAPE
APPLE_CRSShape_0
PEACH_CRSShp
STRAWBERRY_CRSFRUIT_SHAPE
SWEET_CHERRY_CRSFruit_Shape
TART_CHERRY_CRSFrt_shape
TART_CHERRY_CRSFrt_shape_ratio
Strawberry Crop OntologyFruit shape [UPOV 1-9]
Strawberry Crop OntologyFruit shape [RB 1-9]
Strawberry Crop OntologyFruit shape [GG scale]
Strawberry Crop Ontologyfruit shape [category]
QTLs
Download Table
QTL/MTLLinkage GroupPeakStartStopDatasetMapViewer
qFRSHAPE.CD.A3.SpainA3-60.1788.17Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSHAPE.CD.B7.SpainB7-13.4328.15Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSHAPE.CD.C2.SpainC2-4.8513.54Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSHAPE.FF.A2.SpainA2-25.7748.27Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSHAPE.FF.A2.Spain.3A2-24.7751.33Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSHAPE.FF.A4.SpainA4-56.4963.77Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSHAPE.FF.C6.SpainC6-26.9254.66Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSHAPE.FF.C6.Spain.2C6-49.2263.83Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSHAPE.FF.D4.SpainD4-54.5163.01Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSHAPE.FF.D4.Spain.1D4-55.5161.2Strawberry-fruit_characters-QTL-ReySerra-2021View
qFRSH.HAxRM-ch1G1---apricot-architectural phenological and fruit quality QTL-Patocchi-2013View
qFRSH.HAxRM-ch3G3---apricot-architectural phenological and fruit quality QTL-Patocchi-2013View
qFRSH.HAxRM-ch5G5---apricot-architectural phenological and fruit quality QTL-Patocchi-2013View
qFRSH.JGD-G15.1.2008G15.1-1-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-G15.1.2009.1G15.1-3-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-G15.1.2009.2G15.1-51.249-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-J11.2008.1J11-14.813-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-J11.2008.2J115.8--Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-J11.2008.3J1111.48--Apple-fruit_shape-Cao-2015View
qFRSH.JGD-J11.2008.4J1122.21--Apple-fruit_shape-Cao-2015View
qFRSH.JGD-J11.2009J11-7.371-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-J11.2009.1J1111.48--Apple-fruit_shape-Cao-2015View
qFRSH.JGD-J11.2009.2J1122.46--Apple-fruit_shape-Cao-2015View
qFRSH.JGD-J11.2014.1J111--Apple-fruit_shape-Cao-2015View
qFRSH.JGD-J11.2014.2J119.6--Apple-fruit_shape-Cao-2015View
qFRSH.JGD-J11.2014.3J1122.21--Apple-fruit_shape-Cao-2015View
qFRSH.JGD-J13.2009J13-32.087-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-J17.2.2008J17.2-5-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-J4.2008J4---Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-J5.2008J5-7-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-J5.2014J575.19--Apple-fruit_shape-Cao-2015View
qFRSH.JGD-J7.2009J7-15.069-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.JGD-J9.2009J9-24.391-Apple-Fruit_Length_Diameter-Han-2014View
qFRSH.NQ-6.165.38-26.54Raspberry-Chilling Requirement and Flower and Fruit traits -Molina-Bravo-2013View
fruit shape-SLG6-81.2-naView
GWAS0001601----Peach_fruit_shape_GWAS_Liu_2021View
GWAS0001681----Peach_aroma_GWAS_Li_2023View
GWAS0001682----Peach_aroma_GWAS_Li_2023View
GWAS0001683----Peach_aroma_GWAS_Li_2023View
GWAS0001684----Peach_aroma_GWAS_Li_2023View
GWAS0001685----Peach_aroma_GWAS_Li_2023View
GWAS0001686----Peach_aroma_GWAS_Li_2023View
GWAS0001687----Peach_aroma_GWAS_Li_2023View
GWAS0001688----Peach_aroma_GWAS_Li_2023View
GWAS0001689----Peach_aroma_GWAS_Li_2023View
GWAS0001690----Peach_aroma_GWAS_Li_2023View
GWAS0001691----Peach_aroma_GWAS_Li_2023View
GWAS0001692----Peach_aroma_GWAS_Li_2023View
GWAS0001821----Peach_agronomic_traits_GWAS_Cao_2016View
GWAS0002112----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002113----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002114----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002115----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002116----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002117----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002118----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002119----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002120----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002164----Apple_size_shape_GWAS_Dujak_2024View
GWAS0002165----Apple_size_shape_GWAS_Dujak_2024View
GWAS0004832----Apple_shape_size_GWAS_Keller_2024View
GWAS0004833----Apple_shape_size_GWAS_Keller_2024View
GWAS0004834----Apple_shape_size_GWAS_Keller_2024View
GWAS0004835----Apple_shape_size_GWAS_Keller_2024View
GWAS0004836----Apple_shape_size_GWAS_Keller_2024View
GWAS0004837----Apple_shape_size_GWAS_Keller_2024View
GWAS0004838----Apple_shape_size_GWAS_Keller_2024View
GWAS0004839----Apple_shape_size_GWAS_Keller_2024View
GWAS0004840----Apple_shape_size_GWAS_Keller_2024View
GWAS0004841----Apple_shape_size_GWAS_Keller_2024View
GWAS0004842----Apple_shape_size_GWAS_Keller_2024View
GWAS0004843----Apple_shape_size_GWAS_Keller_2024View
GWAS0004844----Apple_shape_size_GWAS_Keller_2024View
GWAS0004845----Apple_shape_size_GWAS_Keller_2024View
GWAS0004846----Apple_shape_size_GWAS_Keller_2024View
GWAS0004847----Apple_shape_size_GWAS_Keller_2024View
GWAS0004848----Apple_shape_size_GWAS_Keller_2024View
GWAS0004849----Apple_shape_size_GWAS_Keller_2024View
GWAS0004850----Apple_shape_size_GWAS_Keller_2024View
GWAS0004851----Apple_shape_size_GWAS_Keller_2024View
GWAS0004852----Apple_shape_size_GWAS_Keller_2024View
GWAS0004853----Apple_shape_size_GWAS_Keller_2024View
GWAS0004854----Apple_shape_size_GWAS_Keller_2024View
GWAS0004855----Apple_shape_size_GWAS_Keller_2024View
GWAS0004856----Apple_shape_size_GWAS_Keller_2024View
GWAS0004857----Apple_shape_size_GWAS_Keller_2024View
GWAS0004858----Apple_shape_size_GWAS_Keller_2024View
GWAS0004859----Apple_shape_size_GWAS_Keller_2024View
GWAS0004860----Apple_shape_size_GWAS_Keller_2024View
GWAS0004861----Apple_shape_size_GWAS_Keller_2024View
GWAS0004862----Apple_shape_size_GWAS_Keller_2024View
GWAS0004863----Apple_shape_size_GWAS_Keller_2024View
GWAS0004864----Apple_shape_size_GWAS_Keller_2024View
GWAS0004865----Apple_shape_size_GWAS_Keller_2024View
GWAS0004866----Apple_shape_size_GWAS_Keller_2024View
YearPublication
2024Keller B, Jung M, Bühlmann-Schütz S, Hodel M, Studer B, Broggini GAL, Patocchi A. The genetic basis of apple shape and size unraveled by digital phenotyping.. G3 (Bethesda, Md.). 2024 Mar 05.
2023Li X, Wang J, Su M, Zhang M, Hu Y, Du J, ... Gao Z. Multiple-statistical genome-wide association analysis and genomic prediction of fruit aroma and agronomic traits in peaches. Horticulture Research. 2023 Oct; 10(7): uhad117.
2023Dujak C, Coleto-Alcudia V, José Aranzana M, Genomic analysis of fruit size and shape traits in apple: unveiling candidate genes through GWAS analysis, Horticulture Research, Volume 11, Issue 2, February 2024, uhad270
2021Rey-Serra P, Mnejja M, Monfort A. Shape, firmness and fruit quality QTLs shared in two non-related strawberry populations.. Plant science : an international journal of experimental plant biology. 2021 Oct; 311:111010.
2021Liu J, Bao Y, Zhong Y, Wang Q, Liu H. Genome-wide association study and transcriptome of olecranon-type traits in peach (Prunus persica L.) germplasm.. BMC genomics. 2021 Sep 28; 22(1):702.
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.
2016Cao K, Zhou Z, Wang Q, Guo J, Zhao P, Zhu G, Fang W, Chen C, Wang X, Wang X, Tian Z, Wang L. Genome-wide association study of 12 agronomic traits in peach. Nature communications. 2016 Nov 08; 7:13246.
2016Lambert P, Campoy JA, Pacheco I, Mauroux JB, Linge CDS, Micheletti D, Bassi D, Rossini L, Dirlewanger E, Pascal T, Troggio M, Aranzana MJ, Patocchi A, Arús P. Identifying SNP markers tightly associated with six major genes in peach [Prunus persica (L.) Batsch] using a high-density SNP array with an objective of marker-assisted selection (MAS). Tree Genetics & Genomes (2016) 12: 121.
2015Ke Cao, Yuansheng Chang, Rui Sun, Fei Shen, Ting Wu, Yi Wang, Xinzhong Zhang, Zhenhai Han. Candidate gene prediction via quantitative trait locus analysis of fruit shape index traits in apple. Euphytica. 2015; 206(2):381–391.
2014Molina-Bravo R, Fernandez GE, Sosinski BR. Quantitative trait locus analysis of tolerance to temperature fluctuations in winter, fruit characteristics, flower color, and prickle-free canes in raspberry. Molecular Breeding 2014 33(2):267-280
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.
2014Yuansheng Chang, Rui Sun, Huanhuan Sun, Yongbo Zhao, Yuepeng Han, Dongmei Chen, Yi Wang, Xinzhong Zhang, Zhenhai Han. Mapping of quantitative trait loci corroborates independent genetic control of apple size and shape. Scientia Horticulturae. 2014; 174:126–132.
2013Mapping Architectural, Phenological, and Fruit Quality QTLs in Apricot
2009Dirlewanger E, Cardinet G, Boudehri K, Renaud C, Monllor S, Illa E, Howad W, Arús P, Croset C, Poëssel JL, Maucourt M, Deborde C, Moing A. Detection of QTLs controlling major fruit quality components in peach within the European project ISAFRUIT. Acta Horticulturae. 2009; 814:533-538.
2006Dirlewanger E, Cosson P, Boudehri K, Renaud C, Capdeville G, Tauzin Y, Laigret F, Moing A. Development of a second generation genetic linkage map for peach [Prunus persica (L.) Batsch] and characterization of morphological traits affecting flower and fruit. Tree Genetics and Genomes. 2006; 3(1):1-13.
1998Dirlewanger, E., Pronier, V., Parvery, C., Rothan, C., Guye, A., Monet, R.. Genetic linkage map of peach [Prunus persica (L.) Batsch] using morphological and molecular markers. Theoretical and Applied Genetics. 1998; 97(5-6): 888-895.