Trait Overview
Traitglucose content
Trait Categorybiochemical trait
AbbreviationGLC
Definitionamount of glucose in fruit
QTLs[view all 51]
QTLs
Download Table
QTL/MTLLinkage GroupPeakStartStopDatasetMapViewer
qGLC.CCF-LGIb-fLGIb-f---Fruit quality traits-Denoyes-Rothan-2012View
qGLC.CCF-LGIIIa-fLGIIIa-f---Fruit quality traits-Denoyes-Rothan-2012View
qGLC.CCF-LGIIIc-fLGIIIc-f---Fruit quality traits-Denoyes-Rothan-2012View
qGLC.CCF-LGIVa-fLGIVa-f---Fruit quality traits-Denoyes-Rothan-2012View
qGLC.CCF-LGVIa-fLGVIa-f---Fruit quality traits-Denoyes-Rothan-2012View
qGLC.JF-ch4G410--Peach sugar and organic acid content traits-Dirlewanger-2002View
qGLC.JF-ch8G83--Peach fruit quality trait-Dirlewanger-1999View
qGLC.JGxWSH-LG3-WSH.2016LG349.638.0660.34Apple-sugar_organic_acid_content-Ma-2015View
qGLC.OA-ch5-AkaneAK5---Apple fruit quality traits-Kunihisa-2014View
qGLC.RBP.LG15.WSU11-20LG15-31.738.4Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG15.WSU12-10LG15-34.140.2999999999999972Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG16.WSU11-HLG16-2.48.80000000000000071Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG1.WSU11-10LG1-54.676.3Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG1.WSU11-HLG1-60.976.3Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG1.WSU12-10LG1-61.185.7Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG1.WSU12-20.1LG1-31.539.4Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG1.WSU12-20.2LG1-60.985.7Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG1.WSU12-HLG1-61.185.7Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG2.WSU11-20LG2-1.212.8Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG3.WSU11-10LG3-5471.3Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG3.WSU11-20LG3-73.387Malus-RosBREED-Sweetness-Evans-2015View
qGLC.RBP.LG3.WSU12-10LG3-49.269.3Malus-RosBREED-Sweetness-Evans-2015View
qGLC.ScB-LG1.1LG1---Peach fruit quality traits-Abbott-1998View
qGLC.ScB-LG1.2LG1---Peach fruit quality traits-Abbott-1998View
qGLC.ScB-LG8LG8---Peach fruit quality traits-Abbott-1998View
qGLC.SP-G2G2---Peach quality traits-Quilot-2004View
qGLC.SP-G4G4---Peach quality traits-Quilot-2004View
qGLC.SP-G5G5---Peach quality traits-Quilot-2004View
qGLC.SP-G7.1G7---Peach quality traits-Quilot-2004View
qGLC.SP-G7.2G7---Peach quality traits-Quilot-2004View
qGLC.SZ-LG1.12----Peach-sugar_and_enzyme_activity-Quilot-Turion-2016-
qGLC.SZ-LG1.1_SLG125.417.233Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG1.2_SLG131.12233.4Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG4.234----Peach-sugar_and_enzyme_activity-Quilot-Turion-2016-
qGLC.SZ-LG4.2_SLG423.420.627Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG4.3_SLG422.720.627Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG4.4_SLG422.720.627Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG4.56----Peach-sugar_and_enzyme_activity-Quilot-Turion-2016-
qGLC.SZ-LG4.5_ZLG423.00712.88636.466Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG4.6_ZLG442.86439.60778.964Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG5.1235----Peach-sugar_and_enzyme_activity-Quilot-Turion-2016-
qGLC.SZ-LG5.1_SLG544.53846.6Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG5.2_SLG5423845.2Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG5.3_SLG5423844.5Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG5.5_SLG535.73042Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG7.1234----Peach-sugar_and_enzyme_activity-Quilot-Turion-2016-
qGLC.SZ-LG7.1_SLG735.53237.9Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG7.2_SLG735.53237.9Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG7.3_SLG7363239.5Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLC.SZ-LG7.4_SLG735.635.537.9Peach-sugar_and_enzyme_activity-Quilot-Turion-2016View
qGLU.JGxWSH-LG4-WSH.2016LG444.3528.7745.37Apple-sugar_organic_acid_content-Ma-2015View
YearPublication
1998Sosinski B, Sossey-Alaoui K, Rajapakse S, Glassmoyer K, Ballard RE, Abbott AG, Lu ZX, Baird WV, Reighard G, Tabb A. Use of AFLP and RFLP markers to create a combined linkage map in peach [Prunus Persica (L.) Batsch] for use in marker assisted selection. Acta Horticulturae. 1998; 465:61-68.
1999Dirlewanger E, Moing A, Rothan C, Svanella L, Pronier V, Guye A, Plomion C, Monet R. Mapping QTLs controlling fruit quality in peach (Prunus persica (L.) Batsch). Theoretical and Applied Genetics. 1999; 98(1):18-31.
2002Etienne C, Rothan C, Moing A, Plomion C, Bodénès C, Svanella-Dumas L, Cosson P, Pronier V, Monet R, Dirlewanger E. Candidate genes and QTLs for sugar and organic acid content in peach [ Prunus persica (L.) Batsch]. Theoretical and Applied Genetics. 2002 Jul; 105(1):145-159.
2004Quilot B, Wu BH, Kervella J, Génard M, Foulongne M, Moreau K. QTL analysis of quality traits in an advanced backcross between Prunus persica cultivars and the wild relative species P. davidiana. Theor. Appl. Genet. 2004 Aug; 109(4):884-897.
2012Lerceteau-Köhler E, Moing A, Guérin G, Renaud C, Petit A, Rothan C, Denoyes B. Genetic dissection of fruit quality traits in the octoploid cultivated strawberry highlights the role of homoeo-QTL in their control. Theoretical and Applied Genetics. 2012 Apr; 124(6):1059-1077.
2014Kunihisa M, Moriya S, Abe K, Okada K, Haji T, Hayashi T, Kim H, Nishitani C, Terakami S, Yamamoto T. Identification of QTLs for fruit quality traits in Japanese apples: QTLs for early ripening are tightly related to preharvest fruit drop. Breeding science. 2014 Sep; 64(3):240-51.
2015Yingzhu Guan, Cameron Peace, David Rudell, Sujeet Verma, Kate Evans. QTLs detected for individual sugars and soluble solids content in apple. Molecular Breeding. 2015; 35(135).
2016Desnoues E, Baldazzi V, Génard M, Mauroux J-B, Lambert P, Confolent C, Quilot-Turion B. Dynamic QTLs for sugars and enzyme activities provide an overview of genetic control of sugar metabolism during peach fruit development. Journal of Experimental Botany. 2016; 67(11):3419–3431.
2016Baiquan Ma, Shuang Zhao, Benhong Wu, Dongmei Wang, Qian Peng, Albert Owiti, Ting Fang, Liao Liao, Collins Ogutu, Schuyler S. Korban, Shaohua Li, Yuepeng Han. Construction of a high density linkage map and its application in the identification of QTLs for soluble sugar and organic acid components in apple. Tree Genetics & Genomes. 2016; 12.