Trait Overview
TraitDays to 50% flowering
Trait CategoryPhenological; Plant growth and development trait
AbbreviationDFTFL
Definition
QTLs[view all 221]
QTLs
Download Table
QTL/MTLLinkage GroupPeakStartStopDatasetMapViewer
qDFFL.Beluga/PHA0399.LG01LG01-73.276.9Bean-Flowering_time_vegetative_growth-Gonzalez-2016View
qDFFL.Beluga/PHA0399.LG05LG05--3.7Bean-Flowering_time_vegetative_growth-Gonzalez-2016View
qDFFL.Icarus_Ascot.LGV.1.1----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_Ascot.LGV.1.2----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_Ascot.LGV.1.3----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.III.2----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGI.B.3.1----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGI.B.3.2----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGI.B.3.2011.1----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGI.B.3.2012.1----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGI.B.3.2014----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGIII.1.----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGIII.2----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGIII.2.2014----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGV.1.1----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGV.1.2----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGV.1.2011.1----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGV.1.2011.2----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGV.1.2012----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Icarus_x_Ascot.LGV.1.3----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.ICCL81001_x_Cr5-9.LG3A.Field----Chickpea-Agronomic_Traits-Cobos-2009-
qDFFL.ICCL81001_x_Cr5-9.LG3A.GH----Chickpea-Agronomic_Traits-Cobos-2009-
qDFFL.IJR/AFR298.LG01.HS16LG014240.551.5Bean-Heat_stress_response-Vargas-2021View
qDFFL.IJR/AFR298.LG01.HSCLG014240.549.5Bean-Heat_stress_response-Vargas-2021View
qDFFL.IJR/AFR298.LG01.NS18LG014440.549.5Bean-Heat_stress_response-Vargas-2021View
qDFFL.IJR/AFR298.LG04.HS16LG044038.540.5Bean-Heat_stress_response-Vargas-2021View
qDFFL.IJR/AFR298.LG04.HSCLG044038.540.5Bean-Heat_stress_response-Vargas-2021View
qDFFL.IJR/AFR298.LG09.HS16LG09--0.5Bean-Heat_stress_response-Vargas-2021View
qDFFL.IJR/AFR298.LG09.HSCLG09--0.5Bean-Heat_stress_response-Vargas-2021View
qDFFL.P651_x_Alfetta.III.2013.S----Pea-Aschochyta_Blight_Jha_2016-
qDFFL.P651_x_Alfetta.III.2014.R----Pea-Aschochyta_Blight_Jha_2016-
qDFFL.P651_x_Alfetta.III.2014.S----Pea-Aschochyta_Blight_Jha_2016-
qDFFL.P651_x_Alfetta.I-IV.2013.S----Pea-Aschochyta_Blight_Jha_2016-
qDFFL.P651_x_Alfetta.I-IV.2014.R----Pea-Aschochyta_Blight_Jha_2016-
qDFFL.P651_x_Alfetta.I-IV.2014.S----Pea-Aschochyta_Blight_Jha_2016-
qDFFL.P651_x_Alfetta.V.2013.S----Pea-Aschochyta_Blight_Jha_2016-
qDFFL.PHA0419/Beluga.LG01LG01-76.984.9Bean-Flowering_time_vegetative_growth-Gonzalez-2016View
qDFFL.Pusa_Dwarf/HDM04-1.LG04LG0434--Pigeon_pea-Earliness_and_plant_type-Kumawat-2012View
qDFFL.Pusa_Dwarf/HDM04-1.LG05LG0579.3--Pigeon_pea-Earliness_and_plant_type-Kumawat-2012View
qDFFL.qDFFL.Icarus_x_Ascot.LGV.1.2014----FabaBean-FloweringTime_Photoperiod-Catt-2017-
qDFFL.Ruda/AND277.LG01LG0151.2--Bean-Agronomic_traits-daSilva-2018View
qDFFL.Ruda/AND277.LG03LG0349.93--Bean-Agronomic_traits-daSilva-2018View
qDFFL.Ruda/AND277.LG09LG0943.92--Bean-Agronomic_traits-daSilva-2018View
qDFFL.Tiga_Nicuru/DipC.LG08-2LG08-27.52.57.5Bambara-Drought-Chai-2017View
qDFTFL.CA2156xJG62.LG10.C03----Chickpea-seed_size_yield_days_to_flower-Cobos-2007-
qDFTFL.CA2156xJG62.LG10.C04----Chickpea-seed_size_yield_days_to_flower-Cobos-2007-
qDFTFL.CA2156xJG62.LG4.C03----Chickpea-seed_size_yield_days_to_flower-Cobos-2007-
qDFTFL.CA2156xJG62.LG4.C04----Chickpea-seed_size_yield_days_to_flower-Cobos-2007-
qDFTFL.CA2156xJG62.LG4.GH----Chickpea-seed_size_yield_days_to_flower-Cobos-2007-
qDFTFL.CDCRobinx964a-46.LG1.Pres2009LG123--Lentil-seed_quality_Bett-2013View
qDFTFL.CDCRobinx964a-46.LG1.Pres2009.2LG163.4--Lentil-seed_quality_Bett-2013View
qDFTFL.CDCRobinx964a-46.LG1.Pres2011LG123--Lentil-seed_quality_Bett-2013View
qDFTFL.CDCRobinx964a-46.LG1.SPG2009LG123--Lentil-seed_quality_Bett-2013View
qDFTFL.CDCRobinx964a-46.LG1.SPG2011LG123--Lentil-seed_quality_Bett-2013View
qDFTFL.CDCRobinx964a-46.LG2.SPG2011LG276.9000000000000057--Lentil-seed_quality_Bett-2013View
qDFTFL.CDCRobinx964a-46.LG7.Pres2011LG75.4--Lentil-seed_quality_Bett-2013View
qDFTFL.DDR14/Explorer.LG01.13LG0159.01--Pea-Yield_traits-Guindon-2019View
qDFTFL.DDR14/Explorer.LG01.13.2LG0166.01--Pea-Yield_traits-Guindon-2019View
qDFTFL.DDR14/Explorer.LG01.14LG0148.01--Pea-Yield_traits-Guindon-2019View
qDFTFL.DDR14/Explorer.LG02.15LG020.01--Pea-Yield_traits-Guindon-2019View
qDFTFL.DDR14/Explorer.NA1.13NA179.01--Pea-Yield_traits-Guindon-2019View
qDFTFL.EstonxPI320937.LG12.PA04LG12-4.517Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG12.SPG04LG12--33Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG1.SPG04LG1-355365Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG1.SPG04.2LG1-223255Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG4.PA04LG4-111128Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG4.SPG04LG4-88174Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG4.SPG04.2LG4-88174Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG4.SPG04.3LG4-88174Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG4.SPG04.4LG4-240257Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG5.SPG04LG5-5290Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.EstonxPI320937.LG9.SPG04LG9-3042Lentil-earliness_plant_height-Tullu-2008View
qDFTFL.Gottingen_Winter_Bean.LG02LGII6.98--Faba-Winter_hardiness_yield-Sallam-2016View
qDFTFL.Gottingen_Winter_Bean.LG03LGIII227.32--Faba-Winter_hardiness_yield-Sallam-2016View
qDFTFL.Gottingen_Winter_Bean.LG04LGIV24.5--Faba-Winter_hardiness_yield-Sallam-2016View
qDFTFL.Gottingen_Winter_Bean.LG04.2LGIV136.5--Faba-Winter_hardiness_yield-Sallam-2016View
qDFTFL.Gottingen_Winter_Bean.LG05LGV77.48--Faba-Winter_hardiness_yield-Sallam-2016View
qDFTFL.Gottingen_Winter_Bean.LG05.2LGV123.51--Faba-Winter_hardiness_yield-Sallam-2016View
qDFTFL.Gottingen_Winter_Bean.LG05.3LGV147.47--Faba-Winter_hardiness_yield-Sallam-2016View
qDFTFL.Gottingen_Winter_Bean.LG05.4LGV154.71--Faba-Winter_hardiness_yield-Sallam-2016View
qDFTFL.IAPAR81/LP9728.LG02.14.NSLG0239.72942.8Bean-Drought_stress-Elias-2021View
qDFTFL.IAPAR81/LP9728.LG02.14.NS.2LG0248.443.552.7Bean-Drought_stress-Elias-2021View
qDFTFL.IAPAR81/LP9728.LG02.NSLG0228.822.935.8Bean-Drought_stress-Elias-2021View
qDFTFL.IAPAR81/LP9728.LG03.14.NSLG0348.442.450.5Bean-Drought_stress-Elias-2021View
qDFTFL.IAPAR81/LP9728.LG10.DSLG10--7Bean-Drought_stress-Elias-2021View
qDFTFL.ICC283xICC8261.LG1.IR.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG1.IR.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG1.IR.3----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG1.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG1.RF.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG1.RF.3----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG1.RF.4----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG1.RF.5----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG1.RF.6----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG3.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG3.RF.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG6.IR.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG6.IR.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG6.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG6.RF.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC283xICC8261.LG8.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC17160.LG01.2012CaLG01-5.9977.033chickpea-Indel_Genome-Das-2015View
qDFTFL.ICC4958xICC17160.LG01.2013CaLG01-5.9977.033chickpea-Indel_Genome-Das-2015View
qDFTFL.ICC4958xICC17160.LG02.2012CaLG02-46.06147.616chickpea-Indel_Genome-Das-2015View
qDFTFL.ICC4958xICC17160.LG02.2013CaLG02-46.06147.616chickpea-Indel_Genome-Das-2015View
qDFTFL.ICC4958xICC17160.LG03.2012CaLG03-38.31439.606chickpea-Indel_Genome-Das-2015View
qDFTFL.ICC4958xICC17160.LG03.2013CaLG03-38.31439.606chickpea-Indel_Genome-Das-2015View
qDFTFL.ICC4958xICC1882.LG3.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG4.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG6.IR.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG7.IR.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG7.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG8.IR.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG8.IR.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG8.IR.3----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG8.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG8.RF.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG8.RF.3----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG8.RF.4----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG8.RF.5----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958xICC1882.LG8.RF.6----Chickpea-Drought_Tolerance-Varshney- 2014-
qDFTFL.ICC4958_x_ICC1882-RIL.LG04.RF.1----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG04.RF.2----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG06.RF.1----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.IF.6----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.IF.7----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.IR.1----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.IR.2----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.IR.3----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.IR.4----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.IR.5----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.1----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.10----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.11----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.12----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.13----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.14----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.15----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.16----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.2----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.3----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.4----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.5----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.6----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.7----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.8----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICC4958_x_ICC1882-RIL.LG08.RF.9----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qDFTFL.ICCV2xJG11.LG04d.C11LG04d123.31--Chickpea-Salinity_Tolerance-Pushpavalli-2015View
qDFTFL.ICCV2xJG11.LG04d.S11LG04d124.31--Chickpea-Salinity_Tolerance-Pushpavalli-2015View
qDFTFL.ICCV2xJG11.LG05.C11LG0572.31--Chickpea-Salinity_Tolerance-Pushpavalli-2015View
qDFTFL.ICCV2xJG11.LG05.S11LG0572.31--Chickpea-Salinity_Tolerance-Pushpavalli-2015View
qDFTFL.ICCV2xJG11.LG07.S10LG0720.3099999999999987--Chickpea-Salinity_Tolerance-Pushpavalli-2015View
qDFTFL.ICCV2xJG11.LG08.C11LG083.31--Chickpea-Salinity_Tolerance-Pushpavalli-2015View
qDFTFL.ICCV2xJG11.LG08.S11LG083.31--Chickpea-Salinity_Tolerance-Pushpavalli-2015View
qDFTFL.ICCV2xJG62.LG3----Chickpea-double_podding-Cho-2002-
qDFTFL.ICCV2xJG62.LG3.5ACLG3-54.590.5Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ICCV2xJG62.LG3.7ECLG3-1.814.2Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ICCV2xJG62.LG4.5ECLG4--6.5Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ICCV2xJG62.LG4.5ESLG4-3.513.1Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ICCV2xJG62.LG4.5LCLG4-3.513.1Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ICCV2xJG62.LG4.5LSLG4-3.513.1Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ICCV2xJG62.LG4.7LCLG4-3.56.5Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ICCV2xJG62.LG5.5ASLG5--29.8Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ICCV2xJG62.LG5.7ACLG5--29.8Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ICCV2xJG62.LG6.7LSLG6-9.3000000000000007128.1Chickpea-salinity-sensitivity-Vadez-2012View
qDFTFL.ILC588xILC3279.LG1.TH06----Chickpea-grain_yield_drought_stress-Rehman-2011-
qDFTFL.ILC588xILC3279.LG3.Terbol-09LG373.0999999999999943--Chickpea-drought-resistant_trait-Imtiaz-2013View
qDFTFL.ILC588xILC3279.LG3.Terbol-11LG373.0999999999999943--Chickpea-drought-resistant_trait-Imtiaz-2013View
qDFTFL.ILC588xILC3279.LG3.TH06----Chickpea-grain_yield_drought_stress-Rehman-2011-
qDFTFL.ILC588xILC3279.LG3.TH-cont09LG355.4--Chickpea-drought-resistant_trait-Imtiaz-2013View
qDFTFL.ILC588xILC3279.LG3.TH-Dr10LG367.0999999999999943--Chickpea-drought-resistant_trait-Imtiaz-2013View
qDFTFL.ILC588xILC3279.LG4.Terbol-09LG463--Chickpea-drought-resistant_trait-Imtiaz-2013View
qDFTFL.ILC588xILC3279.LG4.TH06----Chickpea-grain_yield_drought_stress-Rehman-2011-
qDFTFL.ILC588xILC3279.LG4.TH-cont09LG432.4--Chickpea-drought-resistant_trait-Imtiaz-2013View
qDFTFL.ILC588xILC3279.LG8.TH06----Chickpea-grain_yield_drought_stress-Rehman-2011-
qDFTFL.ILC588xILC3279.LGU.Terbol-09----Chickpea-drought-resistant_trait-Imtiaz-2013-
qDFTFL.ILC588xILC3279.LGU.TH-cont10----Chickpea-drought-resistant_trait-Imtiaz-2013-
qDFTFL.ILC588xILC3279.LGU.TH-Dr10----Chickpea-drought-resistant_trait-Imtiaz-2013-
qDFTFL.ILL6002xILL5888.LG13LG1350--Lentil-Agromorphological_Traits-Saha-2013View
qDFTFL.ILL6002xILL5888.LG4.1LG47--Lentil-Agromorphological_Traits-Saha-2013View
qDFTFL.ILL6002xILL5888.LG4.2LG483--Lentil-Agromorphological_Traits-Saha-2013View
qDFTFL.JI296xDP.LGII.flo1----Pea-mycosphaerella_pinode_resistance-Prioul-2004-
qDFTFL.JI296xDP.LGIII.flo2----Pea-mycosphaerella_pinode_resistance-Prioul-2004-
qDFTFL.JI296xDP.LGVI.flo3----Pea-mycosphaerella_pinode_resistance-Prioul-2004-
qDFTFL.Lublanc/LD37.LG11LG11---Lupin-Agronomic_traits-Croxford-2008View
qDFTFL.P655xMessire.LGII.dfII.1-2005-Df----Pea-Mycosphaerella_pinode_resistance-Fondevilla-2008-
qDFTFL.P655xMessire.LGIII.dfIII.1-2005-Df----Pea-Mycosphaerella_pinode_resistance-Fondevilla-2008-
qDFTFL.P655xMessire.LGIII.dfIII.2-2005-Df----Pea-Mycosphaerella_pinode_resistance-Fondevilla-2008-
qDFTFL.P655xMessire.LGVI.dfVI.1-2005-Df----Pea-Mycosphaerella_pinode_resistance-Fondevilla-2008-
qDFTFL.Tiber/Starozagorski.LG01.2013LG0179.7--Bean-Drought_response-Sedlar-2020View
qDFTFL.Tiber/Starozagorski.LG01.2014LG0179.7--Bean-Drought_response-Sedlar-2020View
qDFTFL.Tiber/Starozagorski.LG01.2014.2LG0185.1--Bean-Drought_response-Sedlar-2020View
qDFTFL.UCR_MAGIC_2018.LG01.CVARSLG01565468Cowpea-Growth_and_development-Huynh-2018View
qDFTFL.UCR_MAGIC_2018.LG04.CESLG04191620Cowpea-Growth_and_development-Huynh-2018View
qDFTFL.UCR_MAGIC_2018.LG04.CVARSLG04201527Cowpea-Growth_and_development-Huynh-2018View
qDFTFL.UCR_MAGIC_2018.LG05.CESLG05719Cowpea-Growth_and_development-Huynh-2018View
qDFTFL.UCR_MAGIC_2018.LG05.CVARSLG058512Cowpea-Growth_and_development-Huynh-2018View
qDFTFL.UCR_MAGIC_2018.LG09.CESLG09252328Cowpea-Growth_and_development-Huynh-2018View
qDFTFL.UCR_MAGIC_2018.LG09.CVARSLG0910713Cowpea-Growth_and_development-Huynh-2018View
qDFTFL.UCR_MAGIC_2018.LG11.CESLG11504759Cowpea-Growth_and_development-Huynh-2018View
qDFTFL.Vf6/Vf27.LG01-1.11LG01-1858.208--Faba-Flowering_time-AguilarBenitez-2021View
qDFTFL.Vf6/Vf27.LG02.11LG02349.829--Faba-Flowering_time-AguilarBenitez-2021View
qDFTFL.Vf6/Vf27.LG05.11LG05265.522--Faba-Flowering_time-AguilarBenitez-2021View
qDFTFL.Wodjil/P28213.LG01LG0147.1--Lupin-Agronomic_traits-Iqbal-2019View
qDFTFL.Wodjil/P28213.LG21LG2172.2--Lupin-Agronomic_traits-Iqbal-2019View
qDFTFL.Wodjil/P28213.LG35LG3518.1--Lupin-Agronomic_traits-Iqbal-2019View
qDFTFL.Wodjil/P28213.LG40LG402.8--Lupin-Agronomic_traits-Iqbal-2019View
GWAS0000275----Bean-Climbing_traits-Keller-2022View
GWAS0000276----Bean-Climbing_traits-Keller-2022View
GWAS0000277----Bean-Climbing_traits-Keller-2022View
GWAS0000278----Bean-Climbing_traits-Keller-2022View
GWAS0000279----Bean-Climbing_traits-Keller-2022View
GWAS0000280----Bean-Climbing_traits-Keller-2022View
GWAS0000281----Bean-Climbing_traits-Keller-2022View
GWAS0000282----Bean-Climbing_traits-Keller-2022View
GWAS0000283----Bean-Climbing_traits-Keller-2022View
GWAS0000284----Bean-Climbing_traits-Keller-2022View
GWAS0000285----Bean-Climbing_traits-Keller-2022View
GWAS0000286----Bean-Climbing_traits-Keller-2022View
GWAS0000287----Bean-Climbing_traits-Keller-2022View
GWAS0000288----Bean-Climbing_traits-Keller-2022View
YearPublication
2022Keller B, Ariza-Suarez D, Portilla-Benavides AE, Buendia HF, Aparicio JS, Amongi W, Mbiu J, Msolla SN, Miklas P, Porch TG, Burridge J, Mukankusi C, Studer B, Raatz B. Improving Association Studies and Genomic Predictions for Climbing Beans With Data From Bush Bean Populations.. Frontiers in plant science. 2022; 13:830896.
2021Vargas Y, Mayor-Duran VM, Buendia HF, Ruiz-Guzman H, Raatz B. Physiological and genetic characterization of heat stress effects in a common bean RIL population.. PloS one. 2021; 16(4):e0249859.
2021Aguilar-Benitez D, Casimiro-Soriguer I, Maalouf F, Torres AM. Linkage mapping and QTL analysis of flowering time in faba bean.. Scientific reports. 2021 Jul 02; 11(1):13716.
2021Elias JCF, Gonçalves-Vidigal MC, Vaz Bisneta M, Valentini G, Vidigal Filho PS, Gilio TAS, Moda-Cirino V, Song Q. Genetic Mapping for Agronomic Traits in IAPAR 81/LP97-28 Population of Common Bean (Phaseolus vulgaris L.) under Drought Conditions.. Plants (Basel, Switzerland). 2021 Jul 30; 10(8).
2020Sedlar A, Zupin M, Maras M, Razinger J, Sustar-Vozlic J, Pipan B, Meglic V. QTL Mapping for Drought-Responsive Agronomic Traits Associated with Physiology, Phenology, and Yield in an Andean Intra-Gene Pool Common Bean Population. Agronomy. 2020; 10:225.
2020Diaz S, Ariza-Suarez D, Ramdeen R, Aparicio J, Arunachalam N, Hernandez C, Diaz H, Ruiz H, Piepho HP, Raatz B. Genetic Architecture and Genomic Prediction of Cooking Time in Common Bean (Phaseolus vulgaris L.).. Frontiers in plant science. 2020; 11:622213.
2019Iqbal MM, Huynh M, Udall JA, Kilian A, Adhikari KN, Berger JD, Erskine W, Nelson MN. The first genetic map for yellow lupin enables genetic dissection of adaptation traits in an orphan grain legume crop.. BMC genetics. 2019 Aug 14; 20(1):68.
2019Guindon MF, Martin E, Cravero V, Gali KK, Warkentin TD, Cointry E. Linkage map development by GBS, SSR, and SRAP techniques and yield-related QTLs in pea. Molecular breeding. 2019; 39(4):54.
2018Huynh BL, Ehlers JD, Huang BE, Muñoz-Amatriaín M, Lonardi S, Santos JRP, Ndeve A, Batieno BJ, Boukar O, Cisse N, Drabo I, Fatokun C, Kusi F, Agyare RY, Guo YN, Herniter I, Lo S, Wanamaker SI, Xu S, Close TJ, Roberts PA. A multi-parent advanced generation inter-cross (MAGIC) population for genetic analysis and improvement of cowpea (Vigna unguiculata L. Walp.). The Plant journal : for cell and molecular biology. 2018 03; 93(6):1129-1142.
2018daSilva LC, deSouza TLPO, Cruz CD, Carneiro PCS, eSilva FF, deBarros EG, Vianello RP, daFonseca CEL, Song Q, Cregan PB, Carneiro JEdS. Linkage fine-mapping and QTLs affecting morphoagronomic traits of a Mesoamerican 3 Andean RIL common bean population. Euphytica. 2018; 214:221.
2017Catt S, Braich S, Kaur S, Paull J. QTL detection for flowering time in faba bean and the responses to ambient temperature and photoperiod. Euphytica. 2017; 213(125).
2017Chai HH, Ho WK, Graham N, May S, Massawe F, Mayes S. A Cross-Species Gene Expression Marker-Based Genetic Map and QTL Analysis in Bambara Groundnut. Genes. 2017 Feb 22; 8(2).
2016Sallam A, Dhanapal AP, Liu S. Association mapping of winter hardiness and yield traits in faba bean (Vicia faba L.). 2016; 67(1):55-68.
2016Jha A, Tar'an B, Stonehouse R, Warkentin T. Identification of QTLs Associated with Improved Resistance to Ascochyta Blight in an Interspecific Pea Recombinant Inbred Line Population. Crop Science. 2016; 2016(56):2926-2939.
2016González AM, Yuste-Lisbona FJ, Saburido S, Bretones S, De Ron AM, Lozano R, Santalla M. Major Contribution of Flowering Time and Vegetative Growth to Plant Production in Common Bean As Deduced from a Comparative Genetic Mapping. Frontiers in plant science. 2016; 7:1940.
2015Pushpavalli R, Krishnamurthy L, Thudi M, Gaur PM, Rao MV, Siddique KH, Colmer TD, Turner NC, Varshney RK, Vadez V. Two key genomic regions harbour QTLs for salinity tolerance in ICCV 2 × JG 11 derived chickpea (Cicer arietinum L.) recombinant inbred lines. BMC plant biology. 2015; 15(1):124.
2015Jaganathan D, Thudi M, Kale S, Azam S, Roorkiwal M, Gaur PM, Kishor PBK, Nguyen H, Sutton T, Varshney RK. Genotyping-by-sequencing based intra-specific genetic map refines a ‘‘QTL-hotspot” region for drought tolerance in chickpea. Molecular genetics and genomics. 2015; 290(2):559-571.
2015Das S, Upadhyaya HD, Srivastava R, Bajaj D, Gowda CL, Sharma S, Singh S, Tyagi AK, Parida SK. Genome-wide insertion-deletion (InDel) marker discovery and genotyping for genomics-assisted breeding applications in chickpea. DNA research : an international journal for rapid publication of reports on genes and genomes. 2015 Sep 17; 22(5):377-386.
2013Fedoruk MJ, Vandenberg A, and Bett KE. Quantitative Trait Loci Analysis of Seed Quality Characteristics in Lentil using Single Nucleotide Polymorphism Markers. The plant genome 2013 6(3):1-10
2013Hamwieh A, Imtiaz M, Malhotra RS. Multi-environment QTL analyses for drought-related traits in a recombinant inbred population of chickpea (Cicer arientinum L.). Theoretical and applied genetics. 2013; 126(4):1025-1038.
2013Saha GC, Sarker A, Chen W, Vandemark GJ, Muehlbauer FJ. Inheritance and Linkage Map Positions of Genes Conferring Agromorphological Traits Lens culinaris. International Journal of Agronomy. 2013; 2013.
2013Varshney RK, Thudi M, Nayak SN, Gaur PM, Kashiwagi J, Krishnamurthy L, Jaganathan D, Koppolu J, Bohra A, Tripathi S, Rathore S, Jukanti AK, Jayalakshmi V, Vemula A, Singh SJ, Yasin M, Sheshshayee MS, Viswanatha KP. Genetic dissection of drought tolerance in chickpea (Cicer arietinum L.). Theoretical Applied Genetics. 2013; 127(2):445–462.
2012Vadez V, Krishnamurthy L, Thudi M, Anuradha C, Colmer TD, Turner NC, Siddique KHM, Gaur PM, Varshney RK. Assessment of ICCV 2 x JG 62 chickpea progenies shows sensitivity of reproduction to salt stress and reveals QTLs for seed yield and yield components. Molecular Breeding 2012 30(1):9-21.
2012Kumawat G, Raje RS, Bhutani S, Pal JK, Mithra AS, Gaikwad K, Sharma TR, Singh NK. Molecular mapping of QTLs for plant type and earliness traits in pigeonpea (Cajanus cajan L. Millsp.). BMC genetics. 2012 Oct 08; 13:84.
2011Rehman A, Malhotra R, Bett K, Tar'an B, Bueckert R, Warkentin T. Mapping QTL Associated with Traits Affecting Grain Yield in Chickpea (Cicer arietinum L.) under Terminal Drought Stress. Crop science. 2011; 51(2):450-463.
2009Cobos M, Winter P, Kharrat M, Cubero J, Gil J, Millan T, Rubio J. Genetic analysis of agronomic traits in a wide cross of chickpea. Field crops research. 2009; 111(1-2):130-136.
2008Tullu A, Tar'an B, Warkentin T, Vandenberg A. Construction of an Intraspecific Linkage Map and QTL Analysis for Earliness and Plant Height in Lentil. Crop science. 2008; 48(6):2254-2264.
2008Fondevilla S, Satovic Z, Rubiales D, Moreno MT, Torres AM. Mapping of quantitative trait loci for resistance to Mycosphaerella pinodes in Pisum sativum subsp. syriacum. Molecular breeding. 2008; 21(4):439-454.
2008Croxford AE, Rogers T, Caligari PD, Wilkinson MJ. High-resolution melt analysis to identify and map sequence-tagged site anchor points onto linkage maps: a white lupin (Lupinus albus) map as an exemplar. The New phytologist. 2008; 180(3):594-607.
2007Cobos MJ, Rubio J, Fernandez-Romero MD, Garza R, Moreno MT, Millan T, Gil J. Genetic analysis of seed size, yield and days to flowering in a chickpea recombinant inbred line population derived from a Kabuli x Desi cross. Annals of Applied Biology. 2007; 151:33-42.
2004Prioul S, Frankewitz A, Deniot G, Morin G, Baranger A. Mapping of quantitative trait loci for partial resistance to Mycosphaerella pinodes in pea (Pisum sativum L.), at the seedling and adult plant stages. TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 2004 May; 108(7):1322-34.
2002Cho S, Kumar J, Shultz J, Anupama K, Tefera F, Muehlbauer F. Mapping genes for double podding and other morphological traits in chickpea. Euphytica : Netherlands journal of plant breeding. 2002; 128(2):285-292.