Trait Overview
TraitDays to first flower
Trait CategoryPhenological; Plant growth and development trait
AbbreviationDFFL
Definition
Descriptors[view all 16]
QTLs[view all 199]
Descriptors
GroupDescriptor
ISU Mung BeanDays to flower
pulse_trait_descriptorDays to first flower
GRIN_CHICKPEADay of first bloom
GRIN_CHICKPEADays to flower
GRIN_FABA_BEANDay of first bloom
GRIN_FABA_BEANDays from bud to flower
GRIN_FABA_BEANDays to flower
GRIN_LENTILDays to flower
GRIN_LUPINDays to First Flowering
GRIN_PEADay of first bloom
GRIN_PEADays to flower
GRIN_PEADegree Days to Flowering
GRIN_PHASEOLUSDays to first flower
GRIN_PIGEON_PEAFLOWERING
GRIN_VETCHDay of first bloom
GRIN_VETCHDays to flower
QTLs
Download Table
QTL/MTLLinkage GroupPeakStartStopDatasetMapViewer
qDFFL.661xErygel.LG6.Greenhouse----Pea-Disease_Resistance_Developmental_Traits-Dirlewanger-1993-
qDFFL.661xErygel.LGb.Greenhouse----Pea-Disease_Resistance_Developmental_Traits-Dirlewanger-1993-
qDFFL.AluProtCGNA/Core98.LG04.F2LG0481--Lupin-Anthracnose_resistance-Lichtin-2020View
qDFFL.AluProtCGNA/Core98.LG10.F2LG1052.5--Lupin-Anthracnose_resistance-Lichtin-2020View
qDFFL.AluProtCGNA/Core98.LG11.F2LG1148--Lupin-Anthracnose_resistance-Lichtin-2020View
qDFFL.AluProtCGNA/Core98.LG23.F2LG2368.1--Lupin-Anthracnose_resistance-Lichtin-2020View
qDFFL.AluProtCGNA/Core98.LG23.F2.2LG2368.2--Lupin-Anthracnose_resistance-Lichtin-2020View
qDFFL.AluProtCGNA/Core98.LG23.F2:3LG2368.1--Lupin-Anthracnose_resistance-Lichtin-2020View
qDFFL.CDCCentennial_x_CDCSage.LG2.1LG2109.6--Pea-Flowering_Traits-Huang-2017View
qDFFL.CDCCentennial_x_CDCSage.LG2.2LG2109.6--Pea-Flowering_Traits-Huang-2017View
qDFFL.CDCCentennial_x_CDCSage.LG3.1LG3132.7--Pea-Flowering_Traits-Huang-2017View
qDFFL.CDCCentennial_x_CDCSage.LG3.2LG3143.7--Pea-Flowering_Traits-Huang-2017View
qDFFL.CDCCentennial_x_CDCSage.LG6b.1LG6b72.3--Pea-Flowering_Traits-Huang-2017View
qDFFL.CDCCentennial_x_CDCSage.LG6b.2LG6b94.6--Pea-Flowering_Traits-Huang-2017View
qDFFL.CDCCentennial_x_CDCSage.LG6b.3LG6b65.5--Pea-Flowering_Traits-Huang-2017View
qDFFL.CDCCentennial_x_CDCSage.LG6b.4LG6b94.6--Pea-Flowering_Traits-Huang-2017View
qDFFL.Chittick/Geebung.LG14LG1473.239.6113.2Lupin-Flowering_time-Taylor-2021View
qDFFL.Consensus.LGIILGII54.3--Pea-Agronomic_Traits-Ferrari-2016View
qDFFL.ConsensusMap_2013.LGI.2007----Faba-Economical_traits-Satovic-2013-
qDFFL.ConsensusMap_2013.LGI.2008----Faba-Economical_traits-Satovic-2013-
qDFFL.ConsensusMap_2013.LGIII.2007----Faba-Economical_traits-Satovic-2013-
qDFFL.ConsensusMap_2013.LGIV.2007.1----Faba-Economical_traits-Satovic-2013-
qDFFL.ConsensusMap_2013.LGIV.2007.2----Faba-Economical_traits-Satovic-2013-
qDFFL.ConsensusMap_2013.LGV.2007----Faba-Economical_traits-Satovic-2013-
qDFFL.ConsensusMap_2013.LGV.2008----Faba-Economical_traits-Satovic-2013-
qDFFL.CRIL2-2019.LG03.16LG0339.5--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.CRIL2-2019.LG03.16.2LG0350.3--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.GPF2/ILWC292-F8.Chr1.1----Chickpea-Heat_tolerance-Kushwah-2021-
qDFFL.GPF2/ILWC292-F8.Chr1.2----Chickpea-Heat_tolerance-Kushwah-2021-
qDFFL.GPF2/ILWC292-F8.Chr2Chr2-232.67250.56Chickpea-Drought_tolerence-Kushwah-2022View
qDFFL.GPF2/ILWC292-F8.Chr4.1Chr4-532.51545.63Chickpea-Drought_tolerence-Kushwah-2022View
qDFFL.GPF2/ILWC292-F8.Chr4.2Chr4-159.6170.46Chickpea-Drought_tolerence-Kushwah-2022View
qDFFL.GPF2/ILWC292-F8.Chr4.3Chr4-532.51545.63Chickpea-Drought_tolerence-Kushwah-2022View
qDFFL.GPF2/ILWC292-F8.Chr6.1Chr6-321.15328.78Chickpea-Drought_tolerence-Kushwah-2022View
qDFFL.GPF2/ILWC292-F8.Chr6.2Chr6-321.15328.78Chickpea-Drought_tolerence-Kushwah-2022View
qDFFL.Hadas.LG8.Gilat----Chickpea-didymella_rabei_resistance-days_to_first_flower-Zhang-2010-
qDFFL.Hadas.LG8.Massuot----Chickpea-didymella_rabei_resistance-days_to_first_flower-Zhang-2010-
qDFFL.HadasxICC5810.LG1.GilatLG1-17.6000000000000014-Chickpea-flowering_time_ascochyta_blight-Lichtenzveig-2006View
qDFFL.HadasxICC5810.LG1.MassuotLG1-15.3-Chickpea-flowering_time_ascochyta_blight-Lichtenzveig-2006View
qDFFL.HadasxICC5810.LG2.GilatLG2-50.7-Chickpea-flowering_time_ascochyta_blight-Lichtenzveig-2006View
qDFFL.HadasxICC5810.LG2.MassuotLG2-48.2-Chickpea-flowering_time_ascochyta_blight-Lichtenzveig-2006View
qDFFL.ICC3996xILWC184.LG3----Chickpea-ABR_flowering trime-Aryamanesh-2010-
qDFFL.ICC3996xILWC184.LG3.2----Chickpea-ABR_flowering trime-Aryamanesh-2010-
qDFFL.ICCV2xJG62.LG3----Chickpea-double_podding-Cho-2002-
qDFFL.ICCV96029_x_CDCFrontier.Chr3----Chickpea-Early_Flowering_Ascochyta_Blight-Daba-2016-
qDFFL.ICCV96029_x_CDCFrontier.Chr4.1----Chickpea-Early_Flowering_Ascochyta_Blight-Daba-2016-
qDFFL.ICCV96029_x_CDCFrontier.Chr4.2----Chickpea-Early_Flowering_Ascochyta_Blight-Daba-2016-
qDFFL.ICCV96029_x_CDCFrontier.Chr4.3----Chickpea-Early_Flowering_Ascochyta_Blight-Daba-2016-
qDFFL.ICCV96029_x_CDCFrontier.Chr4.4----Chickpea-Early_Flowering_Ascochyta_Blight-Daba-2016-
qDFFL.ICCV96029_x_CDCFrontier.Chr5----Chickpea-Early_Flowering_Ascochyta_Blight-Daba-2016-
qDFFL.ICCV96029_x_CDCFrontier.Chr8----Chickpea-Early_Flowering_Ascochyta_Blight-Daba-2016-
qDFFL.ILC3279xICCV2.LG3LG3-19.100000000000001424Chickpea-flowering_time-Talebi-2013View
qDFFL.ILL2601/ILL5588-F2.LG6aLG667.3--Lentil-Early_phenology-Rajandran-2022View
qDFFL.ILL2601/ILL5588-F2.LG6bLG6152.3--Lentil-Early_phenology-Rajandran-2022View
qDFFL.JI1794/NGB5839.LGIII.LDLGIII51.618--Pea-Flowering_time-Williams-2022View
qDFFL.JI1794/NGB5839.LGIII.LD.2LGIII267.94--Pea-Flowering_time-Williams-2022View
qDFFL.JI1794/NGB5839.LGIII.SDLGIII51.618--Pea-Flowering_time-Williams-2022View
qDFFL.JI1794/NGB5839.LGII.LDLGII112.305--Pea-Flowering_time-Williams-2022View
qDFFL.JI1794/NGB5839.LGVI.LDLGVI85.955--Pea-Flowering_time-Williams-2022View
qDFFL.JI1794/NGB5839.LGVI.SDLGVI84.678--Pea-Flowering_time-Williams-2022View
qDFFL.JI1794/NGB5839.LGV.LDLGV138.464--Pea-Flowering_time-Williams-2022View
qDFFL.JI1794/NGB5839.LGV.SDLGV149.281--Pea-Flowering_time-Williams-2022View
qDFFL.JP211874/JP229096.LG11LG1115.1--mungbean-Domestication_related_traits-Isemura-2012View
qDFFL.JP211874/JP229096.LG2LG262.1--mungbean-Domestication_related_traits-Isemura-2012View
qDFFL.JP211874/JP229096.LG4LG475.7--mungbean-Domestication_related_traits-Isemura-2012View
qDFFL.JP211874/JP229096.LG6LG630.1--mungbean-Domestication_related_traits-Isemura-2012View
qDFFL.JP235863/AusTRCF66514.LG01LG0121--Vigna-Domestication-Dachapak-2018View
qDFFL.JP81610/JP89083.LG01.F2LG0117--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG02.F2LG0265.5--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG04.BC1F1LG043.1--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG04.F2LG0481.6--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG05.F2LG0550.3--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG06.F2LG0636.6--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG07.BC1F1LG0754.1--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG07.F2LG0798.7--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG08.BC1F1LG0836.1--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG08.F2LG0855.1--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG09.BC1F1LG0950.8--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG09.F2LG09---Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG10.BC1F1LG1047.8--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG10.F2LG1039.2--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.JP81610/JP89083.LG11.BC1F1LG1140.4--Cowpea-Domestication_traits-Kongjaimun-2012View
qDFFL.Kiev_Mutant/P27174.LG01.2019.nv05LG01168.9167.8169.5Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG01.2019.nv15LG01115.3113.2116.3Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG01.2019.nv15.2LG01131130.9135Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG02.2019.nv05LG022.212.9Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG02.2019.nv05.2LG02100.297.5101.9Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG02.2019.nv15LG02100.599.3102.3Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG02.2019.nv16LG022.20.35.2Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG02.2019.nv16.2LG02100.599.6101.6Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG02.per05LG020.4--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG02.per05.2LG02104.7--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG02.poz16LG02114.1--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG02.prz15LG02121.1--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG03.2019.v15LG0316.214.917.2Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG04.2019.nv15LG04112.1111.2114.7Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG07.2019.v15LG0781.58081.6Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG10.prz15LG1038.3--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG13.2019.nv05LG1399.399.1100.1Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG13.2019.nv15LG1396.294.697Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG13.2019.nv16LG1399.399.199.6Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG13.per05LG1382--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG13.per05.2LG1397.5--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG13.poz16LG1381.8--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG13.poz16.2LG1397.5--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG13.prz15LG1381--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG13.prz15.2LG1393.7--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG16.2019.nv05LG162.21.34.1Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG16.2019.nv15LG160.9-1.7Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG16.2019.nv16LG162.20.43.4Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG16.per05LG163.3--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG16.poz16LG162.3--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG16.prz15LG160.31--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Kiev_Mutant/P27174.LG20.2019.v15LG2040.239.143.7Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG21.2019.nv16LG218.14.211.7Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG24.2019.nv15LG24--2.8Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG24.2019.nv16LG242.1-3.2Lupin-Flowering_time-Rychel-2019View
qDFFL.Kiev_Mutant/P27174.LG24.poz16LG241--Lupin-Agronomic_traits-Ksiazkiewicz-2017View
qDFFL.Lupa/BGE016680.LG01LG01154153.5154.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Lupa/BGE016680.LG01.2LG01188187.5188.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Lupa/BGE016680.LG01.3LG01675673.5677.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Lupa/BGE016680.LG03LG03929927.5929.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Lupa/BGE016680.LG05LG05607606.5607.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Lupa/BGE016680.LG06LG061918.520.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Lupa/BGE016680.LG06.2LG062927.529.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Lupa/BGE016680.LG06.3LG06260259.5261.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Lupa/BGE016680.LG06.4LG06398397.5398.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Lupa/BGE016680.LG06.5LG06407406.5407.5Lentil-Flowering_time-Yuan-2021View
qDFFL.Mekomit/PI527934.LG2.09LG0276.6160.2692.96Chickpea-Vernalization-vanOss-2018View
qDFFL.Mekomit/PI527934.LG3.09LG0332.5226.3138.73Chickpea-Vernalization-vanOss-2018View
qDFFL.Mekomit/PI527934.LG3.10LG0342.2838.6645.9Chickpea-Vernalization-vanOss-2018View
qDFFL.Mekomit/PI527934.LG4.09LG0460.742.379.1Chickpea-Vernalization-vanOss-2018View
qDFFL.Mekomit/PI527934.LG4.10LG0427.351.553.2Chickpea-Vernalization-vanOss-2018View
qDFFL.Mekomit/PI527934.LG7.09LG0728.0522.5533.55Chickpea-Vernalization-vanOss-2018View
qDFFL.Pea-JI1491xCameor-RIL.LGII.Dij08SLG2110.6104.6115.7Pea-Frost_Tolerance-Klein-2014View
qDFFL.Pea-JI1491xCameor-RIL.LGIII.Dij08.1LG3170.3167.3180.9Pea-Frost_Tolerance-Klein-2014View
qDFFL.Pea-JI1491xCameor-RIL.LGIII.Dij08.2LG330.617.939.9Pea-Frost_Tolerance-Klein-2014View
qDFFL.Pea-JI1491xCameor-RIL.LGIII.Dij08SLG3173.8166.4180.9Pea-Frost_Tolerance-Klein-2014View
qDFFL.Pea-JI1491xCameor-RIL.LGIII.Dij09LG330.61340Pea-Frost_Tolerance-Klein-2014View
qDFFL.Pea-JI1491xCameor-RIL.LGIII.Dij10LG330.68.444.7Pea-Frost_Tolerance-Klein-2014View
qDFFL.Pea-JI1491xCameor-RIL.LGVI.Dij08LG664.452.466.3Pea-Frost_Tolerance-Klein-2014View
qDFFL.Pea-JI1491xCameor-RIL.LGVI.Dij08SLG660.65961.9Pea-Frost_Tolerance-Klein-2014View
qDFFL.Pea-JI1491xCameor-RIL.LGVI.Dij09LG665.352.572.1Pea-Frost_Tolerance-Klein-2014View
qDFFL.Pea-JI1491xCameor-RIL.LGVI.Dij10LG661.756.566.3Pea-Frost_Tolerance-Klein-2014View
qDFFL.RIP12-F6:7-RIL.LG03-2.01LG03-26.9--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP12-F6:7-RIL.LG03-2.01ghLG03-26.9--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP12-F6:7-RIL.LG03-2.04LG03-26.9--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP12-F6:7-RIL.LG03-2.08LG03-28.3--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP12-F6:7-RIL.LG03-2.14LG03-26.9--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP12-F6:7-RIL.LG04.04LG0416.9--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP12-F6:7-RIL.LG04.14LG0414.2--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP5-F6:8-RIL.LG03.03cLG033.9--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP5-F6:8-RIL.LG03.03c.2LG039.6--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP5-F6:8-RIL.LG03.03jLG039.6--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP8-F6:8-RIL.LG03-2.03cLG03-22.5--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.RIP8-F6:8-RIL.LG03-2.03c.2LG03-22.5--Chickpea-Flowering_time_growth_habit-Ortega-2019View
qDFFL.TN67/ICPMO_056.LG02.F2:3LG0267--Vigna-Domestication-Yundaeng-2019View
qDFFL.TN67/ICPMO_056.LG06.F2LG0671--Vigna-Domestication-Yundaeng-2019View
qDFFL.Vf6/Vf27.LG02.07LG02796.562--Faba-Flowering_time-AguilarBenitez-2021View
qDFFL.Vf6/Vf27.LG04.07LG04577.528--Faba-Flowering_time-AguilarBenitez-2021View
qDFFL.Vf6/Vf27.LG05.06LG05343.911--Faba-Flowering_time-AguilarBenitez-2021View
qDFFL.Vf6/Vf27.LG05.07LG05343.911--Faba-Flowering_time-AguilarBenitez-2021View
qDFFL.Vf6xVf27.LG01.2007LG01221.83--Faba-QTL_Flowering_Yield-Cruz-Izquierdo-2012View
qDFFL.Vf6xVf27.LG03.2007.1LG03223.41--Faba-QTL_Flowering_Yield-Cruz-Izquierdo-2012View
qDFFL.Vf6xVf27.LG03.2007.2LG03101.4--Faba-QTL_Flowering_Yield-Cruz-Izquierdo-2012View
qDFFL.Vf6xVf27.LG04.2007LG04181.7--Faba-QTL_Flowering_Yield-Cruz-Izquierdo-2012View
qDFFL.Vf6xVf27.LG04.2008LG04208.68--Faba-QTL_Flowering_Yield-Cruz-Izquierdo-2012View
qDFFL.Vf6xVf27.LG07.2007LG0729.36--Faba-QTL_Flowering_Yield-Cruz-Izquierdo-2012View
qDFFL.Vf6xVf27.LG07.2008LG0729.32--Faba-QTL_Flowering_Yield-Cruz-Izquierdo-2012View
qDFFL.WJ/ZW6-F2.chr6----Pea-Agronomic_traits-Yang_2022-
qDFFL.WJ/ZW6-F2.chr7----Pea-Agronomic_traits-Yang_2022-
qDFFL.ZN016/Zhijiang-282.LG03.s10LG03-9394.1Cowpea-Growth_and_development-Xu-2013View
qDFFL.ZN016/Zhijiang-282.LG10.h09LG10-28.750.1Cowpea-Growth_and_development-Xu-2013View
qDFFL.ZN016/Zhijiang-282.LG10.h10LG10-31.538.7Cowpea-Growth_and_development-Xu-2013View
qDFFL.ZN016/Zhijiang-282.LG10.s09LG10-31.539.7Cowpea-Growth_and_development-Xu-2013View
qDFFL.ZN016/Zhijiang-282.LG10.s10LG10-31.542.6Cowpea-Growth_and_development-Xu-2013View
qDFFL.ZN016/Zhijiang-282.LG11.h09LG11-10.337.1Cowpea-Growth_and_development-Xu-2013View
qDFFL.ZN016/Zhijiang-282.LG11.h10LG11-6.442.3Cowpea-Growth_and_development-Xu-2013View
qDFFL.ZN016/Zhijiang-282.LG11.s09LG11-10.342.3Cowpea-Growth_and_development-Xu-2013View
qDFFL.ZN016/Zhijiang-282.LG11.s10LG11-6.443.3Cowpea-Growth_and_development-Xu-2013View
qFLTM.Alpo/ILWL235.LG6LG06201199222Lentil-Ascochyta_disease_severity-Polanco-2019View
qFLTM.BGD132_x_CDCFrontier-CaLG3.Qefl3-1CaLG035--Chickpea-flowering_time-Gaur-2017View
qFLTM.BGD132_x_CDCFrontier-CaLG3.Qefl3-2CaLG0331--Chickpea-flowering_time-Gaur-2017View
qFLTM.BGD132_x_CDCFrontier-CaLG8.Qefl3-3CaLG082--Chickpea-flowering_time-Gaur-2017View
qFLTM.ICC16641×CDCFrontier-CaLG6.Qefl4-1CaLG069--Chickpea-flowering_time-Gaur-2017View
qFLTM.ICC5810_x_CDCFrontier-CaLG1.Qefl2-1CaLG0115--Chickpea-flowering_time-Gaur-2017View
qFLTM.ICC5810_x_CDCFrontier-CaLG3.Qefl2-2CaLG0321--Chickpea-flowering_time-Gaur-2017View
qFLTM.ICC5810_x_CDCFrontier-CaLG4.Qefl2-3CaLG0455--Chickpea-flowering_time-Gaur-2017View
qFLTM.ICC5810_x_CDCFrontier-CaLG8.Qefl2-4CaLG0815--Chickpea-flowering_time-Gaur-2017View
qFLTM.ICCV96029×CDCFrontier-CaLG3.Qefl1-1CaLG03---Chickpea-flowering_time-Gaur-2017View
qFLTM.ICCV96029×CDCFrontier-CaLG4.Qefl1-2CaLG0441--Chickpea-flowering_time-Gaur-2017View
qFLTM.Kaspa_x_Attika.LGIILGII52.6--Pea-Agronomic_Traits-Ferrari-2016View
qFLTM.Kaspa_x_Isard.LGIILGII46.1--Pea-Agronomic_Traits-Ferrari-2016View
flowering time-Efl-1----na-
flowering time-HrLGIII-38.2-naView
reduced vernalization requirement for flowering-KuLG10-59.8-naView
GWAS0000012----Mung_Bean-USDA_panel-GWAS-Sandhu_2020View
GWAS0000013----Mung_Bean-USDA_panel-GWAS-Sandhu_2020View
GWAS0000014----Mung_Bean-USDA_panel-GWAS-Sandhu_2020View
DatasetType
Mung_Bean-USDA_panel-GWAS-Sandhu_2020GWAS
LUPIN.CALIFORNIA.00.JENDEREKphenotype
LUPIN.CALIFORNIA.98.JENDEREKphenotype
VETCH.2017.PULLMANphenotype
Pigeon_pea.S9.CAJANUSphenotype
Pea.mcphee.1996.1997phenotype
Pea.1992.CFERRYphenotype
Pea.1994.CFERRYphenotype
Pea.1995.CFERRYphenotype
Pea.1995.Pullmanphenotype
Pea.1995.SHOUSEphenotype
Pea.1996.CFERRYphenotype
Pea.1998.SHOUSEphenotype
Pea.2002.SHOUSEphenotype
Pea.2003.SHOUSEphenotype
Pea.2005.SHOUSEphenotype
Pea.2008.CFERRYphenotype
Pea.2008.SHOUSEphenotype
Pea.2012.SHOUSEphenotype
Pea.2013.SHOUSEphenotype
Pea.2014.Pullman.PSPphenotype
Pea.2014.SHOUSEphenotype
Pea.2015.SHOUSEphenotype
Pea.2016.Greenhousephenotype
Pea.2017.CFERRY.PSPphenotype
Pea.2017.SHOUSEphenotype
CHICKPEA.2001.PULLMANphenotype
CHICKPEA.2002.BERRADAphenotype
CHICKPEA.2003.BERRADAphenotype
CHICKPEA.2003.CFERRYphenotype
CHICKPEA.2005.CFERRYphenotype
CHICKPEA.2006.CFERRYphenotype
CHICKPEA.2016.CFERRYphenotype
CHICKPEA.2017.CFERRY.CSPphenotype
CHICKPEA.2018.CFERRYphenotype
CHICKPEA.YEARS.WRPISphenotype
LENTIL.1965.IRANphenotype
LENTIL.2001.PULLMANphenotype
LENTIL.2009.ALASKAphenotype
LENTIL.2016.PULLMAN.LSPphenotype
LENTIL.2017.PULLMANphenotype
LENTIL.2017.PULLMAN.LSPphenotype
LENTIL.2018.PULLMAN.LSPphenotype
LENTIL.YEARSphenotype
FABABEAN.2010.PULLMANphenotype
FABABEAN.2013.CHINA.BAOphenotype
FABABEAN.2017.CALIFORNIAphenotype
FABABEAN.2017.PULLMANphenotype
FABABEAN.2018.PULLMANphenotype
PHASEOLUS.2013.WRPISphenotype
PHASEOLUS.2014.WRPISphenotype
PHASEOLUS.2016.KISHAphenotype
PHASEOLUS.DFLR.GH.WRPISphenotype
mungbean-Domestication_related_traits-Isemura-2012QTL
PEA.2018.SHOUSEphenotype
PEA.2019.SHOUSEphenotype
YearPublication
2022Rajandran V, Ortega R, Vander Schoor JK, Butler JB, Freeman JS, Hecht VFG, Erskine W, Murfet IC, Bett KE, Weller JL. Genetic analysis of early phenology in lentil identifies distinct loci controlling component traits.. Journal of experimental botany. 2022 Mar 15.
2022Williams O, Vander Schoor JK, Butler JB, Ridge S, Sussmilch FC, Hecht VFG, Weller JL. The genetic architecture of flowering time changes in pea from wild to crop.. Journal of experimental botany. 2022 Apr 06.
2022Kushwah A, Bhatia D, Barmukh R, Singh I, Singh G, Bindra S, Vij S, Chellapilla B, Pratap A, Roorkiwal M, Kumar S, Varshney RK, Singh S. Genetic mapping of QTLs for drought tolerance in chickpea (Cicer arietinum L.).. Frontiers in genetics. 2022; 13:953898.
2022Improved pea reference genome and pan-genome highlight genomic features and evolutionary characteristics
2021Yuan HY, Caron CT, Ramsay L, Fratini R, Pérez de la Vega M, Vandenberg A, Weller JL, Bett KE. Genetic and gene expression analysis of flowering time regulation by light quality in lentil.. Annals of botany. 2021 Jun 29.
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.
2021Taylor CM, Garg G, Berger JD, Ribalta FM, Croser JS, Singh KB, Cowling WA, Kamphuis LG, Nelson MN. A Trimethylguanosine Synthase1-like (TGS1) homologue is implicated in vernalisation and flowering time control.. TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 2021 Jul 13.
2021Kushwah A, Bhatia D, Singh I, Thudi M, Singh G, Bindra S, Vij S, Gill BS, Bharadwaj C, Singh S, Varshney RK. Identification of stable heat tolerance QTLs using inter-specific recombinant inbred line population derived from GPF 2 and ILWC 292.. PloS one. 2021; 16(8):e0254957.
2021Strategies for the utilization of the USDA mung bean germplasm collection for breeding outcomes
2020Lichtin N, Salvo-Garrido H, Till B, Caligari PDS, Rupayan A, Westermeyer F, Olivos M. Genetic and comparative mapping of Lupinus luteus L. highlight syntenic regions with major orthologous genes controlling anthracnose resistance and flowering time.. Scientific reports. 2020 Nov 05; 10(1):19174.
2019Polanco C, Sáenz de Miera LE, González AI, García P, Fratini R, Vaquero F, Vences FJ, Pérez de la Vega M. Construction of a high-density interspecific (Lens culinaris x L. odemensis) genetic map based on functional markers for mapping morphological and agronomical traits, and QTLs affecting resistance to Ascochyta in lentil. PloS one. 2019; 14(3):e0214409.
2019Ortega R, Hecht VFG, Freeman JS, Rubio J, Carrasquilla-Garcia N, Mir RR, Penmetsa RV, Cook DR, Millan T, Weller JL. Altered Expression of an FT Cluster Underlies a Major Locus Controlling Domestication-Related Changes to Chickpea Phenology and Growth Habit. Frontiers in plant science. 2019; 10:824.
2019Yundaeng C, Somta P, Amkul K, Kongjaimun A, Kaga A, Tomooka N. Construction of genetic linkage map and genome dissection of domestication-related traits of moth bean (Vigna aconitifolia), a legume crop of arid area. Molecular Genetics and Genomics. 2019; 294:621-635.
2019Rychel S, Książkiewicz M, Tomaszewska M, Bielski W, Wolko B. FLOWERING LOCUS T, GIGANTEA, SEPALLATA, and FRIGIDA homologs are candidate genes involved in white lupin (Lupinus albus L.) early flowering. Molecular breeding. 2019; 39(3):43.
2018van Oss R, Gopher A, Kerem Z, Peleg Z, Lev-Yadun S, Sherman A, Zhang H, Vandemark G, Coyne C, Reany O, Abbo S. Independent selection for seed free tryptophan content and vernalization response in chickpea domestication. Plant Breeding. 2018; (137)290-300.
2018Dachapak S, Tomooka N, Somta P, Naito K, Kaga A, Srinives P. QTL analysis of domestication syndrome in zombi pea (Vigna vexillata), an underutilized legume crop. PloS one. 2018; 13(12):e0200116.
2017Huang S, Gali KK, Tar'an B, Warkentin TD, Bueckert RA. Pea Phenology: Crop Potential in a Warming Environment. Crop Science. 2017.
2017Mallikarjuna BP, Samineni S, Thudi M, Sajja SB, Khan AW, Patil A, Viswanatha KP, Varshney RK, Gaur PM. Molecular Mapping of Flowering Time Major Genes and QTLs in Chickpea (Cicer arietinum L.). Frontiers in plant science. 2017; 8:1140.
2017Książkiewicz M, Nazzicari N, Yang H, Nelson MN, Renshaw D, Rychel S, Ferrari B, Carelli M, Tomaszewska M, Stawiński S, Naganowska B, Wolko B, Annicchiarico P. A high-density consensus linkage map of white lupin highlights synteny with narrow-leafed lupin and provides markers tagging key agronomic traits. Scientific reports. 2017 11 10; 7(1):15335.
2016Daba K, Deokar A, Banniza S, Warkentin T, Tar'an B. QTL mapping of early flowering and resistance to ascochyta blight in chickpea. 2016; 59(2016):413-425.
2016Ferrari B., Romani M., Aubert G., Boucherot K., Burstin J., Pecetti L., Huart-Naudet M., Klein A., Annicchiarico P. . Association of SNP Markers with Agronomic and Quality Traits of Field Pea in Italy. Czech Journal of Genetics and Plant Breeding. 2016; 52(3):83-93.
2014Klein A, Houtin H, Rond C, Marget P, Jacquin F, Boucherot K, Huart M, Riviere N, Boutet G, Lejeune-Henaut I, Burstin J. QTL analysis of frost damage in pea suggests different mechanisms involved in frost tolerance. Theoretical and Applied Genetics. 2014; 127(6):1319-1330.
2014Kroc M, Koczyk G, Święcicki W, Kilian A, Nelson MN. New evidence of ancestral polyploidy in the Genistoid legume Lupinus angustifolius L. (narrow-leafed lupin). TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 2014 May; 127(5):1237-49.
2013Jamalabadi JG, Saidi A, Karami E, Kharkesh M, Talebi R. Molecular mapping and characterization of genes governing time to flowering, seed weight, and plant height in an intraspecific genetic linkage map of chickpea (Cicer arietinum). Biochemical genetics. 2013 Jun; 51(5-6):387-97.
2013Satovic Z, Avila CM, Cruz-Izquierdo S, Diaz-Ruiz R, Garcia-Ruiz M, Palomino C, Gutierrez N, Vitale S, Ocana-Moral S, Gutierrez MV, Cubero JI, Torres AM. A reference consensus genetic map for molecular markers and economically important traits in faba bean (Vicia faba L.). 2013; 14:932.
2013Xu P, Wu X, Wang B, Hu T, Lu Z, Liu Y, Qin D, Wang S, Li G. QTL mapping and epistatic interaction analysis in asparagus bean for several characterized and novel horticulturally important traits. BMC genetics. 2013 Feb 02; 14:4.
2012Cruz-Izquierdo S, Avila CM, Satovic Z, Palomino C, Gutierrez N, Ellwood SR, Phan HTT, Cubero JI, Torres AM. Comparative genomics to bridge Vicia faba with model and closely-related legume species: stability of QTLs for flowering and yield-related traits. Theoretical and applied genetics. 2012; 125(8):1767-1782.
2012Isemura T, Kaga A, Tabata S, Somta P, Srinives P, Shimizu T, Jo U, Vaughan DA, Tomooka N. Construction of a genetic linkage map and genetic analysis of domestication related traits in mungbean (Vigna radiata). PloS one. 2012; 7(8):e41304.
2012Kongjaimun A, Kaga A, Tomooka N, Somta P, Vaughan DA, Srinives P. The genetics of domestication of yardlong bean, Vigna unguiculata (L.) Walp. ssp. unguiculata cv.-gr. sesquipedalis. Annals of botany. 2012 May; 109(6):1185-200.
2010Zhang X, Scheuring CF, Zhang M, Dong JJ, Zhang Y, Huang JJ, Lee MK, Abbo S, Sherman A, Shtienberg D, Chen W, Muehlbauer F, Zhang HB. A BAC/BIBAC-based physical map of chickpea, Cicer arietinum L. BMC genomics. 2010; 11:501.
2010Aryamanesh N, Nelson MN, Yan G, Clarke HJ, Siddique KHM. Mapping a major gene for growth habit and QTLs for ascochyta blight resistance and flowering time in a population between chickpea and Cicer reticulatum. Euphytica. 2010; 173(3):307-319.
2008Lejeune-Hénaut I, Hanocq E, Béthencourt L, Fontaine V, Delbreil B, Morin J, Petit A, Devaux R, Boilleau M, Stempniak JJ, Thomas M, Lainé AL, Foucher F, Baranger A, Burstin J, Rameau C, Giauffret C. The flowering locus Hr colocalizes with a major QTL affecting winter frost tolerance in Pisum sativum L. TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 2008 May; 116(8):1105-16.
2006Lichtenzveig J, Bonfil DJ, Zhang HB, Shtienberg D, Abbo S. Mapping quantitative trait loci in chickpea associated with time to flowering and resistance to Didymella rabiei the causal agent of Ascochyta blight. TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 2006 Nov; 113(7):1357-69.
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.
2000Kumar J, van Rheenen HA. A major gene for time of flowering in chickpea. The Journal of heredity. 2000; 91(1):67-8.
1994Dirlewanger E, Isaac PG, Ranade S, Belajouza M, Cousin R, de Vienne D. Restriction fragment length polymorphism analysis of loci associated with disease resistance genes and developmental traits in Pisum sativum L. TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 1994 Apr; 88(1):17-27.