Trait Overview
TraitRelative yield
Trait CategoryAgronomic; Yield trait
AbbreviationRY
Definition
Descriptors[view all 2]
QTLs[view all 39]
Descriptors
GroupDescriptor
GRIN_VETCHSeed production
GRIN_VIGNASeed Production
QTLs
Download Table
QTL/MTLLinkage GroupPeakStartStopDatasetMapViewer
qRY.BRB191/SEQ1027.LG10.14LG1062.360.862.8Bean-Drought_tolerance-Nabaterrega-2019View
qRY.BRB191/SEQ1027.LG10.15LG1042.339.845.8Bean-Drought_tolerance-Nabaterrega-2019View
qRY.BRB191/SEQ1027.LG10.cmbLG1041.319.845.8Bean-Drought_tolerance-Nabaterrega-2019View
qRY.BRB191/SEQ1027.LG10.cmb.2LG1062.360.863.8Bean-Drought_tolerance-Nabaterrega-2019View
qRY.Cerinza/G10022.LG01.pm12LG01131.9--Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG01.pm12.2LG01165.4--Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG01.pm12.3LG01167.9--Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG01.pm12.4LG01178.5--Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG02.pm12LG02167.7--Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG03.pm12LG03---Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG04.pm12LG0484.2--Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG05.pm12LG0540--Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG09.pm12LG09---Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG09.pm12.2LG09174.5--Bean-Iron_and_yield-Blair-2012View
qRY.Cerinza/G10022.LG09.pm12.3LG09186.6--Bean-Iron_and_yield-Blair-2012View
qRY.ICC283xICC8261.LG1.IR.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC283xICC8261.LG1.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC283xICC8261.LG1.RF.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC283xICC8261.LG2.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC283xICC8261.LG3.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG1.IR.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG1.IR.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG3.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG4.IR.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG4.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG4.RF.2----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG4.RF.3----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG4.RF.4----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG4.RF.5----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958xICC1882.LG6.RF.1----Chickpea-Drought_Tolerance-Varshney- 2014-
qRY.ICC4958_x_ICC1882-RIL.LG01.IR.1----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qRY.ICC4958_x_ICC1882-RIL.LG04.RF.1----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qRY.ICC4958_x_ICC1882-RIL.LG08.RF.1----Chickpea-QTL_Drought_Tolerance-Jaganathan-2015-
qRY.ICCV2xJG62.LG6.7LCLG6-28.189.2Chickpea-salinity-sensitivity-Vadez-2012View
qRY.Romy5/Assiut125.LG01LG01296.9--Faba_bean-Broomrape_resistance-ElFatah-2019View
qRY.Romy5/Assiut125.LG02LG0233--Faba_bean-Broomrape_resistance-ElFatah-2019View
qRY.WO3391/Speedvale.LG03LG03118.3--Bean-Yield_growth_habit-Beattie-2003View
qRY.WO3391/Speedvale.LG05LG0561.2--Bean-Yield_growth_habit-Beattie-2003View
qRY.WO3391/Speedvale.LG05.2LG0586.4--Bean-Yield_growth_habit-Beattie-2003View
DatasetType
VETCH.SEEDPROD.S9phenotype
S9.COWPEAphenotype
S9.COWPEA.1999phenotype
S9.COWPEA.2000phenotype
S9.COWPEA.2001phenotype
S9.COWPEA.2002phenotype
S9.COWPEA.2014phenotype
S9.COWPEA.96phenotype
S9.COWPEA.97phenotype
S9.COWPEA.98phenotype
S9.COWPEA.EXPERIMENT.2003phenotype
S9.COWPEA.EXPERIMENT.2004phenotype
S9.COWPEA.EXPERIMENT.2005phenotype
S9.COWPEA.EXPERIMENT.2006phenotype
S9.COWPEA.EXPERIMENT.2008phenotype
S9.COWPEA.EXPERIMENT.2009phenotype
S9.COWPEA.EXPERIMENT.2010phenotype
S9.COWPEA.EXPERIMENT.2011phenotype
S9.COWPEA.GH.1999phenotype
S9.COWPEA.GH.97phenotype
S9.COWPEA.GH.98phenotype
S9.COWPEA.GREENHOUSE.2001phenotype
S9.COWPEA.GREENHOUSE.2002phenotype
S9.COWPEA.GREENHOUSE.2003phenotype
S9.COWPEA.GREENHOUSE.2004phenotype
S9.COWPEA.GREENHOUSE.2006phenotype
S9.COWPEA.GREENHOUSE.2007phenotype
S9.COWPEA.GREENHOUSE.2010phenotype
S9.COWPEA.GREENHOUSE.2011phenotype
S9.COWPEA.GREENHOUSE.SUMMER.2012phenotype
S9.COWPEA.HYDROPONICS.2015phenotype
S9.COWPEA.ISABELA.2000phenotype
S9.COWPEA.ISABELA.2001phenotype
S9.COWPEA.ISABELA.2002phenotype
S9.COWPEA.ISABELA.2003phenotype
S9.COWPEA.ISABELA.2004phenotype
S9.COWPEA.ISABELA.2005phenotype
S9.COWPEA.ISABELA.2006phenotype
S9.COWPEA.ISABELA.2007phenotype
S9.COWPEA.ISABELA.2008phenotype
S9.COWPEA.ISABELA.2009phenotype
S9.COWPEA.ISABELA.2011phenotype
S9.COWPEA.ISABELA.2012phenotype
S9.COWPEA.ISABELA.2013phenotype
S9.COWPEA.KENYA.96phenotype
S9.COWPEA.QUARANTINE.GREENHOUSE.2005phenotype
S9.COWPEA.STC.1998phenotype
S9.COWPEA.WESTBROOK.2012phenotype
S9.COWPEA.WESTBROOK.2015phenotype
S9.MUNGBEANphenotype
S9.MUNGBEAN.95phenotype
S9.MUNGBEAN.WESTBROOK.2015phenotype
S9.VIGNA.WESTBROOK.2015phenotype
VIGNA.EXPERIMENT.2017phenotype
YearPublication
2019Abd El-Fatah BES, Nassef DMT. Inheritance of faba bean resistance to Broomrape, genetic diversity and QTL mapping analysis.. Molecular biology reports. 2019 Oct 04.
2019Nabateregga M, Mukankusi C, Raatz B, Edema R, Nkalubo S, Alladassi BME. Quantitative trait loci (QTL) mapping for intermittent drought tolerance in BRB 191 × SEQ 1027 Andean Intragene cross recombinant inbred line population of common bean (Phaseolus vulgaris L.).. African journal of biotechnology. 2019; 18(21).
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.
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.
2012Blair MW, Izquierdo P. Use of the advanced backcross-QTL method to transfer seed mineral accumulation nutrition traits from wild to Andean cultivated common beans. TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 2012 Sep; 125(5):1015-31.
2003Beattie AD, Larsen J, Michaels TE, Pauls KP. Mapping quantitative trait loci for a common bean (Phaseolus vulgaris L.) ideotype. Genome. 2003 Jun; 46(3):411-22.