| Papers |
|---|
| | Ainley et al. 1988
"Sequence and characterization of two auxin-regulated genes from soybean" |
| | Akond et al. 2014a
"Identification of Quantitative Trait Loci (QTL) Underlying Protein, Oil, and Five Major Fatty AcidsÕ Contents in Soybean " |
| | Andreu et al. 2010
"The GmFAD7 gene family from soybean: identification of novel genes and tissue-specific conformations of the FAD7 enzyme involved in desaturase activity" |
| | Andreu et al. 2010A
"The GmFAD7 gene family from soybean: identification of novel genes and tissue-specific conformations of the FAD7 enzyme involved in desaturase activity" |
| | Andreu et al., 2010A
"The GmFAD7 gene family from soybean: identification of novel genes and tissue-specific conformations of the FAD7 enzyme involved in desaturase activity" |
| | Asekova et al. 2016A
"Novel Quantitative Trait Loci for Forage Quality Traits in a Cross between PI 483463 and ÔHutchesonÕ in Soybean" |
| | Bachlava et al. 2009
"Mapping and Comparison of Quantitative Trait Loci for Oleic Acid Seed Content in Two Segregating Soybean Populations" |
| | Bai et al. 2020
"Overexpression of soybean GmPLD-gamma enhances seed oil content and modulates fatty acid composition in transgenic Arabidopsis" |
| | Balague and Pech 1985
"Relationship between the activity of the ethylene-forming enzyme and the level of intracellular 2,4-dichlorophenoxyacetic acid in pear cell cultures in vitro" |
| | Benitez et al. 2012
"Single-Base Substitution in P1B-ATPase Gene Is Associated with a Major QTL for Seed Cadmium Concentration in Soybean" |
| | Benscher et al. 1996
"A strain of soybean mosaic virus infecting Passiflora spp. in Colombia." |
| | Beracini et al. 1998
"Biological and physicochemical properties of cowpea severe mosaic comovirus isolated from soybean in the State of Parana" |
| | Bhat et al. 2002
"Nucleocapsid protein gene sequence studies suggest that soybean bud blight is caused by a strain of groundnut bud necrosis virus" |
| | Bilyeu et al. 2003
"Three Microsomal Omega-3 Fatty-acid Desaturase Genes Contribute to Soybean Linolenic Acid Levels" |
| | Bilyeu et al. 2011A
"Novel FAD3 Mutant Allele Combinations Produce Soybeans Containing 1% Linolenic Acid in the Seed Oil" |
| | Bolon et al. 2011
"Phenotypic and Genomic Analyses of a Fast Neutron Mutant Population Resource in Soybean" |
| | Brummer et al. 1995
"Mapping the Fan locus controlling linolenic acid content in soybean oil" |
| | Butler et al. 2021
"Soybean cyst nematode resistance QTL cqSCN-006 alters the expression of a gamma-SNAP protein" |
| | Campbell et al. 2015A
"Identical Substitutions in Magnesium Chelatase Paralogs Result in Chlorophyll-Deficient Soybean Mutants" |
| | Cardinal et al. 2014A
"Mapping the low palmitate fap1 mutation and validation of its effects in soybean oil and agronomic traits in three soybean populations" |
| | Chen et al. 2020
"Soybean AP1 homologs control flowering time and plant height" |
| | Cheng et al. 2019
"CRISPR/Cas9-mdiated targeted mutagenesis of GmLHY genes alters plant height and internode length in soybean" |
| | Chi et al., 2011A
"Genome-Wide Analysis of Fatty Acid Desaturases in Soybean (Glycine max)" |
| | Cober et al. 2003
"Partial Resistance to White Mold in a Transgenic Soybean Line" |
| | de Ronde et al. 2000
"Effect of antisense L-Delta(1)-pyrroline-5-carboxylate reductase transgenic soybean plants subjected to osmotic and drought stress" |
| | Di et al. 2015A
"Linkage mapping, molecular cloning and functional analysis of soybean gene Fg3 encoding flavonol 3-O-glucoside/galactoside (1->2) glucosyltransferase" |
| | Diers and Shoemaker 1992
"Restriction Fragment Length Polymorphism Analysis of Soybean Fatty Acid Content" |
| | Dinkins et al 2001
"Increased sulfur amino acids in soybean plants overexpressing the maize 15 kDa zein protein" |
| | Dobbels et al. 2017A
"An Induced Chromosomal Translocation in Soybean Disrupts a KASI Ortholog and Is Associated with a High-Sucrose and Low-Oil Seed Phenotype." |
| | Donaldson et al. 2001
"Soybean plants expressing an active oligomeric oxalate oxidase from the wheat gf-2.8 (germin) gene are resistant to the oxalate-secreting pathogen Sclerotina sclerotiorum" |
| | Kong et al. 2010
"Two coordinately regulated homologs of Flowering Locus T are involved in the control of photoperiodic flowering in soybean." |
| | Espina et al. 2018a
"Development and Phenotypic Screening of an Ethyl Methane Sulfonate Mutant Population in Soybean" |
| | Fan et al. 2015a
"Analysis of additive and epistatic quantitative trait loci underlying fatty acid concentrations in soybean seeds across multiple environments" |
| | Fang et al. 2017
"Genome-wide association studies dissect the genetic networks underlying agronomical traits in soybean" |
| | Gao et al. 2011
"The soybean GmbZIP1 transcription factor enhances multiple abiotic stress tolerances in transgenic plants." |
| | Gene ID: 100037456
"microsomal omega-3-fatty acid desaturase" |
| | Gene ID: 100037456
"omega-3 fatty acid desaturase, endoplasmic reticulum" |
| | Gene ID: 100170649
"salicylic acid methyl transferase-like protein" |
| | Gene ID: 100170650
"salicylic acid methyl transferase-like protein" |
| | Gene ID: 100217335
"fatty acid desaturase 8" |
| | Gene ID: 100305351
"omega-3 fatty acid desaturase" |
| | Gene ID: 100499626
"chloroplast omega 3 fatty acid desaturase isoform 2" |
| | Gene ID: 100794124
"purple acid phosphatase 2-like" |
| | Gene ID: 100779640
"probable inactive purple acid phosphatase 1" |
| | Gene ID: 100780737
"abscisic acid 8'-hydroxylase 1" |
| | Gene ID: 100780912
"omega-6 fatty acid desaturase, endoplasmic reticulum isozyme 2-like" |
| | Gene ID: 100780912
"fatty acid desaturase-2" |
| | Gene ID: 100782338
"purple acid phosphatase 18-like" |
| | Gene ID: 100782755
"purple acid phosphatase 22-like" |
| | Gene ID: 100784006
"purple acid phosphatase 15-like" |
| | Gene ID: 100787655
"purple acid phosphatase 8-like" |
| | Gene ID: 100787977
"purple acid phosphatase 18-like" |
| | Gene ID: 100787977
"Phytase, purple acid phosphatase 18-like" |
| | Gene ID: 100789603
"purple acid phosphatase 7" |
| | Gene ID: 100790228
"probable purple acid phosphatase 20" |
| | Gene ID: 100790529
"purple acid phosphatase 4" |
| | Gene ID: 100792496
"purple acid phosphatase 23" |
| | Gene ID: 100793835
"purple acid phosphatase 17-like" |
| | Gene ID: 100794764
"probable purple acid phosphatase 20" |
| | Gene ID: 100799517
"omega-3 fatty acid desaturase, chloroplastic-like" |
| | Gene ID: 100799517
"omega-3 fatty acid desaturase, chloroplastic" |
| | Gene ID: 100799931
"probable inactive purple acid phosphatase 2-like" |
| | Gene ID: 100805040
"omega-6 fatty acid desaturase, endoplasmic reticulum isozyme 2-like" |
| | Gene ID: 100805040
"fatty acid desaturase-2" |
| | Gene ID: 100805777
"omega-6 fatty acid desaturase, endoplasmic reticulum isozyme 1" |
| | Gene ID: 100805777
"omega-6 fatty acid desaturase" |
| | Gene ID: 100807555
"purple acid phosphatase 36" |
| | Gene ID: 100807555
"Phytase, purple acid phosphatase-like" |
| | Gene ID: 100809290
"omega-6 fatty acid desaturase, endoplasmic reticulum isozyme 2-like" |
| | Gene ID: 100809290
"fatty acid desaturase-2" |
| | Gene ID: 100813453
"purple acid phosphatase 17-like" |
| | Gene ID: 100814531
"probable inactive purple acid phosphatase 27-like" |
| | Gene ID: 100815854
"purple acid phosphatase-like" |
| | Gene ID: 100817130
"probable inactive purple acid phosphatase 1" |
| | Gene ID: 100817498
"purple acid phosphatase 22-like" |
| | Gene ID: 100818438
"bifunctional purple acid phosphatase 26-like" |
| | Gene ID: 100819446
"purple acid phosphatase 22" |
| | Gene ID: 102665364
"purple acid phosphatase 2-like" |
| | Gene ID: 106794158
"purple acid phosphatase 15-like" |
| | Gene ID: 547470
"microsomal omega-3 fatty acid desaturase" |
| | Gene ID: 547470
"microsomal omega-3 fatty acid desaturase" |
| | Gene ID: 547708
"PAP3, purple acid phosphatase-like protein" |
| | Gene ID: 547715
"microsomal omega-3-fatty acid desaturase" |
| | Gene ID: 547715
"microsomal omega-3-fatty acid desaturase" |
| | Gene ID: 547807
"omega-6 fatty acid desaturase, chloroplastic" |
| | Gene ID: 547814
"omega-6 fatty acid desaturase, endoplasmic reticulum isozyme 1" |
| | Gene ID: 606505
"purple acid phosphatase" |
| | Gene ID: 732540
"microsomal omega-3 fatty acid desaturase" |
| | Gene ID: 732540
"omega-3 fatty acid desaturase D" |
| | Ghio et al. 2013
"Molecular characterization of Als1, an acetohydroxyacid synthase mutation conferring resistance to sulfonylurea herbicides in soybean" |
| | Gillman et al. 2014A
"Deletions of the SACPD-C locus elevate seed stearic acid levels but also result in fatty acid and morphological alterations in nitrogen fixing nodules" |
| | Gu et al. 2002
"Diversity among isolates of Bean pod mottle virus" |
| | Ha et al. 2014A
"Identification of quantitative trait loci controlling linolenic acid concentration in PI483463 (Glycine soja)." |
| | Hata et al. 1998A
"Expression of a soybean nodule-enhanced phosphoenolpyruvate carboxylase gene that shows striking similarity to another gene for a house-keeping isoform." |
| | Head et al. 2012
"Mutations in the soybean 3-ketoacyl-ACP synthase gene are correlated with high levels of seed palmitic acid." |
| | Head et al. 2012A
"Mutations in the soybean 3-ketoacyl-ACP synthase gene are correlated with high levels of seed palmitic acid." |
| | Hegeman and Grabau 2001
"A Novel Phytase with Sequence Similarity to Purple Acid Phosphatases Is Expressed in Cotyledons of Germinating Soybean Seedlings" |
| | Hyten et al. 2004B
"Molecular mapping and identification of soybean fatty acid modifier quantitative trait loci" |
| | Islam et al. 2019
"Genomic changes and biochemical alterations of seed protein and oil content in a subset of fast neutron induced soybean mutants." |
| | Iverson et al. 2001
"Induction of soybean resistance to the Mexican bean beetle (Coleoptera : Coccinellidae)" |
| | Jeong et al. 2012A
"Ln Is a Key Regulator of Leaflet Shape and Number of Seeds per Pod in Soybean" |
| | Johnk and Jones 2001
"Differentiation of three homogeneous groups of Rhizoctonia solani anastomosis group 4 by analysis of fatty acids" |
| | Jones et al. 2002
"Redox control in heme proteins: Electrostatic substitution in the active site of leghemoglobin" |
| | Juwattanasomran et al. 2011
"A SNP in GmBADH2 gene associates with fragrance in vegetable soybean variety Kaori and SNAP marker development for the fragrance" |
| | Juwattanasomran et al. 2012
"Identification of a new fragrance allele in soybean and development of its functional marker" |
| | Keim et al. 1997
"A high-density soybean genetic map based upon AFLP markers" |
| | Kim et al. 2010
"Analysis of Quantitative Trait Loci (QTLs) for Seed Size and Fatty Acid Composition Using Recombinant Inbred Lines in Soybean" |
| | Kim et al. 2012C
"Divergence of flowering genes in soybean" |
| | Koenning et al. 1987
"Control of Pratylenchus brachyurus with selected nonfumigant nematicides on a tolerant and a sensitive soybean cultivar." |
| | Koning et al. 2003
"Soybean seedcoat mottling: Association with Soybean mosaic virus and Phomopsis spp. seed infection" |
| | Lakhssassi et al. 2020
"A pathogenesis-related protein GmPR08-Bet VI promotes a molecular interaction between the GmSHMT08 and GmSNAP18 in resistance to Heterodura glycines." |
| | Leamy et al. 2017a
"A genome-wide association study of seed composition traits in wild soybean (Glycine soja)" |
| | Li et al. 2002
"Molecular Mapping Genes Conditioning Reduced Palmitic Acid Content in N87-2122-4 Soybean" |
| | Li et al. 2011
"Genetic structure composed of additive QTL, epistatic QTL pairs and collective unmapped minor QTL conferring oil content and fatty acid components of soybeans" |
| | Li et al. 2012
"Identification of soybean purple acid phosphatase genes and their expression responses to phosphorus availabilty and symbiosis." |
| | Li et al. 2012a
"Identification of soybean purple acid phosphatase genes and their expression responses to phosphorus availability and symbiosis" |
| | Li et al. 2015a
"Targeted association mapping demonstrating the complex molecular genetics of fatty acid formation in soybean" |
| | Li et al. 2018c
"Identification and verification of pleiotropic QTL controlling multiple amino acid contents in soybean seed" |
| | Lian et al.
"QTL analysis of root traits as related to phosphorus efficiency in soybean" |
| | Liang et al. 2010b
"QTL analysis of root traits as related to phosphorus efficiency in soybean" |
| | Lindermayr et al. 2002A
"Divergent members of a soybean (Glycine max L.) 4 coumarate:coenzyme A ligase gene family Primary structures, catalytic properties, and differential expression" |
| | Lindermayr et al. 2003A
"Deletion of a singel amino acid residue from different 4-coumarate:CoA ligases from Soybean results in the generation of new substrate specificites" |
| | Liu et al, 2010b
"The soybean stem growth habit gene Dt1 is an ortholog of Arabidopsis TERMINAL FLOWER1" |
| | Liu et al. 2001A
"The matrix metalloproteinase gene GmMMP2 is activated in response to pathogenic infections in soybean" |
| | Liu et al. 2011
"Soybean homologs of MPK4 negatively regulate defense responses and positively regulate growth and development." |
| | Liu et al. 2011a
"Soybean homologs of MPK4 negatively regulate defense responses and positively regulate growth and development." |
| | Liu et al. 2017
"Functional diversification of Flowering Locus T homologs in soybean: GmFT1a and Gm FT2a/5a have opposite roles in controlling flowering and maturation." |
| | Lopez et al. 2002
"Expressed variants of [Delta]12-fatty acid desaturase for the high oleate trait in spanish market-type peanut lines" |
| | Ludwig and Tenhaken 2000
"Defence gene expression in soybean is linked to the status of the cell death program." |
| | Maruyama et al. 2020
"Metabolite/phytohormone-gene regulatory networks in soybean organs under dehydration conditions revealded by integration analysis." |
| | Masalkar and Roberts 2015A
"Glutamine synthetase isoforms in nitrogen-fixing soybean nodules: Distinct oligomeric structures and thiol-based regulation." |
| | McKern et al. 1992B
"Coat protein properties suggest that azuki bean mosaic virus, blackeye cowpea mosaic virus, peanut stripe virus, and three isolates from soybean are all strains of the same potyvirus" |
| | Melo et al. 2018
"Revisiting the soybean GmNAC superfamily" |
| | Moellers et al. 2017a
"Main and epistatic loci studies in soybean for Sclerotinia sclerotiorum resistance reveal multiple modes of resistance in multi-environments" |
| | Mohammadi and Karr 2001
"Membrane lipid peroxidation, nitrogen fixation and leghemoglobin content in soybean root nodule" |
| | Mohr and Cahill 2001
"Relative roles of glyceollin, lignin and the hypersensitive response and the influence of ABA in compatible and incompatible interactions of soybeans with Phytophthora sojae" |
| | Muckenschnabel et al. 2001
"Markers for oxidative stress associated with soft rots in French beans(Phaseolus vulgaris) infected by Botrytis cinerea" |
| | Nguyen et al. 2019
"Ectopic Expression of Glycine max GmNac109 enhances drought tolerance and ABA sensitivity in Arabidopsis" |
| | Nouri et al. 2012A
"Characterization of calnexin in soybean roots and hypocotyls under osmotic stress" |
| | Padgett et al. 1995
"Development, identification, and characterization of a glyphosate-tolerant soybean line." |
| | Pantalone et al. 2002
"Genetic regulation of elevated stearic acid concentration in soybean oil" |
| | Panthee et al. 2006
"Modifier QTL for fatty acid composition in soybean oil" |
| | Panthee et al. 2006B
"Genomic regions associated with amino acid composition in soybean" |
| | Pappu et al. 1998
"DIFFERENTIATION OF BIOLOGICALLY DISTINCT PEANUT STRIPE POTYVIRUS STRAINS BY A NUCLEOTIDE POLYMORPHISM-BASED ASSAY" |
| | Pham et al. 2011A
"A novel FAD2-1 A allele in a soybean plant introduction offers an alternate means to produce soybean seed oil with 85% oleic acid content" |
| | Pham et al. 2013A
"Characterization of the fan1 locus in soybean line A5 and development of molecular assays for high-throughput genotyping of FAD3 genes" |
| | Pouwels et al. 2002
"Cowpea mosaic virus: effects on host cell processes" |
| | Preiszner et al. 2001
"Structure and activity of a soybean Adh promoter in transgenic hairy roots" |
| | Primomo et al. 2002A
"Inheritance and Interaction of Low Palmitic and Low Linolenic Soybean" |
| | Primomo et al. 2002B
"Genotype x Environment Interactions, Stability, and Agronomic Performance of Soybean with Altered Fatty Acid Profiles" |
| | Priolli et al. 2015a
"Association mapping of oil content and fatty acid components in soybean" |
| | Qi et al. 2011A
"An Integrated Quantitative Trait Locus Map of Oil Content in Soybean, Glycine max (L.) Merr., Generated Using a Meta-Analysis Method for Mining Genes" |
| | Rahman et al. 1998
"Genetic relationships of soybean mutants for different linolenic acid contents." |
| | Rahman et al. 2001
"Combining ability in loci for high oleic and low linolenic acids in soybean" |
| | Ramamurthy et al. 2014a
"Identification of new QTLs for seed mineral, cysteine, and methionine concentrations in soybean" |
| | Reid et al. 2011
"Inoculation- and nitrate-induced CLE peptides of soybean control NARK-dependent nodule formation" |
| | Reinprecht and Pauls 2016A
"Microsomal Omega-3 Fatty Acid Desaturase Genes in Low Linolenic Acid Soybean Line RG10 and Validation of Major Linolenic Acid QTL" |
| | Reinprecht et al. 2006
"Seed and agronomic QTL in low linolenic acid, lipoxygenase-free soybean (Glycine max (L.) Merrill) germplasm." |
| | Rodas et al. 2016A
"Cloning and characterization of soybean gene Fg1 encoding flavonal 3-O-glucoside/galactoside (1-6) glucosyltransferase" |
| | Scott and Phatak 1979
"Properties of black gram mottle virus" |
| | Seo et al. 2020
"QTL Mapping and Candidate Gene Analysis for Pod Shattering Tolerance in Soybean (Glycine max) " |
| | Shibata et al. 2008
"Genetic relationship between lipid content and linolenic acid concentration in soybean seeds" |
| | Silva et al. 2001B
"Differential aluminum tolerance in soybean: An evaluation of the role of organic acids" |
| | Song et al. 1993
"Purification and partial characterization of a host-specific pathotoxin from culture filtrates of Septoria glycines." |
| | Spencer et al. 2003
"Mapping the Fas locus controlling stearic acid content in soybean" |
| | Spencer et al. 2004
"Molecular Markers Associated with Linolenic Acid in Soybean" |
| | Staswick et al. 2001
"Efficient down-regulation of the major vegetative storage protein genes in transgenic soybean does not compromise plant productivity" |
| | Stephens et al. 1990
"Iron-deficiency chlorosis evaluation of soybean with tissue culture." |
| | Stojsin et al. 1998
"Use of gene substitution values to quantify partial dominance in low palmitic acid soybean." |
| | Stombaugh et al. 2004
"Quantitative Trait Loci Associated with Cell Wall Polysaccharides in Soybean Seed" |
| | Sugawara et al. 2019
"Symbiotic incompatibility between soybean and Bradyrhizobium arises from one amino acid determinant in soybean Rj2 protein" |
| | Sun et al. 2019
"Characterization and quantitative trait locus mapping of late-flowering from a thai soybean cultivar introduced into a photoperiod-insensitive genetic background." |
| | Sun et al. 2021
"Genome-wide analysis of the C2 domain family in soybean and identification of a putative abiotic stress response gene GmC2-148" |
| | Takahashi et al. 2011A
"Nonsense mutation of an MYB transcription factor is associated with purple-blue flower color in soybean" |
| | Tenhaken and Ruebel 1997
"Salicylic acid is needed in hypersensitive cell death in soybean but does not act as a catalase inhibitor" |
| | Terauchi et al. 2001
"Comparison of complete nucleotide sequences of genomic RNAs of four Soybean dwarf virus strains that differ in their vector specificity and symptom production" |
| | Tian et al. 2010
"Artificial selection for determinate growth habit in soybean" |
| | Tian et al. 2010A
"Artificial selection for determinate growth habit in soybean" |
| | Tian et al. 2020
"Silencing GmFLS2 enhances the susceptibility of soybean to bacterial pathogen through attenuating the activation of GmMAPK signalling pathway." |
| | Toda et a. 2002
"A single-base deletion in soybean flavonoid 3[prime]-hydroxylase gene is associated with gray pubescence color" |
| | Tran et al. 2019
"Identification and functional characterization of a soybean (Glycine max) thioesterase that acts on inteermediates of fatty acid biosynthesis" |
| | Tripathi et al. 2021
"QTL mapping for long juvenile trait in soybean accession AGS 25 identifies association between a functional allele of FT2a and delayed flowering" |
| | Turner et al. 2011a
"Experimental sink removal induces stress responses, including shifts in amino acid and phenylpropanoid metabolism, in soybean leaves." |
| | Vogel et al. 2002
"PMR6, a Pectate Lyase–Like Gene Required for Powdery Mildew Susceptibility in Arabidopsis" |
| | Walker et al. 2006
"Genetic Mapping of Loci Associated with Seed Phytic Acid Content in CX1834-1-2 Soybean" |
| | Wang et al. 2001
"Seed physiological performance of soybeans with altered saturated fatty acid contents." |
| | Wang et al. 2012
"Quantitative trait locus analysis of saturated fatty acids in a population of recombinant inbred lines of soybean" |
| | Wang et al. 2014
"Enhanced disease susceptibility1 mediates pathogen resistance and virulence function of a bacterial effector in soybean" |
| | Wang et al. 2016
"Genome-wide analysis of phosphoenolpyruvate carboxylase gene family and their response to abiotic stresses in soybean" |
| | Wang et al. 2016A
"Genome-wide Analysis of Phosphoenolpyruvate Carboxylase Gene Family and Their Response to Abiotic Stresses in Soybean" |
| | Wang et. al 2015C
"Quantitative trait locus analysis of seed sulfur-containing amino acids in two recombinant inbred line populations of soybean" |
| | Warrington et al. 2015
"QTL for seed protein and amino acids in the Benning _ Danbaekkong soybean population" |
| | Weeds et al. 1999
"A major gene controlling pathogenicity in Botryotinia fuckeliana (Botrytis cinerea)" |
| | Wegulo et al. 1998
"Soybean cultivar responses to Sclerotinia sclerotiorum in field and controlled environment studies." |
| | Wilson et al. 2001A
"Effect of alleles governing 16:0 concentration on glycerolipid composition in developing soybeans" |
| | Wilson et al. 2002
"New gene combinations governing saturated and unsaturated fatty acid composition in soybean" |
| | Wong et al. 2009a
"Molecular processes underlying the floral transition in the soybean shoot apical meristem." |
| | Xie et al. 2012
"SSR- and SNP-related QTL underlying linolenic acid and other fatty acid contents in soybean seeds across multiple environments" |
| | Xue et al. 2019
"Genome-wide analysis reveals the role of mediator complex in the soybean-Phytophthora sojae interaction." |
| | Yamamoto et al. 1990
"Isozyme polymorphism in Phialophora gregata isolates from adzuki bean and soybean in Japan" |
| | Yao et al. 2020
"Quantitative trait loci analysis of seed oil content and composition of wild and cultivated soybean." |
| | Yao et al. 2020
"Quantitative trait loci analysis of seed oil content and composition of wild and cultivated soybean " |
| | Yi and Hwang 1998
"Molecular cloning and characterization of a new basic peroxidase cDNA from soybean hypocotyls infected with Phytophthora sojae f.sp. glycines" |
| | Yu and Kiang 1993B
"Genetic characterization of a leaf margin necrosis mutant in wild annual soybean (Glycine soja)." |
| | Yu et al. 2019
"Quantitative proteomic analysis of two soybean low phytic acid mutants to identify the genes associated with seed field emergence" |
| | Yu et al. 2019
"Identification of QTN and candidate gene for seed-flooding tolerance in soybean [Glycine max (L.) Merr.] using genome-wide association study (GWAS)" |
| | Zhang et al. 2009a
"Detection of quantitative trait loci for phosphorus deficiency tolerance at soybean seedling stage" |
| | Zhang et al. 2013
"Genetic characterization and fine mapping of the novel Phytophthora resistance gene in a Chinese soybean cultivar" |
| | Zhang et al. 2013
"Identification and Candidate Gene Analysis of a Novel Phytophthora Resistance Gene Rps10 in a Chinese Soybean Cultivar" |
| | Zhang et al. 2014
"The acid phosphatase-encoding gene GmACP1 contributes to soybean tolerance to low-phosphorus stress" |
| | Zhang et al. 2014a
"The Acid Phosphatase-Encoding Gene GmACP1 Contributes to Soybean Tolerance to Low-Phosphorus Stress" |
| | Zhang et al. 2014A
"The acid phosphatase-encoding gene GmACP1 contributes to soybean tolerance to low-phosphorus stress." |
| | Zhang et al. 2017a
"The Acid Phosphatase-Encoding Gene GmACP1 Contributes to Soybean Tolerance to Low-Phosphorus Stress" |
| | Zhang et al. 2018a
"Genome-wide Scan for Seed Composition Provides Insights into Soybean Quality Improvement and the Impacts of Domestication and Breeding" |
| | Zhang et al. 2021
"GmBTB/POZ promotes the ubiquitination and degredation of LHP1 to regulate the response of soybean to Phytophthora sojae." |
| | Zhao et al. 2015a
"Loci and candidate gene identification for resistance to Sclerotinia sclerotiorum in soybean (Glycine max L. Merr.) via association and linkage maps" |
| | Zhao et al. 2020
"Genome-wide analysis of the glucose-6-phosphate dehydrogenase family in soybean and functional identification of GmG6PDH2 involvement in salt stress" |
| | Zhao et al. 2021
"GmST1, which encodes a sulfotransferase, confers resistance to soybean mosaic virus strains G2 and G3." |
| | Zhou et al. 2015a
"Resequencing 302 wild and cultivated accessions identifies genes related to domestication and improvement in soybean." |
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