Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Abel GH (1969) Inheritance of the capacity for chloride inclusion and chloride exclusion by soybeans. Crop Sci 9:697–698
Akkaya MS, Shoemaker RC, Specht JE, Bhagwat AA, Cregan PB (1995) Integration of simple sequence repeat DNA markers into a soybean linkage map. Crop Sci 35:1439–1445
Anderson TR, Buzzell RI (1992) Inheritance and linkage of the Rps7 gene for resistance to Phytophthora rot of soybean. Plant Dis 76:958–959
Apuya NR, Frazier BL, Keim P, Roth EJ, Lark KG (1988) Restriction fragment length polymorphisms as genetic markers in soybean, Glycine max (L.) Merrill. Theor Appl Genet 75:889–901
Arumuganathan K, Earle ED (1991) Nuclear DNA content of some important plant species. Plant Mol Biol Rep 9:208–219
Ashfield T, Saghai Maroof MA, Webb DM, Innes RW, Keim P, Danzer JR, Held D, Clayton K (1998) Rpg1, a soybean gene effective against races of bacterial blight, maps to a cluster of previously identified disease resistance genes. Theor Appl Genet 96:1013–1021
Athow KL, Probst AH (1952) The inheritance of resistance to frogeye leaf spot of soybeans. Phytopathology 42:660–662
Athow KL, Probst AH, Kurtzman CP, Laviolette FA (1962) A newly identified physiological race of Cercospora sojina on soybean. Phytopathology 52:712–174
Athow KL, Laviolette FA, Mueller EH, Wilcox JR (1980) A new major gene for resistance to Phytophthora megasperma var. sojae in soybean. Phytopathology 70:977–980
Athow KL, Laviolette FA (1982) Rps6, a major gene for resistance to Phytophthora megasperma f. sp. glycinea in soybean. Phytopathology 72:1564–1567
Ayala A, Ramirez CT (1964) Host-range, distribution, and bibliography of the reniform nematode, Rotylenchulus reniformis, with special reference to Puerto Rico. J Agric Univ Puerto Rico 48:140–160
Bachman MS, Tamulonis JP, Nickell CD, Bent AF (2001) Molecular markers linked to brown stem rot resistance genes, Rbs1 and Rbs2 in soybean. Crop Sci 41:527–535
Bailey MA, Mian MAR, Carter TE, Ashley DA, Boerma HR (1997) Pod dehiscence of soybean: identification of quantitative trait loci. J Hered 88:152–154
Bernard RL (1972) Two genes affecting stem termination in soybean. Crop Sci 12:235–239
Bernard RL, Howell RW (1964) Inheritance of phosphorus sensitivity in soybeans. Crop Sci 4:298–299
Bernard RL, Cremeens CR (1971) A gene for general resistance to downy mildew of soybean (Peronospora manshurica). J Hered 62:359–362
Bernard RL, Smith PE, Kaufmann MJ, Schmitthenner AF (1957) Inheritance of resistance to phytophthora root and stem rot in the soybean. Agron J 49:391
Bianchi-Hall CM, Arellano C, Boerma HR, Parrott WA, Hussey RS, Ashley DA, Bailey MA, Carter TE Jr, Rufty TW, Mian MAR (2000) Aluminum tolerance associated with quantitative trait loci derived from soybean PI 416937 in hydroponics. Crop Sci 40:538–545
Bilyeu KD, Palavalli L, Sleper DA, Beuselinck PR (2003) Three microsomal omega-3-fatty-acid desaturase genes contribute to soybean linolenic acid levels. Crop Sci 43:1833–1838
Birt DF, Hendrick S, Alekel DL (2004) Soybean and the prevention of chronic human disease. In: Boerma HR, Specht JE (eds) Soybeans: Improvement, Production, and Uses. Agronomy Monographs, 3rd ed. No. 16, ASA-CSSA-SSSA, Madison, WI, pp 1047–1117
Boerma HR, Kuhn CW (1976) Inheritance of resistance to peanut mottle virus in soybeans. Crop Sci 16:533–534
Boerma HR, Jones BG (1978) Inheritance of a second gene for brachytic stem in soybeans. Crop Sci 18:559–560
Bonato ER, Vello NA (1999) E6, a dominant gene conditioning early flowering and maturity in soybeans. Genet Mol Biol 22:229–232
Borevitz JO, Chory J (2004) Genomics tools for QTL analysis and gene discovery. Curr Opin Plant Biol 7:132–136
Bravo JJ, Fehr WR, Welke GA, Hammond EG, Cianzio SR (1999) Family and line selection for elevated palmitate of soybean. Crop Sci 39:679–682
Brummer EC, Nickell AD, Wilcox JR, Shoemaker RC (1995) Mapping the Fan locus controlling linolenic acid content in soybean oil. J Hered 86:245–247
Brummer EC, Graef GL, Orf J, Wilcox JR, Shoemaker RC (1997) Mapping QTL for seed protein and oil content in eight soybean populations. Crop Sci 37:370–378
Burnham KD, Dorrance AE, Francis DM, Fioritto RJ, St. Martin SK (2003) A new locus in soybean for resistance to Phytophthora sojae. Crop Sci 43:101–105
Burzlaff JD, Palmer RG (1999) Soybean linkage studies: y18 and y20. Soybean Genet Newslett 26. http://www.soygenetics.org/articles/sgn1999-011.html
Buzzell RI, Anderson TR (1981) Another major gene for resistance to Phytophthora megasperma var. sojae in soybean. Soybean Genet Newslett 18:30–33
Cairo CA, Stein J, Delgado L, Bortolotti S, Guelman SA, Ortiz JPA, Morandi EN (2002) Tagging the juvenile locus in soybean [Glycine max (L.) Merr.] with molecular markers. Euphytica 124:387–395
Caldwell BE, Brim CA, Ross JP (1960) Inheritance of resistance of soybeans to the cyst nematode, Heterodera glycines. Agron J 52:635–636
Carter TE Jr, Nelson RL, Sneller CH, Cui Z (2004) Genetic diversity in soybean. In: Boerma HR, Specht JE (eds) Soybeans: Improvement, Production, and Uses. Agronomy Monographs 3rd ed. No. 16, ASA-CSSA-SSSA, Madison, WI, USA, pp 303–416
Chang SJC, Doubler TW, Kilo VY, AbuThredeih J, Prabhu R, Freire V, Suttner R, Klein J, Schmidt ME, Gibson PT, Lightfoot DA (1997) Association of loci underlying field resistance to soybean sudden death syndrome (SDS) and cyst nematode (SCN) race 3. Crop Sci 37:965–971
Chen XF, Palmer RG (1998) Recombination and linkage estimation between the k2 and Mdh1-n y20 loci in soybean. Journal of Heredity 89:488–494
Chen Z, Shoemaker RC (1998) Four genes affecting seed traits in soybeans map to linkage group F. J Hered 89:211–215
Chung J, Cregan PB, Shoemaker RC, Specht JE, Lee DJ, Babka HL, Graef GL, Staswick PE (2003) The seed protein, oil, and yield QTL on soybean linkage group I. Crop Sci 43:1053–1067
Clark WJ, Harris FA, Maxwell FG, Hartwig EE (1972) Resistance of certain soybean cultivars to bean leaf beetle, striped blister beetile, and bollworm. J Econ Entomol 65:1669–1672
Clemente T (2004) Transgenes in soybean: methods and applications. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, 8–11 August 2004, Columbia, MO, p 2
Clemente TE, LaVallee BJ, Howe AR, Conner-Ward D, Rozman RJ, Hunter PE, Broyles DL, Kasten DS, Hinchee MA (2000) Progeny analysis of glyphosate selected transgenic soybean derived from Agrobacterium-mediated transformation. Crop Sci 40:797–803
Cober ER, Voldeng HD (2001) A new soybean maturity and photoperiod-sensitivity locus linked to E1 and T. Crop Sci 41:698–701
Concibido VC, Denny RL, Boutin SR, Hautea R, Orf JH, Young ND (1994) DNA marker analysis of loci underlying resistance to soybean cyst nematode (Heterodera glycines Ichinohe). Crop Sci 34:240–246
Concibido VC, Denny RL, Lange D, Danesh D, Orf J, Young N (1995) The soybean cyst nematode resistance gene on linkage group G is common among sources of resistance. Soybean Genet Newslett 22:269–272
Concibido VC, Young ND, Lange DA, Denny RL, Orf JH (1996) RFLP mapping and marker-assisted selection of soybean cyst nematode resistance in PI 209332. Crop Sci 36:1643–1650
Concibido VC, Lange D, Denny RL, Orf J, Young N (1997) Genome mapping on soybean cyst nematode resistance genes in ‘Peking’, PI 90763, and PI 88788 using DNA markers. Crop Sci 37:258–264 1997
Concibido VC, La Vallee B, McLaird P, Pineda N, Meyer J, Hummel L, Yang J, Wu K, Delannay X (2003) Introgression of a quantitative trait locus for yield from Glycine soja into commercial soybean cultivars. Theor Appl Genet 106:575–582
Concibido VC, Diers BW, Arelli PR (2004) A decade of QTL mapping for cyst nematode resistance in soybean. Crop Sci 44:1121–1131
Cornelious B, Chen P, Chen Y, de Leon N, Shannon JG, Wang D (2005) Identification of QTLs underlying water-logging tolerance in soybean. Mol Breed 16:103–112
Cregan PB, Bhagwat AA, Akkaya MS, Jiang R (1994) Microsatellite fingerprinting and mapping of soybean. Methods Mol Cell Biol 5:49–61
Cregan PB, Jarvik T, Bush AL, Shoemaker RC, Lark KG, Kahler AL, Kaya N, VanToai TT, Lohnes DG, Chung J, Specht JE (1999) An integrated genetic linkage map of the soybean. Crop Sci 39:1464–1490
Csanadi G, Vollmann J, Stift G, Lelley T(2001) Seed quality QTLs identified in a molecular map of early maturing soybean. Theor Appl Genet 103:912–919
Demirbas A, Cregan PB, Shoemaker RC, Specht JE, Graef GL, Rector BG, Lohnes DG, Fioritto RJ (2001) Simple sequence repeat markers linked to the soybean Rps genes for phytophthora resistance. Crop Sci 41:1220–1227
Devine TE (1998) Assignment of the Y17 locus to classical soybean linkage group 14. Crop Sci 38:696–697
Devine TE (2003) The Pd2 and Lf2 loci define soybean linkage group 16. Crop Sci 443:2028–2030
Devine TE, Kuykendall LD (1994) Rfg1, a soybean gene controlling nodulation with fast growing Rhizobium fredii strain 205. Plant Soil 158:47–51
Devine TE, Kuykendall LD (1996) Host genetic control of symbiosis in soybean (Glycine max L.). Plant and Soil 186:173–187
Devine TE, Kilen TC, O’Neill JJ (1991) Genetic linkage of the phtophthora resistance gene Rps2 and the nodulation response gene Rj2 in soybean. Crop Sci 31:713–715
Di R, Purcell V, Collins GB, Ghabrial SA (1996) Production of transgenic soybean lines expressing the bean pod mottle virus coat protein precursor gene. Plant Cell Rep 15:746–750
Diers BW, Shoemaker RC (1992) Restriction fragment length polymorphism analysis of soybean fatty acid content. J Am Oil Chem Soc 69:1242–1244
Diers BW, Imsande J, Shoemaker RC, Mansur L (1992a) Mapping phytophthora resistance loci in soybean with restriction fragment length polymorphism markers. Crop Sci 32:377–383
Diers BW, Keim P, Fehr WR, Shoemaker RC (1992b) RFLP analysis of soybean seed protein and oil content. Theor Appl Genet 83:608–612
Diers BW, Cianzio-Rodriguez S, Shoemaker RC (1992c) Possible identification of quantitative trait loci affecting iron efficiency in soybean. J Plant Nutr 15:2127–2136
Fasoula DA, Stephens PA, Nickell CD, Vodkin LO (1995) Cosegregation of purple-throat flower color with dihydrofalvonol reductase polymorphism in soybean. Crop Sci 35:1028–1031
Fasoula VA, Harris DK, Bailey MA, Phillips DV, Boerma HR (2003) Identification, mapping, and confirmation of a soybean gene for bud blight resistance. Crop Sci 43:1754–1759
Fehr WR (1991) Aplant breeder’s response to changing needs in soybean oil quality. In: Wilkinson D (ed) ProcXXI Soybean Seed Res Conf, Chicago. American Seed Trade Association, Washington, DC, pp 79–87
Finer JJ, McMullen MD (1991) Transformation of soybean via particle bombardment of embryogenic suspension culture tissue. In Vitro Cell Dev Biol Plant 27:175–182
Finer JJ, Vain P, Jones MW, McMullen MD (1992) Development of the particle inflow gun for DNA delivery to plant cells. Plant Cell Rep 11:323–328
Frisch M, Melchinger AE (2001) The length of the intact donor chromosome segment around a target gene in marker-assisted backcrossing. Genetics 157:1343–1356
Funatsuki H, Kawaguchi K, Matsuba S, Sato Y, Ishimoto M (2005) Mapping of QTL associated with chilling tolerance during reproductive growth in soybean. Theor Appl Genet 111:851–861
Graham MJ, Nickell C, Hoeft RG (1995) Inheritance of tolerance to manganese deficiency in soybean. Crop Sci 35:1007–1010
Graham TL, Yu O, Subramanian S, Graham M (2004) RNAi silencing as a tool for functional analysis of soybean defense-related genes. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 146
Gunashinghe UB, Irwin ME, Kampmeir GE (1988) Soybean leaf pubescence affects aphid vector transmission and field spread of soybean mosaic virus. Ann Appl Biol 112:259–272
Gunduz I, Buss GR, Chen P, Tolin SA (2002) Characterization of SMV resistance genes in Tousan 140 and Hourei Soybean. Crop Sci 42:90–95
Guo B, Sleper DA, Arelli PR, Shannon JG, Nguyen HT (2005) Identification of QTLs associated with resistance to soybean cyst nematode races 2, 3 and 5 in soybean PI 90763. Theor Appl Genet 111:965–971
Guo B, Sleper DA, Nguyen HT, Arelli PR, Shannon JG (2006) Quantitative Trait Loci underlying Resistance to Three Soybean Cyst Nematode Populations in Soybean PI 404198A. Crop Sci 46:224–233
Hadi MZ, McMullen MD, Finer JJ (1996) Transformation of 12 different plasmids into soybean via particle bombardment. Plant Cell Rep 15:500–505
Hauge BM, Wang ML, Parsons JD, Parnell LD (2001) Nucleic acid molecules and other molecules associated with soybean cyst nematode resistance. US Pat Appl Publ No 20030005491
Hanson WD, Nickell CD, Gray LE, Sebastian SA (1988) Identification of two dominant genes conditioning brown stem rot resistance in soybean. Crop Sci 28:41–43
Hartwig EE (1986) Identification of a fourth major gene conferring resistance to soybean rust. Crop Sci 26:1135–1136
Hartwig EE, Bromfield KR (1983) Relationship among three genes conferring specific resistance to rust in soybeans. Crop Sci 23:237–239
Hartwig EE, Johnes WF, Kilen TC (1991) Identification and inheritance of inefficient zinc absorption in soybean. Crop Sci 31:61–63
Hayes AJ, Ma GR, Buss GR, Maroof MAS (2000) Molecular marker mapping of RSV4, a gene conferring resistance to all known strains of soybean mosaic virus. Crop Sci 40:1434–1437
Hazel CB, Klein TM, Anis M, Wilde HD, Parrott WA (1998) Growth characteristics and transformability of soybean embryogenic cultures. Plant Cell Rep 17:765–772
Heer JA, Knap HT, Mahalingam R, Shipe ER, Arelli PR, Matthews BF (1998) Molecular markers for resistance to Heterodera glycines in advanced soybean germplasm. Mol Breed 4:359–367
Hegstad JM, Vodkin LO, Nickell CD (2000a) Genetic and agronomic evaluation of wp-m in soybean. Crop Sci 40:346–351
Hegstad JM, Tarter JA, Vodkin LO, Nickell CD (2000b) Positioning the wp flower color locus on the soybean genome map. Crop Sci 40:534–537
Hinchee MA, Connor-Ward DV, Newell CA, McDonnell RE, Sato SJ, Gasser CS, Fischhoff DA, Re DB, Fraley RT, Horsch RB (1988) Production of transgenic soybean plants using Agrobacterium-mediated DNA transfer. Bio/Technology 6:915–922
Hnetkovsky N, Chang SJC, Doubler TW, Gibson PT, Lightfoot DA (1996) Genetic mapping of loci underlying field resistance to sudden death syndrome (SDS). Crop Sci 36:393–400
Hymowitz T (2004) Speciation and cytogenetics. In: Boerma HR, Specht JE (eds) Soybeans: Improvement, Production, and Uses. Agronomy Monographs, 3rd ed. No. 16, ASA-CSSA-SSSA, Madison, WI, pp 97–136
Hyten DL, Pantalone VR, Sams CE, Saxton AM, Landau-Ellis D, Stefaniak TR, Schmidt ME (2004) Seed quality QTL in a prominent soybean population. Theor Appl Genet 109:552–561
Ilarslan H, Skorupska HT, Horner HT, Palmer RG (1997) Genetics and cytology of a tissue-culture derived soybean genic male-sterile female-sterile. J Hered 88:129–138
Jeong SC, Maroof MAS (2004) Detection and genotyping of SNPs tightly linked to two disease resistance loci, Rsv1 and Rsv3, of soybean. Plant Breed 123:305–310
Jin W, Palmer RG, Horner HT, Shoemaker RC (1998) Molecular mapping of a male-sterile gene in soybean. Crop Sci 38:1681–1685
Johns CW, Palmer RG (1982) Floral development of a flower-structure mutant in soybeans, Glycine max (L.) Merr. (Leguminosae). Am J Bot 69:829–842
Johnson EOC, Stephens PA, Fasuola DA, Nickell CD, Vodkin LO (1998) Instability of a novel multicolored flower trait in inbred and crossed soybean lines. J Hered 89:508–515
Joseph B, Specht J, Shoemaker RC (2004) Cloning the gene(s) underlying amajor protein QTL on soybean linkage group-I. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 73
Karakaya HC, Tang Y, Cregan PB, Knap HT (2002) Molecular mapping of the fasciation mutation in soybean, Glycine max (Leguminosae). Am J Bot 89:559–565
Kassem MA, Meksem K, Iqbal MJ, Njiti VN, Banz WJ, Winters TA, Wood A, Lightfoot DA (2004) Definition of soybean genomic regions that control seed phytoestrogen amounts. J Biomed Biotechnol 2004(1):52–60
Keen NT, Buzzell RI (1991) New disease resistance genes in soybean against Pseudomonas syringae pv. glycinea: evidence that one of them interacts with a bacterial elicitor. Theor Appl Genet 81:133–138
Keim P, Diers BW, Olson TC, Shoemaker RC (1990a) RFLP mapping in soybean: Association between marker loci and variation in quantitative traits. Genetics 126:735–742
Keim P, Diers BW, Shoemaker RC (1990b) Genetic analysis of soybean hard seededness with molecular markers. Theor Appl Genet 79:465–469
Kiang YT (1990) Linkage analysis of Pgd 1, Pgi 1, podcolor (L1), and determinate stem (dt1) loci on soybean linkage group 5. J Hered 81:401–404
Kilen TC, Hartwig EE, Keeling BL (1974) Inheritance of a second major gene for resistance to phytophthora rot in soybeans. Crop Sci 14:260–262
Kilen TC, Hartwig EE (1987) Identification of single genes controlling resistance to stem canker in soybean. Crop Sci 27:863–864
Kim HK, Kang ST, Cho JH, Choung MG, Suh DY (2005) Quantitative trait loci associated with oligosaccharide and sucrose contents in soybean (Glycine max L). J Plant Biol 48:106–112
Komatsu OK, Okuda S, Takahashi M, Matsunaga R, Nakazawa Y (2005) QTL mapping of antibiosis resistance to common cutworm (Spodoptera litura Fabricius) in soybean. Crop Sci 45:2044–2048
Kosslak RM, Dieter JR, Ruff RL, Chamberlin MA, Bowen BA, Palmer RG (1996) Partial resistance to root borne infection by phyptophthora sojae in three allelic necrotic root mutants in soybean. J Hered 87:415–422
Kosslak RM, Chamberlin MA, Palmer RG, Bowen BA (1997) Programmed cell death in the root cortex of soybean root necrosis mutants. Plant J 11:729–745
Lambert L, Kilen TC (1984) Multiple insect resistance in several soybean genotypes. Crop Sci 24:887–890
Lark KG, Weisemann JM, Matthews BF, Palmer R, Chase K, Macalma T (1993) A genetic map of soybean (Glycine max L.) using an intraspecific cross of two cultivars: ‘Minsoy’ and ‘Noir 1’. Theor Appl Genet 86:901–906
Lee M (1995) DNA markers and plant breeding programs. Adv Agron 35:265–344
Lee SH, Bailey MA, Mian MAR, Carter TE, Shipe ER, Ashley DA, Parrott WA, Hussey RS, Boerma HR (1996a) RFLP loci associated with soybean protein and oil content across populations and locations. Theor Appl Genet 93:646–657
Lee SH, Bailey MA, Mian MAR, Shipe ER, Ashley DA, Parrott WA, Boerma HR (1996b) Identification of quantitative trait loci for plant height, lodging, and maturity in a soybean population segregating for growth habit. Theor Appl Genet 92:516–523
Lee SH, Bailey MA, Mian MAR, Carter TE, Ashley DA, Hussey RS, Parrot WA, Boerma HR (1996c) Molecular markers associated with soybean plant height, lodging, and maturity across locations. Crop Sci 36:728–735
Lee JM, Bush AL, Specht JE, Shoemaker RC (1999) Mapping of duplicate genes in soybean. Genome 42:829–836
Lee SH, Park KY, Lee HS, Park EH, Boerma HR (2001a) Genetic mapping of QTLs conditioning soybean sprout yield and quality. Theor Appl Genet 103:702–709
Lee GJ, Rufty TW, Carter TE Jr, Boerma HR (2001b) Amajor QTL associated with Al tolerance in soybean. In: 2001 American Society of Agronomy-Crop Science Society of America-Soil Science of America Abstracts, ASA-CSSA-SSSA, Madison, WI
Lee GJ, Carter TE Jr, Boerma HR, Shannon JG, Hood M, Hawbaker M (2002) Identification of soybean yield QTL in irrigated and rain-fed environments. In: 2002 American Society of Agronomy-Crop Science Society of America-Soil Science of America Abstracts, ASA-CSSA-SSSA, Madison, WI
Lee GJ, Walker DR, Boerma HR (2003) Confirmational mapping of QTLs associated with bacterial pustule, bud blight, and soybean mosaic virus in soybean. In: 2002 American Society of Agronomy-Crop Science Society of America-Soil Science of America Abstracts, ASA-CSSA-SSSA, Madison, WI
Lee JH, Schapaugh WT, Wang X, Trick HN (2004a) RNAi suppression of phospholipase D in soybean seed. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 138
Lee SH, Walker DR, Cregan PB, Boerma HR (2004b) Comparison of four flow cytometric SNP detection assays and their use in plant improvement. Theor Appl Genet 110:167–174
Lee GJ, Carter TE Jr, Li Z, Gibbs MO, Boerma HR, Villagarcia MR, Zhou X (2004c) A major QTL conditioning salt tolerance in S-100 soybean and descendent cultivars. Theor Appl Genet 109:1610–1619
Lersten RF, Carlson JB (2004) Vegetative morphology. In: Boerma HR, Specht JE (eds) Soybeans: Improvement Production and Uses. 3rd edn. Agron Monogr 16. ASA, CSSA and SSSA, Madison WI, pp 15–96
Lewers KS, St. Martin SK, Hedges BR, Widrlechner MP, Palmer RG (1996) Hybrid soybean seed production: comparison of three methods. Crop Sci 36:1560–1567
Lewers KS, St. Martin SK, Hedges BR, Palmer RG (1998) Effects of the Dt2 and S alleles on agronomic traits of F1 hybrid soybean. Crop Sci 38:1137–1142
Lewers KS, Crane EH, Bronson CR, Schupp JM, Keim P, Shoemaker RC (1999) Detection of linked QTL for soybean brown stem rot resistance in ‘BSR101’ as expressed in a growth chamber environment. Mol Breed 5:33–42
Li Z, Jakkula L, Hussey RS, Tamulonis JP, Boerma HR (2001) SSR mapping and confirmation of the QTL from PI 96354 conditioning soybean resistance to southern root-knot nematode. Theor Appl Genet 103:1167–1173
Li Z, Wilson RF, Rayford WE, Boerma HR (2002) Molecular mapping genes conditioning reduced palmitic acid content in N87-2122-4 soybean. Crop Sci 42:373–378
Lightfoot D, Meksem K (2002) Isolated polynucleotides and polypeptides relating to loci underlying resistance to soybean cyst nematode and soybean sudden death syndrome and methods employing same. US Pat Appl Publ No. 2002144310
Lim SA (1989) Inheritance of resistance to Peronospora manshurica races 2 and 3 in soybean. Phytopathology 79:877–879
Lin SF, Cianzio SR, Shoemaker RC (1997) Mapping genetic loci for iron deficiency chlorosis in soybean. Mol Breed 3:219–229
Lincoln SE, Lander SL (1993) Mapmaker/exp 3.0 and Mapmaker/QTL 1.1. Whitehead Inst of Med Res Tech Rep, Cambridge, MA
Lipshultz RJ, Fodor SPA, Gingeras TR, Lockhart DJ (1999) High density synthetic oligonucleotide arrays. Nat Genet 21:20–24
List GR, Steidley KR, Neff WE (2000) Commercial spreads formulation, structure, and properties. INFORM 11:980–986
Liu K (1997) Soybeans: Chemistry, Technology and Utilization. Aspen Publishers, Gaithersburg, MD, p 532
Lloyd JL, Wax LM (1984) Screening for soybean varieties sensitive to DPX-F6025. In: Proceedings of the North Central Weed Control Conference, 39:95
Lohnes DG, Schmitthenner AF (1997) Position of the phytophthora gene Rps7 on the soybean molecular map. Crop Sci 37:555–556
Lohnes DG, Specht JE, Cregan PB (1997) Evidence for homoeologous linkage groups in the soybean. Crop Sci 37:254–257
Luquez VM, Guiamet JJ (2001) Effects of the’ stay green’ genotype GGd1d1d2d2 on leaf gas exchange, dry matter accumulationand seed yield in soybean (Glycinemax L. Merr.). Ann Bot 87:313–318
Luzzi BM, Hussey RS, Boerma HR (1994) A gene for resistance to the southern root-knot nematode in soybean. J Hered 85:484–486
Mahalingam R, Shorupska HT (1995) DNA markers for resistance to Heterodera glycines race 3 in soybean cultivar Peking. Breed Sci 45:435–443
Mahama AA, Lewers KS, Palmer RG (2002) Genetic linkage in soybean: classical genetic linkage groups 6 and 8. Crop Sci 42:1459–1464
Mansur LM, Lark KG, Kross H, Oliveira A (1993) Interval mapping of quantitative trait loci for reproductive, morphological, and seed traits of soybean (Glycine max L.). Theor Appl Genet 86:907–913
Mansur LM, Orf JH, Chase K, Jarvik T, Cregan PB, Lark KG (1996) Genetic mapping of agronomic traits using recombinant inbred lines of soybean. Crop Sci 36:1327–1336
Matson AL, Williams LF (1965) Evidence of a fourth gene for resistance to the soybean cyst nematode. Crop Sci 5:477
Matthews BF, Devine TE, Weisemann JM, Beard HS, Lewers KS, McDonald MH, Park YB, Maiti R, Lin JJ, Kuo J, Pedroni MJ, Cregan PB, Saunders JA (2001) Incorporation of sequenced cDNA and genomic markers into the soybean genetic map. Crop Sci 41:516–521
Maughan PJ, Maroof MAS, Buss GR (1996) Molecular marker analysis of seed-weight: genomic locations, gene action, and evidence for orthologous evolution among three legume species. Theor Appl Genet 93:574–579
Maughan PJ, Maroof MAS, Buss GR (2000) Identification of quantitative trait loci controlling sucrose content in soybean (Glycine max). Mol Breed 6:105–111
Mclean RJ, Byth DE (1980) Inheritance of resistance to rust (Phakopsora pachyrhizi) insoybeans. Aust J Agric Res, Melbourne, CSIRO 31:951–956
Meksem K, Doubler TW, Chancharoenchai K, Njiti VN, Chang SJC, Arelli APR, Cregan PE, Gray LE, Gibson PT, Lightfoot DA (1999) Clustering among loci underlying soybean resistance to Fusarum solanii, SDS and SCN in near-isogenic lines. Theor Appl Genet 99:1131–1142
Meksem K, Ruben E, Hyten D, Triwitayakorn K, Lightfoot D (2001) Conversion of AFLP bands into high-throughput DNA markers. Mol Genet Genom 265:207–214
Mian MAR, Mailey MA, Ashley DA, Wells R, Carter TE, Parrot WA, Boerma HR (1996) Molecular markers associated with water use efficiency and leaf ash in soybean. Crop Sci 36:1252–1257
Mian MAR, Shipe ER, Alvernaz J, Mueller JD, Ashley DA, Boerma HR (1997) RFLP analysis of chlorimuron ethyl sensitivity in soybean. J Hered 88:38–41
Mian MAR, Wells R, Carter TE, Ashley DA, Boerma HR (1998) RFLP tagging of QTLs conditioning specific leaf weight and leaf size in soybean. Theor Appl Genet 96:354–360
Mian MAR, Wang T, Phillips DV, Alvernaz J, Boerma HR (1999) Molecular mapping of the Rcs3 gene for resistance to frogeye leaf spot in soybean. Crop Sci 39:1687–1691
Monteros MJ, Burton JW, Boerma HR (2004) SSR analysis and confirmation of oleic acid QTL in N00-3350. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 58
Mudge J, Cregan PB, Kenworthy JP, Kenworthy WJ, Orf JH, Young ND (1997) Two microsatellite markers that flank the major soybean cyst nematode resistance locus. Crop Sci 37:1611–1615
Mueller EH, Athow KL, Laviolette FA (1978) Inheritance of resistance to four physiologic races of Phytophthora megasperma var. sojae. Phytopathology 68:1318–1322
Mukherjee D, Lambert JW, Cooper RL, Kennedy BW (1966) Inheritance of resistance to bacterial blight in soybeans. Crop Sci 6:324–326
Narvel JM, Lee SH, Boerma HR, Wang T, Jakkula LR, Phillips DV (2001a) Molecular mapping of Rxp conditioning reaction to bacterial pustule in soybean. J Hered 92:267–270
Narvel JM, Walker DR, Rector BG, All JN, Parrot WA, Boerma HR (2001b) A retrospective DNA marker assessment of the development of insect resistant soybean. Crop Sci 41:1931–1939
Nichols DM, Carlson SR, Diers BW(2004) Fine mapping a seed protein QTL on LG I in soybean. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 64
Nickell AD, Wilcox JR, Lorenzen LL, Cavins JF, Guffy RG, Shoemaker RC (1994) The Fap2 locus in soybean maps to linkage group D. J Hered 85:160–162
Njiti VN, Meksem K, Iqbal MJ, Johnson JE, Kassem MA, Zobrist KF, Kilo VY, Lightfoot DA (2002) Common loci underlie field resistance to soybean sudden death syndrome in Forrest, Pyramid, Essex, and Douglas. Theor Appl Genet 104:294–300
Orellana RG (1981) Resistance to bud blight in introductions from the germplasmof wild soybean. Plant Dis 65:594–595
Orf JH, Chase K, Jarvik T, Mansur LM, Cregan PB, Adler FR, Lark KG (1999) Genetics of soybean agronomic traits. I. Comparison of three related recombinant inbred populations. Crop Sci 39:1642–1651
Orf JH, Diers BW, Boerma HR (2004) Genetic improvement: Conventional and molecular strategies. In: Boerma HR, Specht JE (eds) Soybeans: improvement, production, and uses. Agron Monogr, 3rd edn. No. 16, ASA-CSSA-SSSA, Madison, WI, pp 417–480
Palmer RG (2000) Genetics of four male-sterile, female-sterile soybean mutants. Crop Sci 40:78–83
Palmer RG, Kilen TC(1987) Qualitative genetics and cytogenetics. In:Wilcox JR (ed) Soybeans: Improvement, Production, and Uses. Agronomy Monographs, 2nd edn. ASA-CSSASSSA, Madison, WI, pp 135–209
Palmer RG, Kiang YT (1990) Linkage map of soybean (Glycine max L. Merr.). In: O’Brien SJ (ed) Genetic Maps: Locus Maps of Complex Genomes. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY, pp 668–693
Palmer RG, Horner HT (2000) Genetics and cytology of a genic male-sterile, female-sterile mutant from a transposon-containing soybean population. J Hered 91:378–383
Palmer RG, Pfeiffer TW, Buss GR, Kilen TC (2004) Qualitative genetics. In: Boerma HR, Specht JE (eds) Soybeans: Improvement, Production, and Uses. Agronomy Monographs, 3rd edn. No. 16, ASA-CSSA-SSSA, Madison, WI, pp 137–233
Pantalone VR, Wilson RF, Novitzky WP, Burton JW (2002) Genetic regulation of elevated stearic acid concentration in soybean oil. J Am Oil Chem Soc 79:549–553
Panthee DR, Pantalone VR, West DR, Saxton AM, Sams CE (2005) Quantitative trait loci for seed protein and oil concentration, and seed size in soybean. Crop Sci 45:2015–2022
Panthee DR, Pantalone VR, Sams CE, Saxton AM, West DR, Orf JH, Killam AS (2006) Quantitative trait loci controlling sulfur containing amino acids, methionine and cysteine, in soybean seeds. Theor Appl Genet 112:546–553
Parrott WA, All JN, Adang MJ, Bailey MA, Boerma HR, Stewart CN Jr (1994) Recovery and evaluation of soybean plants transgenic for a Bacillus thuringiensis var. kurstaki insecticidal gene. In Vitro Cell Dev Biol Plant 30:144–149
Passioura JB (1977) Grain yield, harvest index, and water use of wheat. J Aust Inst Agric Sci 43:1093–1190
Patzoldt ME, Grau CR, Stephens PA, Kurtzweil NC, Carlson SR, Diers BW (2005) Localization of a quantitative trait locus providing brown stemrot resistance in the soybean cultivar bell. Crop Sci 45:1241–1248
Phillips DV, Boerma HR (1982) Two genes for resistance to race 5 of Cercospora sojina in soybeans. Phytopathology 72:764–766
Poehlman JM, Sleper DA (1995) Breeding Field Crops. Iowa State University Press, Ames, IA
Polzin KM, Shoemaker RC, Nickell CD, Lohnes DG (1994) Integration of Rps2, Rmd, and Rj2 into linkage group J of the soybean molecular map. J Hered 85:300–303
Pracht JE, Nickell CD, Harper JE (1993) Genes controlling nodulation in soybean: Rj5 and Rj6. Crop Sci 33:711–713
Primomo VS, Falk DE, Ablett GR, Tanner JW, Rajcan I (2002) Inheritance and interaction of low palmitic and low linolenic soybean. Crop Sci 2002 42:31–36
Primomo VS, Poysa V, Ablett GR, Jackson CJ, Gijzen M, Rajcan I (2005) Mapping QTL for individual and total isoflavone content in soybean seeds. Crop Sci 45:2454–2464
Probst AH (1950) The inheritance of leaf abscission and other characters in soybeans. Agron J 42:35–45
Qui BX, Arelli PR, Sleper DA (1999) RFLP markers associated with soybean cyst nematode resistance and seed composition in a ‘Peking’ × ‘Essex’ population. Theor Appl Genet 98:356–3
Rafalski A, Tingey S (1993) RFLP map of soybean (Glycine max). In: O’Brien SJ (ed) Genetic Maps: Locus Maps of Complex Genomes. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY, pp 149–156
Rahman SM, Takagi Y, Kinoshita T (1996) Genetic control of high oleic acid content in seed oil of two soybean mutants. Crop Sci 36:1125–1128
Rahman SM, Takagi Y, Kinoshita T (1997) Genetic control of high stearic acid content in seed oil of two soybean mutants. Theor Appl Genet 95:772–776
Rao-Arelli AP (1994) Inheritance of resistance to Heterodera glycines race 3 in soybean accessions. Plant Dis 78:898–900
Rector BG, All JN, Parrot WA, Boerma HR (1999) Quantitative trait loci for antixenosis resistance to corn earworm in soybean. Crop Sci 39:531–538
Rector BG, All JN, Parrot WA, Boerma HR (2000) Quantitative trait loci for antibiosis resistance to corn earworm in soybean. Crop Sci 40:233–238
Reyna N, Sneller CH (2001) Evaluation of marker-assisted introgression of yield QTL alleles into adapted soybean. Crop Sci 41:1317–1321
Reyna N, Cornelious B, Shannon JG, Sneller CH (2003) Evaluation of a QTL for waterlogging tolerance in southern soybean germplasm. Crop Sci 43:2077–2082
Ryan SA, Nelson RS, Harper JE (1983) Soybean mutants lacking constitutive nitrate reductase activity. II. Nitrogen assimilation, chlorate resistance, and inheritance. Plant Physiol 72:510–514
Santarem ER, Finer JJ (1999) Transformation of soybean [Glycine max (L.) Merrill] using proliferative embryogenic tissue maintained on semisolid medium. In Vitro Cell Dev Biol Plant 35:451–455
Schuster I, Abdelnoor RV, Marin SRR, Carvalho VP, Kiihl RAS, Silva JFV, Sediyama CS, Barros EG, Moreira MA (2001) Identification of a new major QTL associated with resistance to soybean cyst nematode (Heterodera glycines). Theor Appl Genet 102:91–96
Sebolt AM, Shoemaker RC, Diers BW (2000) Analysis of a quantitative trait locus allele from wild soybean that increases seed protein concentration in soybean. Crop Sci 40:1438–1444
Senda M, Jumonji A, Yumoto S, Ishikawa R, Harada T, Niizeki M, Akada S (2002) Analysis of the duplicated CHS1 gene related to the suppression of the seed coat pigmentation in yellow soybeans. Theor Appl Genet 104:1086–1091
Servin B, Martin OC, Mezard M, Hospital F (2004) Toward a theory of marker-assisted gene pyramiding. Genetics 168:513–523
Sexton R, Roberts JA (1982) Cell biology of abscission. Ann Rev Plant Physiol 33:133–162
Shipe ER, Buss GR, Tolin SA (1979) A second gene for resistance to peanut mottle virus in soybeans. Crop Sci 19:656–658
Shoemaker RC, Olson TC (1993) Molecular linkage map of soybean (Glycine max L. Merr.). In: O’Brien SJ (ed) Genetic Maps: Locus Maps of Complex Genomes. Cold Spring Harbor Press, Cold Spring Harbor, NY, pp 6131–6138
Shoemaker RC, Specht JE (1995) Integration of the soybean molecular and classical genetic linkage groups. Crop Sci 35:436–446
Shoemaker RC, Polzin K, Labate J, Specht J, Brummer EC, Olson T, Young N, Concibido V, Wilcox J, Tamulonis JP, Kochert G, Boerma HR (1996) Genome duplication in soybean (Glycine subgenus soja). Genetics 144:329–338
Shoemaker R, Keim P, Vodkin L, Retzel E, Clifton SW, Waterston R, Smoller D, Coryell V, Khanna A, Erpelding J, Gai X, Brendel V, Raph-Schmidt C, Shoop EG, Vielweber CJ, Schmatz M, Pape D, Bowers Y, Theising B, Martin J, Dante M, Wylie T, Granger C (2002) A complication of soybean ESTs: generation and analysis. Genome 45:329–338
Shoemaker RC, Cregan PB, Vodkin LO (2004) Soybean genomics. In: Boerma HR, Specht JE (eds) Soybeans: Improvement, Production, and Uses. Agron Monogr, 3rd edn. No. 16, ASA-CSSA-SSSA, Madison, WI, pp 235–263
Sills G, Nienhuis J (1998) Changes in DNA-marker frequencies associated with response to contrasting selection methods in Arabidopsis. Theor Appl Genet 97:275–282
Singh BB, Jha AN (1978) Abnormal differentiation of floral parts in a mutant strain of soybean. J Hered 69:143–144
Skorupska HT, Choi IS, Rao-Arelli AP, Bridges WC (1994) Resistance to soybean cyst nematode and molecular polymorphism in various sources of Peking soybean. Euphytica 75:63–70
Sneller CH, Isleib TG, Carter TE Jr (1992) Isozyme screening of near-isogenic male-strile soybean lines to uncover potential linkages: linkage of the Pgm1 and ms2 loci. J Hered 83:457–459
Song QJ, Marek LF, Shoemaker RC, Lark KG, Concibido VC, Delannay X, Specht JE, Cregan PB (2004) A new integrated genetic linkage map of the soybean. Theor Appl Genet 109:122–128
Soybean Genetics Committee (1995) Soybean genetics committee report. Soybean Genet Newslett 22:11–14
Specht JE, Hume DJ, Kumundini SV (1999) Soybean yield potential — a genetic and physiological perspective. Crop Sci 39:1560–1570
Specht JE, Germann M, Markwell JP, Lark KG, Orf JH, Macrander M, Chase K, Chung J, Graef GL (2001) Soybean response to water: a QTL analysis of drought tolerance. Crop Sci 41:493–509
Spencer MM, Pantalone VR, Meyer EJ, Landau-Ellis D, Hyten DL (2003) Mapping the Fas locus controlling stearic acid content in soybean. Theor Appl Genet 106:615–619
Stacey G, Vodkin L, Parrott WA, Shoemaker RC (2004) National Science Foundation-sponsored workshop report. Draft plan for soybean genomics. Plant Physiol 135:59–70
Stelly DM, Palmer RG (1980) A partially male-sterile mutant line of soybeans Glycine max (L.) Merr.: characterization of msp phenotype variability. Euphytica 29:539–546
Stephens PA, Nickell CD, Kolb FL (1993) Genetic analysis of resistance to Fusarium solanii in soybean. Crop Sci 33:929–930
Stewart CN Jr, Adang MJ, All JN, Boerma HR, Cardineau G, Tucker D, Parrott WA (1996) Genetic transformation, recovery, and characterization of fertile soybean transgenic for a synthetic Bacillus thuringiensis cryIAc gene. Plant Physiol 112:121–129
Stoltzfus DL, Fehr WR, Welke GA, Hammond EG, Cianzio SR (2000) Afap7 Allele for elevated palmitate in soybean. Crop Sci 40:1538–1542
Takahashi R, Abe J (1994) Genetic and linkage analysis of low temperature-induced browning in soybean seed coat. J Hered 85:447–450
Takahashi R, Asanuma S (1996) Association of T gene with chilling tolerance in soybean. Crop Sci 36:559–562
Tamulonis JP, Luzzi BM, Hussey RS, Parrot WA, Boerma HR (1997a) DNA marker analysis of loci conferring resistance to peanut root-knot nematode in soybean. Theor Appl Genet 95:664–670
Tamulonis JP, Luzzi BM, Hussey RS, Parrot WA, Boerma HR (1997b) RFLP mapping of resistance to southern root-knot nematode in soybean. Crop Sci 37:1903–1909
Tamulonis JP, Luzzi BM, Parrot WA, Hussey RS, Boerma HR (1997c) DNA markers associated with Javanese root-knot nematode resistance in soybean. Crop Sci 37:783–788
Tang Y, Knap HT (1998) Fasciation mutation enhances meristematic activity and alters pattern formation in soybean. Int J Plant Sci 159:249–260
Tanya P, Srinives P, Toojinda T, Vanavichit A, Lee SH (2005) Identification of SSR markers associated with N-2-fixation components in soybean [Glycine max (L.) Merr.]. Korean J Genet 27:351–359
Tasma IM, Shoemaker RC (2003) Mapping flowering time gene homologs in soybean and their association with maturity (E) loci. Crop Sci 43:319–328
Tasma IM, Shoemaker RC, Green DE, Lorenzen LL (2001) Mapping genetic loci for flowering time, maturity, and photoperiod insensitivity in soybean. Mol Breed 8:25–35
Terry LI, Chase K, Jarvik T, Orf J, Mansur L, Lark KG (2000) Soybean quantitative trait loci for resistance to insects. Crop Sci 40:375–382
Thompson JA, Bernard RL, Nelson RL (1997) A third allele at the soybean dt1 locus. Crop Sci 37:757–762
Todd JJ, Vodkin LO (1998) Duplications that suppress and deletions that restore expression from a chalcone synthase multigene family. Plant Cell 8:687–699
Trick HN, Steeves R, Todd TC (2004) Utilization of RNA interference to confer resistance to the soybean cyst nematode, Heterodera glycines. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 40
VanToai TT, Martin SK, Chase K, Boru G, Schnipke V, Schmitthenner AF, Lark KG (2001) Identification of a QTL associated with tolerance of soybean to soil waterlogging. Crop Sci 41:1247–1252
Venkatasubbarao S (2004) Microarray-status and prospects. Trends Biotechnol 22:630–637
Verma DPS (1992) Signals in root nodule roganogenesis and endocytosis of Rhizobium. Plant Cell 4:373–382
Vest G (1970) Rj3-a gene conditioning ineffective nodulation in soybean. Crop Sci 10:34–35
Vierling RA, Faghihi J, Ferris VR, Ferris JM (1996) Association of RFLP markers conferring broad-based resistance to the soybean cyst nematode (Heterodera glycines). Theor Appl Genet 92:83–86
Vodkin LO, Khanna A, Shealy R, Clough SJ, Gonzalez DO, Philip R, Zabala G, Thibaud-Nissaen F, Sidarous M, Stromvik MV, Shoop E, Schmidt C, Retzel E, Erpelding J, Shoemaker RC, Rodriguez-Huete AM, Polacco JC, Coryell V, Keim P, Gong G, Liu L, Pardinas J, Schweitzer P (2004) Microarrays for global expression constructed with a low redundancy set of 27,500 sequenced cDNAs representing an array of developmental stages and physiological conditions of the soybean plant. BMC Genomics 5 (Published online 29 September 2004)
Wan J, Torres M, DaGue B, Mooney B, Xu D, Stacey G (2004) Proteomic analysis of soybean root hairs after infection by Bradyrhizobium japonicum. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 117
Wang D, Arelli PR, Shoemaker RC, Diers BW (2001) Loci underlying resistance to race 3 of soybean cyst nematode in Glycine soja plant introduction 468916. Theor Appl Genet 103:561–566
Webb DM, Baltazar BM, Rao-Arelli PA, Schupp J, Clayton K, Keim P, Beavis WD (1995) Genetic mapping of soybean cyst nematode race-3 resistance loci in soybean PI437.654. Theor Appl Genet 91:574–581
Weiss MG (1943) Inheritance and physiology of efficiency in iron utilization in soybeans. Genetics 28:253–268
Weiss MG (1970) Genetic linkage in soybeans. Linkage group II and III. Crop Sci 10:300–303
Wells R, Ashley DA, Boerma HR, Reger BJ (1986) Physiological comparisons of two soybean cultivars differing in canopy photosynthesis. II. Variation in specific leaf weight, nitrogen, and protein components. Photosyn Res 9:295–305
Weng C, Yu K, Anderson TR, Poysa V (2001) Mapping genes conferring resistance to Phytophthora root rot of soybean, Rps1a and Rps7. J Hered 92:442–446
Werner BK, Wilcox JR, Housley TL (1987) Inheritance of an ethyl methanesulfonate-induced dwarf in soybean and analysis of leaf cell size. Crop Sci 27:665–668
Wiebold WR, Kenworthy WJ (1985) Leaflet expansion rates for 15 soybean cultivars. Field Crops Res 12:271–279
Williams C, Gilman DF, Fontenot DS, Birchfield WB (1981) Inheritance of reaction to the reniform nematode Rotylenchulus reniformis in soybean. Crop Sci 21:93–94
Willmot DB, Nickell CD (1989) Genetic analysis of brown stem rot resistance in soybean. Crop Sci 29:672–674
Wilson RF (2004) Seed composition. In: Boerma HR, Specht JE (eds) Soybeans: Improvement, Production, and Uses. Agron Monogr, 3rd edn. No. 16, ASA-CSSA-SSSA, Madison, WI, pp 621–677
Woo SH, Chung KY, Kim HS, Song BH, Hirano H, Jong SK (2004) Proteome approaches as an efficient means for the separation of basic seed proteins in soybean Glycinemax L.Merr. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 122
Wrather JA, Stienstra WC, Koenning SR (2001) Soybean disease loss estimates for the United States from 1996 to 1998. Can J Plant Pathol 23:122–131
Xing A, Zhang Z, Sato S, Staswick PE, Clemente TE (2000) The use of the two T-DNA binary system to derive marker-free transgenic soybeans. In Vitro Cell Dev Biol Plant 36:456–463
Xu SJ, Singh RJ, Kollipara KP, Hymowitz T (2000) Primary trisomics in soybean: origin, identification, breeding behavior, and use in linkage mapping. Crop Sci 40:1543–1551
Yamanaka N, Ninomiya S, Hoshi M, Tsubokura Y, Yano M, Nagamura Y, Sasaki T, Harada K (2001) An informative linkage map of soybean reveals QTLs for flowering time, leaflet morphology and regions of segregation distortion. DNA Res 8:61–72
Yates JL, Harris DK, Boerma HR (2004) Marker-assisted selection around a major QTL on LG-I increases seed protein content in backcross-derived lines of soybean. In: Soy2004 10th Biennial Conference of the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 67
You MG, Yen Y, Gai JY, Zhao TJ (1998) Genetic analysis of short petiole and abnormal pulvinus in soybean. Euphytica 102:329–333
Yu YG, Saghai Maroof MA, Buss GR, Maughan PJ, Tolin SA (1994) RFLP and microsatellite mapping of a gene for soybean mosaic virus resistance. Phytopathology 84:60–64
Yue P, Sleper DA, Arelli PR (2001a) Mapping resistance to multiple races of Heterodera glycines in soybean PI 89772. Crop Sci 41:1589–1595
Yue P, Arelli PR, Sleper DA (2001b) Molecular characterization of resistance to Heterodera glycines in soybean PI 438489B. Theor Appl Genet 102:921–928
Zeng P, Vadnais DA, Zhang Z, Polacco JC (2004) Refined glufosinate selection in agrobacterium-mediated transformation of soybean [Glycine max (L.) Merrill]. Plant Cell Rep 22:478–482
Zhang J, Specht JE Graef GL, Johnson BE (1992) Pubescence density effects on soybean seed yield and other agronomic traits. Crop Sci 32:641–648
Zhang Z, Xing A, Staswick PE, Clemente TE (1999) The use of glufosinate as a selective agent in Agrobacteriummediated transformation of soybean. Plant Cell Tiss Org Cult 56:37–46
Zhang WK, Wang YJ, Luo GZ, Zhang JS, He CY, Wu XL, Gai JY, Chen SY (2004) QTL mapping of ten agronomic traits on the soybean (Glycine max L. Merr.) genetic map and their association with EST markers. Theor Appl Genet 108:1131–1139
Zhu T (2003) Global analysis of gene expression using genechip microarrays. Curr Opin Plant Biol 6:418–425
Zhu YL, Song QJ, Hyten DL, Van Tassell CP, Matukumalli LK, Grimm DR, Hyatt SM, Fickus EW, Young ND, Cregan PB (2003) Single-nucleotide polymorphisms in soybean. Genetics 163:1123–1134
Zhu S, Walker DR, Boerma HR, All JN, Parrott WA (2004) Confirmation and fine-mapping of an insect resistance QTL that enhances and broadens the effect of Bt in soybean. In: Soy2004 10th Biennial Conference on the Cellular and Molecular Biology of the Soybean, Columbia, MO, p 83
Zou JJ, Singh RJ, Hymowitz T (2003) Association of the yellow leaf (y10) mutant to soybean chromosome 3. J Hered 94:352–355
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2007 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Lee, GJ., Wu, X., Shannon, J.G., Sleper, D.A., Nguyen, H.T. (2007). Soybean. In: Kole, C. (eds) Oilseeds. Genome Mapping and Molecular Breeding in Plants, vol 2. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-34388-2_1
Download citation
DOI: https://doi.org/10.1007/978-3-540-34388-2_1
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-34387-5
Online ISBN: 978-3-540-34388-2
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)