University of Georgia

A website from the College of Agricultural and Environmental Sciences

Parrott Lab

Genetics & Biotechnology of Crop Plants

Transformation references:

Note that all references related safety & economic aspects of commercialized transgenic soybean have been moved to their own page.
Last modified 30 May 2014

2014

Alves de Paiva Rolla, A, Josirley de Fa´tima Correˆa Carvalho,Renata Fuganti-Pagliarini,C. Engels, Alexandre do Rio,Silvana Regina Rockenbach Marin, Maria Cristina Neves de Oliveira,Magda A. Beneventi,Francismar Correˆa Marcelino-Guimara˜es,Jose´ Renato Bouc¸as Farias,Norman Neumaier,Nakashima,K., Kazuko Yamaguchi-Shinozaki, Alexandre Lima Nepomuceno, 2014, Phenotyping soybean plants transformed with rd29A:AtDREB1A for drought tolerance in the greenhouse and field: Transgenic Research 23:75-87.

Bernardi,O., Rodrigo J. Sorgattoa, Alexandre D. Barbosaa, Felipe A. Domingues a,Patrick M. Dourado, Renato A. Carvalho, Samuel Martinelli, Graham P. Head, Celso Omotoa, 2014,Low susceptibility of Spodoptera cosmioides, Spodoptera eridania and Spodoptera frugiperda (Lepidoptera: Noctuidae) to genetically-modified soybean expressing Cry1Ac protein: Crop Protection 58: 33-40.

Zhang, Yunfang,Schernthaner, Johann, Hefford, Mary, Zheng Suqin, Zhao Jiping, Blahut-Beatty, Laureen, Simmonds, Daina, 2014, Improved Protein Quality in Transgenic Soybean Expressing a De Novo Synthetic Protein, MB16: Transgenic Research 23:455-467.

2013

Clarke, Joseph D.,Danny C. Alexander, Dennis P. Ward, John A. Ryals,Matthew W. Mitchell,Jacob E. Wulff & Lining Guo, 2013, Assessment of Genetically Modified Soybean in Relation to Natural Variation in the Soybean Seed Metabolome: Sci. Rep.2013/10/30/online, VL – 3 http://dx.doi.org/10.1038/srep03082

2012

Acuna, R., B. E. Padilla, C. P. Florez-Ramos, J. D. Rubio, J. C. Herrera, P. Benavides, S. J. Lee, T. H. Yeats, A. N. Egan, J. J. Doyle, and J. K. C. Rose, 2012, Adaptive horizontal transfer of a bacterial gene to an invasive insect pest of coffee: Proceedings of the National Academy of Sciences of the United States of America, v. 109, p. 4197-4202. .

Barbosa, H. S., S. C. C. Arruda, R. A. Azevedo, and M. A. Z. Arruda, 2012, New insights on proteomics of transgenic soybean seeds: evaluation of differential expressions of enzymes and proteins: Analytical and Bioanalytical Chemistry, v. 402, p. 299-314.

Bernardi, O., G. S. Malvestiti, P. M. Dourado, W. S. Oliveira, S. Martinelli, G. U. Berger, G. P. Head, and C. Omoto, 2012, Assessment of the high-dose concept and level of control provided by MON 87701 x MON 89788 soybean against Anticarsia gemmatalis and Pseudoplusia includens (Lepidoptera: Noctuidae) in Brazil: Pest Management Science, v. 68, p. 1083-1091.

Boschetti, C., A. Carr, A. Crisp, I. Eyres, Y. Wang-Koh, E. Lubzens, T. G. Barraclough, G. Micklem, and A. Tunnacliffe, 2012, Biochemical Diversification through Foreign Gene Expression in Bdelloid Rotifers: Plos Genetics, v. 8.

Brar, H. K., and M. K. Bhattacharyya, 2012, Expression of a Single-Chain Variable-Fragment Antibody Against a Fusarium virguliforme Toxin Peptide Enhances Tolerance to Sudden Death Syndrome in Transgenic Soybean Plants: Molecular Plant-Microbe Interactions, v. 25, p. 817-824.

Chai, T. T., D. Simmonds, D. A. Day, T. D. Colmer, and P. M. Finnegan, 2012, A GmAOX2b antisense gene compromises vegetative growth and seed production in soybean: Planta, v. 236, p. 199-207.

de Carvalho, T. C., S. S. da Silva, R. C. da Silva, and M. Panobianco, 2012, Germination and initial development of soybean seedlings and their transgenic derivatives in salt stress condition: Ciencia Rural, v. 42, p. 1366-1371.

Gardiner, D. M., M. C. McDonald, L. Covarelli, P. S. Solomon, A. G. Rusu, M. Marshall, K. Kazan, S. Chakraborty, B. A. McDonald, and J. M. Manners, 2012, Comparative Pathogenomics Reveals Horizontally Acquired Novel Virulence Genes in Fungi Infecting Cereal Hosts: Plos Pathogens, v. 8.

Homrich, M. S., B. Wiebke-Strohm, R. L. M. Weber, and M. H. Bodanese-Zanettini, 2012, Soybean genetic transformation: A valuable tool for the functional study of genes and the production of agronomically improved plants: Genetics and Molecular Biology, v. 35, p. 998-1010.

Ishimoto, M., M. Kuroda, K. Yoza, K. Nishizawa, M. Teraishi, N. Mizutani, K. Ito, and S. Moriya, 2012, Heterologous Expression of Corn Cystatin in Soybean and Effect on Growth of the Stink Bug: Bioscience Biotechnology and Biochemistry, v. 76, p. 2142-2145.

Kasai, M., and A. Kanazawa, 2012, RNA silencing as a tool to uncover gene function and engineer novel traits in soybean: Breeding Science, v. 61, p. 468-479.

Kim, M. J., J. K. Kim, H. J. Kim, J. H. Pak, J. H. Lee, D. H. Kim, H. K. Choi, H. W. Jung, J. D. Lee, Y. S. Chung, and S. H. Ha, 2012, Genetic Modification of the Soybean to Enhance the beta-Carotene Content through Seed-Specific Expression: Plos One, v. 7, p. 12.

Kim, W. S., D. Chronis, M. Juergens, A. C. Schroeder, S. W. Hyun, J. M. Jez, and H. B. Krishnan, 2012, Transgenic soybean plants overexpressing O-acetylserine sulfhydrylase accumulate enhanced levels of cysteine and Bowman-Birk protease inhibitor in seeds: Planta, v. 235, p. 13-23.

Lee, Y. Y., H. M. Park, C. K. Lee, S. L. Kim, T. Y. Hwang, M. S. Choi, Y. U. Kwon, W. H. Kim, S. J. Kim, S. C. Lee, and Y. H. Kim, 2012, Comparing extraction methods for the determination of tocopherols and tocotrienols in seeds and germinating seeds of soybean transformed with OsHGGT: Journal of Food Composition and Analysis, v. 27, p. 70-80.

Li, R. Z., K. S. Yu, Y. M. Wu, M. Tateno, T. Hatanaka, and D. F. Hildebrand, 2012, Vernonia DGATs can complement the disrupted oil and protein metabolism in epoxygenase-expressing soybean seeds: Metabolic Engineering, v. 14, p. 29-38.

Liu, M., D. M. Li, Z. K. Wang, F. L. Meng, Y. G. Li, X. X. Wu, W. L. Teng, Y. P. Han, and W. B. Li, 2012, Transgenic expression of ThIPK2 gene in soybean improves stress tolerance, oleic acid content and seed size: Plant Cell Tissue and Organ Culture, v. 111, p. 277-289.

Mataveli, L. R. V., M. Fioramonte, F. C. Gozzobc, and M. A. Z. Arruda, 2012, Improving metallomics information related to transgenic and non-transgenic soybean seeds using 2D-HPLC-ICP-MS and ESI-MS/MS: Metallomics, v. 4, p. 373-378.

Qin, F. Y., L. Z. Kang, L. Q. Guo, J. F. Lin, J. S. Song, and Y. H. Zhao, 2012, Composition of Transgenic Soybean Seeds with Higher gamma-Linolenic Acid Content Is Equivalent to That of Conventional Control: Journal of Agricultural and Food Chemistry, v. 60, p. 2200-2204.

Rani, A., K. Verma, and R. Saini, 2012, Recovery of fertile transgenic plants via Agrobacterium tumefaciens-mediated transformation in Indian soybean (Glycine max L. Merrill) cultivar: Indian Journal of Genetics and Plant Breeding, v. 72, p. 325-331.

Schnell, J. A., V. Treyvaud-Amiguet, J. T. Arnason, and D. A. Johnson, 2012, Expression of polyhydroxybutyric acid as a model for metabolic engineering of soybean seed coats: Transgenic Research, v. 21, p. 895-899.

Seo, J. S., H. B. Sohn, K. Noh, C. Jung, J. H. An, C. M. Donovan, D. A. Somers, D. I. Kim, S. C. Jeong, C. G. Kim, H. M. Kim, S. H. Lee, Y. D. Choi, T. W. Moon, C. H. Kim, and J. J. Cheong, 2012, Expression of the Arabidopsis AtMYB44 gene confers drought/salt-stress tolerance in transgenic soybean: Molecular Breeding, v. 29, p. 601-608.

Stegemann, S., M. Keuthe, S. Greiner, and R. Bock, 2012, Horizontal transfer of chloroplast genomes between plant species: Proceedings of the National Academy of Sciences of the United States of America, v. 109, p. 2434-2438.

Subramanyam, K., M. Arun, T. S. Mariashibu, J. Theboral, M. Rajesh, N. K. Singh, M. Manickavasagam, and A. Ganapathi, 2012, Overexpression of tobacco osmotin (Tbosm) in soybean conferred resistance to salinity stress and fungal infections: Planta, v. 236, p. 1909-1925.

Sunitha, S., P. V. Shivaprasad, K. Sujata & K. Veluthambi (2012) High Frequency of T-DNA Deletions in Transgenic Plants Transformed with Intron-Containing Hairpin RNA Genes. Plant Molecular Biology Reporter, 30, 158-167.

Suo, H. C., Q. B. Ma, K. X. Ye, C. Y. Yang, Y. J. Tang, J. Hao, Z. Y. J. Zhang, M. L. Chen, Y. Q. Feng, and H. Nian, 2012, Overexpression of AtDREB1A Causes a Severe Dwarf Phenotype by Decreasing Endogenous Gibberellin Levels in Soybean Glycine max (L.) Merr.: Plos One, v. 7, p. 7.

Tougou, M., A. Hashiguchi, K. Yukawa, Y. Nanjo, S. Hiraga, T. Nakamura, K. Nishizawa, and S. Komatsu, 2012, Responses to flooding stress in soybean seedlings with the alcohol dehydrogenase transgene: Plant Biotechnology, v. 29, p. 301-305.

Venancio, V. P., J. P. L. Silva, A. A. Almeida, M. Brigagao, and L. Azevedo, 2012, Conventional (MG-BR46 Conquista) and Transgenic (BRS Valiosa RR) Soybeans Have No Mutagenic Effects and May Protect Against Induced-DNA Damage In Vivo: Nutrition and Cancer-an International Journal, v. 64, p. 725-731.

Xi, Z., R. K. Bradley, K. J. Wurdack, K. M. Wong, M. Sugumaran, K. Bomblies, J. S. Rest, and C. C. Davis, 2012, Horizontal transfer of expressed genes in a parasitic flowering plant: Bmc Genomics, v. 13.

2011

Chen, W., K. Song, Y. Cai, W. Li, B. Liu & L. Liu (2011) Genetic Modification of Soybean with a Novel Grafting Technique: Downregulating the FAD2-1 Gene Increases Oleic Acid Content. Plant Molecular Biology Reporter, 29, 866-874.

Cunha, N, Murad, A, Cipriano, T, Araújo, C, Aragão, J.L., Leitie, A, Vianna, G, McPhee, T, Souza, G, Waters, M, Rech, E (2011). Expression of functional recombinant growth hormone in transgenic soybean seeds. Transgenic Research, 20:811-826

Cunha, N, Murad, A, Ramos, G, Maranhão, A, Brígido, M, Araújo, C, Lacorte, C, Aragão, F, Covas, D Fontes, A, Souza, G, Vianna, G, Rech, E (2011). Accumulation of functional recombinant human coagulation factor IX in transgenic soybean seeds. Transgenic Research, 20:841-855

Curtin, S. J., F. Zhang, J. D. Sander, W. J. Haun, C. Starker, N. J. Baltes, D. Reyon, E. J. Dahlborg, M. J. Goodwin, A. P. Coffman, D. Dobbs, J. K. Joung, D. F. Voytas & R. M. Stupar (2011) Targeted Mutagenesis of Duplicated Genes in Soybean with Zinc-Finger Nucleases. Plant Physiology, 156, 466-473.

Hancock, C. N., F. Zhang, K. Floyd, A. O. Richardson, P. LaFayette, D. Tucker, S. R. Wessler & W. A. Parrott (2011) The Rice Miniature Inverted Repeat Transposable Element mPing Is an Effective Insertional Mutagen in Soybean. Plant Physiology, 157, 552-562.

Lee, K., B.Y. Yi, K.H. Kim, J.B. Kim, S.C. Suh, H.J. Woo, K.S. Shin, S.J., Kweon (2011) Development of Efficient Transformation Protocol for Soybean (Glycine max L.) and Characterization of Transgene Expression after Agrobacterium-mediated Gene Transfer. Journal of the Korean Society for Applied Biological Chemistry, 54, 37-45.

Li, R., B. Bancroft, C. Hutcheon, S. Zhao, S. Zheng, L. Blahut-Beatty, J. De Rocher & D. Simmonds (2011) Multiple inserts of gene of interest and selectable marker gene are co-integrated and stably transmitted as a single genetic locus in transgenic soybean plants. In Vitro Cellular & Developmental Biology-Plant, 47, 274-281.

Powell, R., L. C. Hudson, K. C. Lambirth, D. Luth, K. Wang, K. L. Bost & K. J. Piller (2011) Recombinant expression of homodimeric 660 kDa human thyroglobulin in soybean seeds: an alternative source of human thyroglobulin. Plant Cell Reports, 30, 1327-1338.

Schmidt, M. A., W. B. Barbazuk, M. Sandford, G. May, Z. Song, W. Zhou, B. J. Nikolau & E. M. Herman (2011) Silencing of Soybean Seed Storage Proteins Results in a Rebalanced Protein Composition Preserving Seed Protein Content without Major Collateral Changes in the Metabolome and Transcriptome. Plant Physiology, 156, 330-345.

Yang, S, Li, G, Li, M, Wang, J (2011) Transgenic soybean with low phytate content constructed by Agrobacterium transformation and pollen-tube pathway. Euphytica, 177:375-382

Ye, X., E. J. Williams, J. Shen, S. Johnson, B. Lowe, S. Radke, S. Strickland, J. A. Esser, M. W. Petersen & L. A. Gilbertson (2011) Enhanced production of single copy backbone-free transgenic plants in multiple crop species using binary vectors with a pRi replication origin in Agrobacterium tumefaciens. Transgenic Research, 20, 773-786.

Wibke-Strohm, B, Droste, A, Pasquali, G, Osorio, M Bücker-Neto, L, Passaglia, M, Bencke, M, Homrich, M, Margis-Pinheiro, M, Bodanese-Zanettini, M (2011) Transgenic fertile soybean plants derived from somatic embryos transformed via the combined DNA-free particle bombardment and Agrobacterium system. Euphytica, 177:343-354

Zhang, X. C., S. Sato, X. H. Ye, A. E. Dorrance, T. J. Morris, T. E. Clemente, and F. Qu, 2011, Robust RNAi-Based Resistance to Mixed Infection of Three Viruses in Soybean Plants Expressing Separate Short Hairpins from a Single Transgene: Phytopathology, v. 101, p. 1264-1269.

2010

Fukatsu, T., 2010, EVOLUTION A Fungal Past to Insect Color: Science, v. 328, p. 574-575.

Gilbert, C., S. Schaack, J. K. Pace, P. J. Brindley, and C. Feschotte, 2010, A role for host-parasite interactions in the horizontal transfer of transposons across phyla: Nature, v. 464, p. 1347-U4.

Moran, N. A., and T. Jarvik, 2010, Lateral Transfer of Genes from Fungi Underlies Carotenoid Production in Aphids: Science, v. 328, p. 624-627.

Semenyuk, E. G., M. A. Schmidt, R. N. Beachy, T. Moravec & T. Woodford-Thomas (2010) Adaptation of an ecdysone-based genetic switch for transgene expression in soybean seeds. Transgenic Research, 19, 987-999.

Song, X., Y. Han, W. Teng, G. Sun & W. Li (2010) Identification of QTL underlying somatic embryogenesis capacity of immature embryos in soybean (Glycine max (L.) Merr.). Plant Cell Reports, 29, 125-131.

Vallenback, P., L. Ghatnekar, and B. O. Bengtsson, 2010, Structure of the Natural Transgene PgiC2 in the Common Grass Festuca ovina: Plos One, v. 5.

Yamada, T., S. Watanabe, M. Arai, K. Harada, K. Kitamura (2010)Cotyledonary node pre-wounding with a micro-brush increased frequency of Agrobacterium-mediated transformation in soybean. Plant Biotechnology 27, 217-220.

Zia, M, Mirza, B, Malik, S, Chaudhary, M, (2010) Expression of rol genes in transgenic soybean (Glucine max L.) leads to changes in plant phenotype, leaf morphology, and flowering time. Plant Cell Tissue and Organ Culture, 103:227-236.

2009

Cao, D., W. Hou, S. Song, H. Sun, C. Wu, Y. Gao & T. Han (2009) Assessment of conditions affecting Agrobacterium rhizogenes-mediated transformation of soybean. Plant Cell Tissue and Organ Culture, 96, 45-52.

Liu, J., Q. Su, L. An & A. Yang (2009) Transfer of a minimal linear marker-free and vector-free smGFP cassette into soybean via ovary-drip transformation. Biotechnology Letters, 31, 295-303.

Liu, M., J. Yang, Y.-q. Cheng & L.-j. An (2009) Optimization of soybean (Glycine max (L.) Merrill) in planta ovary transformation using a linear minimal gus gene cassette. Journal of Zhejiang University-Science B, 10, 870-876.

Tougou, M. (2009) Soybean transformation using two point mutated acetolactate synthase gene from rice as the selectable marker gene. Journal of Pesticide Science, 35, 168-171.

Wang, X., Wang, Y., Tian, J., Lim, B., Yan, X., Hong, L. (2009). Overexpressing AtPAP15 enhances phosphorus efficiency in soybean. Plant Physiology, 151:233-240

Zernova, O. V., A. V. Lygin, J. M. Widholm & V. V. Lozovaya (2009) Modification of isoflavones in soybean seeds via expression of multiple phenolic biosynthetic genes. Plant Physiology and Biochemistry, 47, 769-777.

2008

de Mello-Farias, P. C. & A. L. Soares Chaves (2008) Advances in Agrobacterium-mediated plant transformation with enphasys on soybean. Scientia Agricola, 65, 95-106.

Lardizabal K, Effertz R, Levering C, Mai J, Pedroso M, Jury T, et al. (2008). Expression of Umbelopsis ramanniana DGAT2A in seed increases oil in soybean. Plant Physiology, 148:89-96

Liu S-J, Wei Z-M, Huang J-Q. (2008) The effect of co-cultivation and selection parameters on Agrobacterium-mediated transformation of Chinese soybean varieties. Plant Cell Reports, 27:489-498

Mathieu M, Winters E, Kong FM, Wan JR, Wang SX, Eckert H, Luth D, Paz M, Donovan C, Zhang ZY, Somers D, Wang K, Nguyen H, Shoemaker R, Stacey G, Clemente T (2008) Establishment of a soybean (Glycine max Merr. L) transposon-based mutagenesis repository. Planta, 229:279-289

Schmidt M, Herman, E. (2008) Proteome rebalancing in soybean seeds can be exploited to enhance foreign protein accumulation. Plant Biotechnology Journal, 6: 832-842

Schmidt M, Herman E. (2008) Suppression of soybean oleosin produces micro-oil bodies that aggregate into oil body/ER complexes Molecular Plant, 1: 910-924

Wang, G, Xu, Y (2008)Hypocotyl-based Agrobacterium-mediated transformation of soybean (Glycine max) and application for RNA interference. Plant Cell Reports, 27:1177-1184

Ye XD, Williams EJ, Shen JJ, Esser JA, Nichols AM, Petersen MW, Gilbertson LA (2008) Plant development inhibitory genes in binary vector backbone improve quality even efficiency in soybean transformation. Transgenic Research, 17:827-838

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2007

Dufourmantel N, Dubald M, Matringe M, Canard H, Garcon F, Job C, Kay E, Wisniewski JP, Ferullo JM, Pelissier B, Sailland A, Tissot G (2007) Generation and characterization of soybean and marker-free tobacco plastid transformants over-expressing a bacterial 4-hydroxyphenylpyruvate dioxygenase which provides strong herbicide tolerance. Plant Biotechnology Journal 5:118-133

El-Shemy, H. A., M. M. Khalafalla, K. Fujita & M. Ishimoto (2007) Improvement of protein quality in transgenic soybean plants. Biologia Plantarum, 51, 277-284.

Gao X, Wang G, Su Q, Wang Y, & An LJ. (2007). Phytase expression in transgenic soybeans: stable transformation with a vector-less construct. Biotechnology Letters, 29, 1781-1787.

Kita Y, Nishizawa K, Takahashi M, Kitayama M, Ishimoto M. (2007). Genetic improvement of the somatic embryogenesis and regeneration in soybean and transformation of the improved breeding lines. Plant Cell Rep, 26:439-447.

Li Z, Xing A, M, Burgoyne S, Guida A, Liang H, Lee C, Caster C, Barton J, Klein T, Falco S. (2007) A Cre/LoxP-mediated self-activating gene excision system to produce marker gene free transgenic soybean plants [Electronic Version]. Plant Molecular Biology

Livingstone, D., V. Beilinson, M. Kalyaeva, M. A. Schmidt, E. M. Herman & N. C. Nielsen (2007) Reduction of protease inhibitor activity by expression of a mutant Bowman-Birk gene in soybean seed. Plant Molecular Biology, 64, 397-408.

Miklos JA, Alibhai MF, Bledig SA, Connor-Ward DC, Gao AG, Holmes BA, Kolacz KH, Kabuye VT, Macrae TC, Paradise MS, Toedebusch AS, Harrison LA (2007) Characterization of soybean exhibiting high expression of a synthetic Bacillus thuringiensis cry1A transgene that confers a high degree of resistance to lepidopteran pests. Crop Sci 47:148-157

Moravec, T., M. A. Schmidt, E. M. Herman & T. Woodford-Thomas (2007) Production of Escherichia coli heat labile toxin (LT) B subunit in soybean seed and analysis of its immunogenicity as an oral vaccine. Vaccine, 25, 1647-1657.

Olhoft PM, Bernal LM, Grist LB, Hill DS, Mankin SL, Shen YW, Kalogerakis M, Wiley H, Toren E, Song HS, Hillebrand H, Jones T (2007) A novel Agrobacterium rhizogenes-mediated transformation method of soybean [Glycine max (L.) Merrill] using primary-node explants from seedlings. In Vitro Cellular & Developmental Biology-Plant 43:536-549.

Shi J, Wang H, Schellin K, Li B, Faller M, Stoop J, Meeley R, Ertl D, Ranch J, Glassman K. (2007). Embryo-specific silencing of a transporter reduces phytic acid content of maize and soybean seeds. Nature Biotechnology, 25:930-937.

Tavva VS, Kim YH, Kagan IA, Dinkins RD, Kim KH, Collins GB (2007) Increased alpha-tocopherol content in soybean seed overexpressing the Perilla frutescens gamma-tocopherol methyltransferase gene. Plant Cell Rep 26:61-70.

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2006

Chen R, Matsui K, Ogawa M, Oe M, Ochiai M, Kawashima H, Sakuradani E, Shimizu S, Ishimoto M, Hayashi M, Murooka Y, Tanaka Y (2006) Expression of Delta 6, Delta 5 desaturase and GLELO elongase genes from Mortierella alpina for production of arachidonic acid in soybean [Glycine max (L.) Merrill] seeds. Plant Sci 170:399-406

Clemente TE, Kinney AJ, Graef G, LaVallee B, Van Gerpen J (2006) A pipeline for evaluating novel soydiesel derived from biotechnology. Abstracts of Papers of the American Chemical Society. 231:10

Ding SH, Huang LY, Wang YD, Sun HC, Xiang ZH (2006) High-level expression of basic fibroblast growth factor in transgenic soybean seeds and characterization of its biological activity. Biotechnol Lett 28:869-875

Dufourmantel N, Tissot G, Garcon F, Pelissier B, Dubald M (2006) Stability of soybean recombinant plastome over six generations. Trans Res 15:305-311

Eckert H, LaVallee B, Schweiger BJ, Kinney AJ, Cahoon EB, Clemente T (2006) Co-expression of the borage Delta(6) desaturase and the Arabidopsis Delta(15) desaturase results in high accumulation of stearidonic acid in the seeds of transgenic soybean. Planta 224:1050-1057

Filipecki, M. & S. Malepszy (2006) Unintended consequences of plant transformation: a molecular insight. Journal of Applied Genetics, 47, 277-286.

Furutani N, Hidaka S, Kosaka Y, Shizukawa Y, Kanematsu S (2006) Coat protein gene-mediated resistance to soybean mosaic virus in transgenic soybean. Breed Sci 56:119-124

Lim HS, Ko TS, Lambert KN, Kim HG, Korban SS, Hartman GL, Domier LL (2005) Soybean mosaic virus helper component-protease enhances somatic embryo production and stabilizes transgene expression in soybean. Plant Physiol Biochem 43:1014-1021

Nishizawa K, Kita, Y, Kitayama, M, Ishimoto, M (2006)A red flourescent protein, DsRed2, as a visual reporter for transient expression and stable transformation in soybean. Plant Cell Reports 25:1355-1361

Nunes, A. C. S., G. R. Vianna, F. Cuneo, J. Amaya-Farfan, G. de Capdeville, E. L. Rech & F. J. L. Aragao (2006) RNAi-mediated silencing of the myo-inositol-1-phosphate synthase gene (GmMIPS1) in transgenic soybean inhibited seed development and reduced phytate content. Planta, 224, 125-132.

Paz MM, Martinez JC, Kalvig AB, Fonger TM, Wang K (2006) Improved cotyledonary node method using an alternative explant derived from mature seed for efficient Agrobacterium-mediated soybean transformation. Plant Cell Rep 25:206-213. Erratum: Plant Cell Rep 25:248.

Steeves RM, Todd TC, Essig JS, Trick HN (2006) Transgenic soybeans expressing siRNAs specific to a major sperm protein gene suppress Heterodera glycines reproduction. Functional Plant Biology 33:991-999

Tinoco ML, Vianna GR, Abud S, Souza PIM, Rech EL and Arag?o FJL (2006) Radiation as a tool to remove selective marker genes from transgenic soybean plants. Biologia Plantarum 50:146-148

Tougou M, Furutani N, Yamagishi N, Shizukawa Y, Takahata Y, Hidaka S (2006) Development of resistant transgenic soybeans with inverted repeat-coat protein genes of soybean dwarf virus. Plant Cell Rep 25:1213-1218

Xue RG, Xie HF, Zhang B (2006) A multi-needle-assisted transformation of soybean cotyledonary node cells. Biotechnol Lett 28:1551-1557. Erratum: Biotechnol Lett 29:331

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2005

Dufourmantel, N., B. Pelissier, F. Garcon, G. Peltier, J.M. Ferullo, and G. Tissot (2005) Generation of fertile transplastomic soybean. Plant Mol. Biol. 55:479-489

Dufourmantel N, Tissot G, Goutorbe F, Garcon F, Muhr C, Jansens S, Pelissier B, Peltier G, Dubald M (2005) Generation and analysis of soybean plastid transformants expressing Bacillus thuringiensis Cry1Ab protoxin. Plant Mol Biol 58:659-668

Herman, E. (2005) Soybean allergenicity and suppression of the immunodominant allergen. Crop Science 45:462-467

Khalafalla, M.M., S.M. Rahman, H.A. El-Shemy, Y. Nakamoto, K. Wakasa, and M. Ishimoto (2005) Optimization of particle bombardment conditions by monitoring of transient sGFP(S65T) expression in transformed soybean. Breeding Science 55:257-263

Kinney, A.J, and T.E. Clemente (2005) Modifying soybean oil for enhanced performance in biodiesel blends. Fuel Processing Technology 86:1137-1147

Krishnan, H.B. (2005) Engineering soybean for enhanced sulfur amino acid content. Crop Science 45:454-461

Macrae, T.C., M.E. Baur, D.J. Boethel, B.J. Fitzpatrick, A.G. Gao, J.C. Gamundi, L.A.Harrison, V.T. Kabuye, R.M. Mcpherson, J.A. Miklos, M.S. Paradise, A.S. Toedebusch, and A. Viegas (2005) Laboratory and field evaluations of transgenic soybean exhibiting high-dose expression of a synthetic Bacillus thuringiensis cry1A gene for control of Lepidoptera. Journal of Economic Entomology 98:577-587

Piller, K. J., T. E. Clemente, S. M. Jun, C. C. Petty, S. Sato, D. W. Pascual & K. L. Bost (2005) Expression and immunogenicity of an Escherichia coli K99 fimbriae subunit antigen in soybean. Planta, 222, 6-18.

Russell, D.A., Spatola, L.A., Dian, T., Paradkar, V.M., Dufield, D.R,, Carroll, J.A., Schlittler, M.R. (2005) Host limits to accurate human growth hormone production in multiple plant systems. Biotech Bioeng 89:775-782

Subramanian, S., M.Y. Graham, O. Yu, and T.L. Graham (2005) RNA interference of soybean isoflavone synthase genes leads to silencing in tissues distal to the transformation site and to enhanced susceptibility to Phytophthora sojae. Plant Physiology 137:1345-1353

Zhang, X.H., W.Q. Zhong, and J.M .Widholm (2005) Expression of a fungal cyanamide hydratase in transgenic soybean detoxifies cyanamide in tissue culture and in planta to provide cyanamide resistance. Journal of Plant Physiology 162:1064-1073

2004

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Chen, S (2004) High-efficiency Agrobacterium-mediated Transformation of Soybean. Acta Botanica Sinica 46(5):610-617

Chiera, J.M., J.J. Finer, and E.A. Grabau. (2004) Ectopic expression of a soybean phytase in developing seeds of Glycine max to improve phosphorus availability. Plant Molecular Biology 56:895-904

Clemente, T.E., and T.M. Klein. 2004. Genetic Engineering of Soybean: Strategies and Utility. p. 204-233. In: Legume Crop Genomics (Eds. Wilson, R. F., H. T. Stalker, and E.C. Brummer) AOCS Press, Champaign, IL.

Conner, T., E.H. Paschal, A. Barbero, and E. Johnson. 2004. The challenges and potential for future agronomic traits in soybeans. AgBioForum 7:47-50.

De Ronde, J.A., W.A. Cress, G.H.J. Kruger, R.J. Strasser, and J. Van Staden. 2004. Photosynthetic response of transgenic soybean plants, containing an Arabidopsis P5CR gene, during heat and drought stress. Journal of Plant Physiology 161:1211-1224.

De Ronde, J.A., R.N. Laurie, T. Caetano, M.M. Greyling, and I. Kerepesi. 2004. Comparative study between transgenic and non-transgenic soybean lines proved transgenic lines to be more drought tolerant. Euphytica 138:123-132.

El-Shemy, H.A., M. Teraishi, M.M. Khalafalla, T. Katsube-Tanaka, S. Utsumi, and M. Ishimoto. 2004. Isolation of soybean plants with stable transgene expression by visual selection based on green fluorescent protein. Molecular Breeding 14:227-238.

Furutani, N., and S. Hidaka. 2004. Efficient production of transgenic soybean using a co-transformation method. Breed. Sci. 54:91-98.

Ko, T.S., and S.S.Korban. 2004. Enhancing the frequency of somatic embryogenesis following Agrobacterium-mediated transformation of immature cotyledons of soybean [Glycine max (L.) Merrill.]. In Vitro Cellular & Developmental Biology-Plant 40:552-558.

Ko, T-S., R.L. Nelson, and S.S. Korban. 2004. Screening multiple soybean cultivars (MG 00 to MG VIII) for somatic embryogenesis following Agrobacterium-mediated transformation of immature cotyledons. Crop Sci. 44:1825-1831.

Li, H.Y., Y.M. Zhu, Q. Chen, R.L. Conner, X.D. Ding, J. Li, and B.B. Zhang. 2004. Production of transgenic soybean plants with two anti-fungal protein genes via Agrobacterium and particle bombardment.

Liu, H.K., C. Yang, and Z.M. Wei. 2004. Efficient Agrobacterium tumefaciens-mediated transformation of soybeans using an embryonic tip regeneration system. Planta 219:1042-1049.

Olhoft, P.M., L.E. Flagel and D.A. Somers. 2004. T-DNA locus structure in a large population of soybean plants transformed using the Agrobacterium-mediated cotyledonary-node method. Plant Biotechnol. J. 2:289-300.

Ornatowski, W., J. Jayaraj, T.C. Todd, W.T. Schapaugh, S. Muthukrishnan, and H.N. Trick. 2004. Introduction and constitutive expression of a tobacco hornworm (Manduca sexta) chitinase gene in soybean. In Vitro Cell. Dev. Biol.-Plant 40:260-265.

Paz, M.M., H. Shou, Z. Guo, Z. Zhang, A.K. Banerjee, and K. Wang. 2004. Assessment of conditions affecting Agrobacterium-mediated soybean transformation using the cotyledonary node explant. Euphytica 136:167-179.

Sato, S., A. Xing, X. Ye, B. Schweiger, A. Kinney, G. Graef, and T. Clemente. 2004. Production of -linolenic acid and stearidonic acid in seeds of marker-free transgenic soybean. Crop Sci. 44:646-652.

Simmonds, J., L. Cass, E. Routly, K. Hubbard, P. Donaldson, B. Bancroft, A. Davidson, S. Hubbard, and D. Simmonds. 2004. Oxalate oxidase: a novel reporter gene for monocot and dicot transformations. Mol. Breed. 13:79-91.

Subramanian,S., X.Hu, G.H.Lu, J.T.Odell, and O.Yu. 2004. The promoters of two isoflavone synthase genes respond differentially to nodulation and defense signals in transgenic soybean roots. Plant Molecular Biology 54:623-639.

Zeng, P., D.A. Vadnais, Z. Zhang, J.C. Polacco. 2004. Refined glufosinate selection in Agrobacterium-mediated transformation of soybean [Glycine max (L.) Merrill]. Plant Cell Rep. 22:478-482.

2003

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Cahoon, E.B. 2003. Genetic enhancement of soybean oil for industrial uses: Prospects and challenges. AgBioForum 6:11-13.

Cober, E.R., S. Rioux, I. Rajcan, P.A. Donaldson, and D.H. Simmonds. 2003. Partial resistance to white mold in a transgenic soybean line. Crop Sci. 43:92-95.

Dinkins, R.D., M.S.S. Reddy, C.A. Meurer, C.T. Redmond, and G.B. Collins. 2003. Recent advances in soybean transformation. p. 3-21. In P.K. Jaiwal and R.P. Singh (ed) Applied genetics of leguminosae biotechnology. Kluwer Academic Publishers, Great Britain.

Herman, E.M., R.M. Helm, R. Jung, and A.J. Kinney. 2003. Genetic modification removes an immunodominant allergen from soybean. Plant Physiol. 132:36-43.

Kinney, A.J. 2003. Engineering soybeans for food and health. AgBioForum 6:18-22.

Kinney, A.J., R. Jung, and E.M. Herman. 2001. Cosuppression of the alpha subunits of beta -Conglycinin in transgenic soybean seeds induces the formation of endoplasmic reticulum-derived protein bodies. The Plant Cell 13:1165-1178.

Ko, T.-S., S. Lee, S. Krasnyanski, and S.S. Korban. 2003. Two critical factors are required for efficient transformation of multiple soybean cultivars: Agrobacterium strain and oritentation of immature cotyledonary explant. Theor. Appl. Genet. 107:439-447.

Ko, T.-S., S. Lee, S.K. Farrand, and S.S. Korban. 2004. A partially disarmed vir helper plasmid, pKYRT1, in conjunction with 2,4-dichlorophenoxyactic acid promotes emergence of regenerable transgenic somatic embryos from immature cotyledons of soybean. Planta 218:536-541.

Martin, W., 2003, Gene transfer from organelles to the nucleus: Frequent and in big chunks: Proceedings of the National Academy of Sciences of the United States of America, v. 100, p. 8612-8614 Olhoft, P.M., L.E. Flagel, C.M. Donovan, and D.A. Somers. 2003. Efficient soybean transformation using hygromycin B selection in the cotyledonary-node method. Planta. 216:723-735.

Van Eenennaam, A.L., K. Lincoln, T.P. Durrett, H.E. Valentine, C.K. Shewmaker, G.M. Thorne, J. Jiang, S.R. Baszis, C.K. Levering, E.D. Aassen, M. Hao, J.C. Stein, S.R. Norris, and R.L. Last. 2003. Engineering vitamin E content: from arabidopsis mutant to soy oil. Plant Cell 15:3007-3019.

Yu, O., J. Shi, A.O. Hession, C.A. Maxwell, B. McGonigle, and J.T. Odell. 2003. Metabolic engineering to increase isoflavone biosynthesis in soybean seed. Phytochemistry 63:753-763.

2002

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Buhr, T., S. Sato, F. Ebrahim, A. Xing, Y. Zhou, M. Mathiesen, B. Schweiger, A. Kinney, P. Staswick, and T. Clemente. 2002. Ribozyme termination of RNA transcripts down-regulate seed fatty acid genes in transgenic soybean. The Plant J. 30:155-163.

Droste, A., G. Pasquali, and M.H. Bodanese-Zanettini. 2002. Transgenic fertile plants of soybean [Glycine max (L.) Merrill] obtained from bombarded embryogenic tissue. Euphytica 127:367-376.

Marillia, E.-F., E.M. Giblin, P.S. Covello, and D.C. Taylor. 2002. Expression of meadowfoam Des5 and FAE1 genes in yeast and in transgenic soybean somatic embryos, and their roles in fatty acid modification. Plant Physiol. Biochem. 40:821-828.

Shou, H., R.G. Palmer, and K. Wang. 2002. Irreproducibility of the soybean pollen-tube pathway transformation procedure. Plant Mol. Biol. Rep. 20:325-334.

Yang, Q.K., Y.P. Cao, Y. Cui, and S.J. Zhou. 2002. Study on introducing Bt gene into soybean by pollen tube path method. Chinese Journal of Oil Crop Sciences. 24:17-20.

2001

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de Ronde, J.A.., W.A. Cress, and J. van Staden. 2001. Interaction of osmotic and temperature stress on transgenic soybean. S. Afr. J. Bot. 67:655-660.

de Ronde, J.A.., W.A. Cress, and A. van der Mescht. 2001. Agrobacterium-mediated transformation of soybean (Glycine max) seed with the beta-glucuronidase marker gene. S. Afr. J. Sci. 97:421-424.

Donaldson, P.A., T. Anderson, B.G. Lane, A.L. Davidson, and D.H. Simmonds. 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. Physiol. Mol. Plant Path. 59:297-307.

Olhoft, P.M., and D.A. Somers. 2001. L-Cysteine increases Agrobacterium-mediated T-DNA delivery into soybean cotyledonary-node cells. Plant Cell Rep. 20:706-711.

Olhoft, P.M., K. Lin, J. Galbraith, N.C. Nielsen, and D.A. Somers. 2001. The role of thiol compounds in increasing Agrobacterium-mediated transformation of soybean cotyledonary-node cells. Plant Cell Rep. 20:731-737.

Philip, R., D.W. Darnowski, P.J. Maughan, and L.O. Vodkin. 2001. Processing and localization of bovine beta-casein expressed in transgenic soybean seeds under control of a soybean lectin expression cassette. Plant Sci. 161:323-335.

Reddy, M.S.S., S.A. Ghabrial, C.T. Redmond, R.D. Dinkins, and G.B. Collins. 2001. Erratum. to bean pod mottle virus in transgenic soybean lines expressing the capsid polyprotein. Phytopathology 91:1238.

Staswick, P.E., Z. Zhang, T.E. Clemente, and J.E. Specht. 2001. Efficient down-regulation of the major vegetative storage protein genes in transgenic soybean does not compromise plant productivity. Plant Physiol. 127:1819-1826.

Steinlage, T.A., J.H. Hill, and F.W. Nutter, Jr. 2001. Temporal and spatial spread of soybean mosaic virus (SMV) in soybeans transformed with the coat protein gene of SMV. 2001. Phytopathology 478-486.

Streit, L.G., L.R. Beach, J.C. Register III, R. Jung, and W.R. Fehr. 2001. Association of the Brazil nut protein gene and kunitz trypsin inhibitor alleles with soybean protease inhibitor activity and agronomic traits. Crop Sci. 41:1757-1760.

Wang, X., A.L. Eggenberger, F.W. Nutter, Jr., and J.H. Hill. 2001. Pathogen-derived transgenic resistance to soybean mosaic virus in soybean. Mol. Breed. 8:119-127.

2000

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Aragão, F. J. L., Sarokin, L., Vianna, G. R., and Rech, E. L. 2000. Selection of transgenic meristematic cells utilizing a herbicidal molecule results in recovery of fertile transgenic soybean [Glycine max (L.) Merril] plants at a high frequency. Theor Appl Genet 101:1-6.

Cahoon, E.B., E.-F. Marillia, K.L.Stecca, S.E. Hall, D.C. Taylor, and A.J. Kinney. 2000. Production of fatty acid components of meadowfoam oil in somatic soybean embryos. Plant Physiol 124:243-251.

Clemente, T.E., B.J. LaVallee, A.R. Howe, D. Conner-Ward, R.J. Rozman, P.E. Hunter, D.L. Broyles, D.S. Kasten, and M.A. Hinchee. 2000. Progeny analysis of glyphosate-selected transgenic soybeans derived from Agrobacterium-mediated transformation. Crop Sci 40:797-803.

de Ronde,J.A., M.H.Spreeth, and W.A.Cress. 2001. Effect of antisense L-Delta(1)-pyrroline-5-carboxylate reductase transgenic soybean plants subjected to osmotic and drought stress. Plant Growth Reg 32:13-26.

Donaldson, P.H. and D.H. Simmonds. 2000. Susceptibility to Agrobacterium tumefaciens and cotyledonary node transformation in short-season soybean. Plant Cell Rep 19:478-484.

Droste, A., G. Pasquali, and M.H. Bodanese-Zanettini. 2000. Integrated bombardment and Agrobacterium transformation system: an alternative method for soybean transformation. Plant Mol. Biol. Rep. 18:51-59.

Reddy,M.S.S., S.A.Ghabrial, C.T.Redmond, R.D.Dinkins, and G.B.Collins. 2001. Resistance to bean pod mottle virus in transgenic soybean lines expressing the capsid polyprotein. Phytopathology 91:831-838.

Simmonds DH, Donaldson PA (2000) Genotype screening for proliferative embryogenesis and biolistic transformation of short-season soybean genotypes. Plant Cell Rep 19:485-490.

Xing,A.Q., Z.G.Zhang, S.Sato, P.Staswick, and T.Clemente. 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.

1999

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Cahoon,E.B., T.J.Carlson, K.G.Ripp, B.J.Schweiger, G.A.Cook, S.E.Hall, and A.J.Kinney. 1999. Biosynthetic origin of conjugated double bonds: Production of fatty acid components of high-value drying oils in transgenic soybean embryos. Proc.Natl.Acad.Sci.USA 96:12935-12940.

Hu,C.-Y. and L.Wang. 1999. In planta soybean trasnformation technologies developed in China: procedure, confirmation and field performance. In Vitro Cell Dev.Biol.- Plant 35:417-420.

Maughan,P.J., R. Philip, M.-J. Cho, J.M. Widholm, and L.O. Vodkin. 1999. Biolistic transformation, expression, and inheritance of bovine ß-casein in soybean (Glycine max). In Vitro Cell Dev. Biol.- Plant 35:334-349.

Mazur,B., E. Krebbers, and S. Tingey. 1999. Gene discovery and product development for grain quality traits. Science 285:372-375.

Ponappa,T., A.E.Brzozowski, and J.J.Finer. 1999. Transient expression and stable transformation of soybean using jellyfish green fluorescent protein. Plant Cell Rep. 19:6-12.

Santar?m, E.R., and J.J. Finer. 1999. Transformation of soybean [Glycine max (L.) Merrill] using proliferative embryogenic tissue maintained on semi-solid medium. In Vitro Cell. Dev. Biol.-Plant 35:451-455.

Su, Y.-H., H.-L. Wang, M.-M. Yu, D.-Y. Lu, and S.-D. Guo. 1999. Studies on transfer of Bt into Glycine max. Acta Bot. Sin. 41:1046-1051.

Zhang,Z., A.Xing, P.Staswick, and T.E.Clemente. 1999. The use of glufosinate as a selective agent in Agrobacterium-mediated transformation of soybean. Plant Cell Tissue Organ Cult. 56:37-46.

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1998

Denbow, D.M., E.A. Grabau, G.H. Lacy, E.T. Kornegay, D.R. Russell, and P.F. Umbeck. 1998. Soybeans transformed with a fungal phytase gene improve phosphorus availability for broilers. Poultry Science 77:878-881.

Hazel, C.B., T.M. Klein, M. Anis, H.D. Wilde, and W.A. Parrott. 1998. Growth characteristics and transformability of soybean embryogenic cultures. Plant Cell Rep. 17:765-772.

Kinney,A.J. 1998. Plants as industrial chemical factories– new oils from geneticaly engineered soybeans. Fett/Lipid 100:173-176.

Meurer, C.A., R.D. Dinkins, and G.B. Collins. 1998. Factors affecting soybean cotyledonary node transformation. Plant Cell Rep. 18:180-186.

Santar?m, E.R., H.N. Trick, J.S. Essig, and J.J. Finer. 1998. Sonication-assisted Agrobacterium-mediated transformation of soybean immature cotyledons: optimization of transient expression. Plant Cell Rep. 17:752-759.

Singh, R.J., T.M. Klein, C.J. Mauvais, S. Knowlton, T. Hymowitz, and C.M. Kostow. 1998. Cytological characterization of transgenic soybean. Theor.Appl.Genet. 96:319-324.

Trick, H.N. and J.J. Finer. 1998. Sonication-assisted Agrobacterium-mediated transformation of soybean [Glycine max (L.) Merrill] embryogenic suspension cultures. Plant Cell Rep. 17:482-488.

Zeitlin, L., S.S. Olmsted, T.R. Moench, M.S. Co, B.J. Martinell, V.M. Paradkar, D.R. Russell, C. Queen, R.A. Cone, and K.J. Whaley. 1998. A humanized monoclonal antibody produced in transgenic plants for immunoprotection of the vagina against genital herpes. Nat.Biotechnol. 16:1361-1364.

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1997

Christou, P. 1997. Biotechnology applied to grain legumes. Field Crops Res. 53:83-97.

Jahreis, G. 1997. Transgenic soybeans- composition and use of soybean oil and soybean flour in nutrition [Die gentechnisch ver?nderte Sojabohne- Zusammensetuzung und Nutzung von Soja?l und Sojamehl in der Ern?hrung]. Fett/Lipid 99:32-34.

Trick, H.N., R.D. Dinkins, E.R. Santarem, R. Di, V.M. Samoylov, C. Meurer, D. Walker, W.A. Parrott, J.J. Finer, and G.B. Collins. 1997. Recent advances in soybean transformation. Plant Tiss. Cult. Biotechnol. 3:9-26.

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1996

Cho, M.-J., J.M. Widholm, and L.O. Vodkin. 1996. Cassettes for seed-specific expression tested in transformed embryogenic cultures of soybean. Plant Mol. Biol. Rep. 13:255-269.

Chowrira, G.M., V. Akella, P.E. Fuerst, and P.F. Lurquin. 1996. Transgenic grain legumes obtained by in planta electroporation-mediated gene transfer. Mol. Biotechnol. 5:85-96.

Christou, P. 1996. Electric discharge particle acceleration (AccellR) technology for the creation of transgenic plants with altered characteristics. Field Crops Res. 45:143-151.

Di, R., V. Purcell, G.B. Collins, and S.A. Ghabrial. 1996. Production of transgenic soybean lines expressing the bean pod mottle virus coat protein precursor gene. Plant Cell Rep. 15:746-750.

Hadi, M.Z., M.D. McMullen, and J.J. Finer. 1996. Transformation of 12 different plasmids into soybean via particle bombardment. Plant Cell Rep. 15:500-505.

Kinney, A.J. 1996. Development of genetically engineered soybean oils for food applications. J. Food Lipids 3:273-292.

Liu, W., R.S. Torisky, K.P. McAllister, S. Avdiushko, D.F. Hildebrand, and G.B. Collins. 1996. Somatic embryo cycling: evaluation of a novel transformation and assay system for seed-specific gene expression in soybean. Plant Cell Tissue Organ Cult. 47:33-42.

Nordlee, J.A., S.L. Taylor, J.A. Townsend, L.A. Thomas, and R.K. Bush. 1996. Identification of Brazil-nut allergen in transgenic soybeans. N. Engl. J. Med. 334:688-692.

Stewart, C.N., Jr., M.J. Adang, J.N. All, H.R. Boerma, G. Cardineau, D. Tucker, and W.A. Parrott. 1996. Genetic transformation, recovery, and characterization of fertile soybean (Glycine max L.) Merrill) transgenic for a synthetic Bacillus thuringiensis CRYIA(c) gene. Plant Physiol. 112:121-129.

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1995

Chowrira, G.M., V. Akella, and P.F. Lurquin. 1995. Electroporation-mediated gene transfer into intact nodal meristems in planta. Mol. Biotechnol. 3:17-23.

Christou, P. 1995. Strategies for variety-independent genetic transformation of important cereals, legumes and woody species utilizing particle bombardment. Euphytica 85:13-27.

Falco, S.C., T. Guida, M. Locke, J. Mauvais, C. Sanders, R.T. Ward, and P. Webber. 1995. Transgenic canola and soybean seeds with increased lysine. Bio/Technol. 13:577-582.

Xie, W., B. Wang, L. Bojun, X. Li, C. Lu, H. Qian, and S. Zhou. 1995. Introduction of wild soybean DNA into cultivated soybean and RAPD molecular verification. Sci.Chi.Ser.B. 38:1195-1201.

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1994

Parrott, W.A., J.N. All, M.J. Adang, M.A. Bailey, H.R. Boerma, and C.N. Stewart,Jr. 1994. Recovery and evaluation of soybean (Glycine max [L.] Merr.) plants transgenic for a Bacillus thuringiensis var. kurstaki insecticidal gene. In Vitro Cell. Dev. Biol. 30P:144-149.

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1993

Sato, S., C. Newell, K. Kolacz, L. Tredo, J. Finer, and M. Hinchee. 1993. Stable transformation via particle bombardment in two different soybean regeneration systems. Plant Cell Rep. 12:408-413.

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1992

Christou, P. 1992. Soybean and other Glycine species. p. 37-127. In: Genetic Engineering and In Vitro Culture of Crop Legumes. Technomic Publishing Co., Inc. Lancaster Basel.

Christou, P. and D.E. McCabe. 1992. Prediction of germ-line transformation events in chimeric R0 transgenic soybean plantlets using tissue-specific expression patterns. Plant J. 2:283-290.

Dhir, S.K., S. Dhir, M.A. Savka, F. Belanger, A.L. Kriz, S.K. Farrand, and J.M. Widholm. 1992. Regeneration of transgenic soybean (Glycine max) plants from electroporated protoplasts. Plant Physiol. 99:81-88. [Retracted. 1993. Plant Physiol. 102:331].

Liu, D., Yuan, Y. andS. Huan. 1992. A study on exogenous DNA introduction into cultivated soybean. Advances in Molecular Breeding Research of Agriculture, China Agri Sci Tech Press. Pp. 134-149.

McKenzie, M.A. and W.A. Cress. 1992. The evaluation of South African cultivars of soybean for their susceptibility to Agrobacterium tumefaciens and the production of transgenic soybean. S. A. J. Sci. 88:193-196.

Widholm, J.M., S.K. Dhir, and S. Dhir. 1992. Production of transformed soybean plants by electroporation of protoplasts. Physiol. Plant. 85:357

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1991

Chang,H.-H. and M.-T.Chan. 1991. Agrobacterium tumefaciens-mediated transformation of soybean (Glycine max (L.) Merr.) is promoted by the inclusion of potato suspension culture. Bot. Bull. Academia Sinica 32:171-178.

Kumar,V., B.Jones, and M.R.Davey. 1991. Transformation by Agrobacterium rhizogenes and regeneration of transgenic shoots of the wild soybean Glycine argyrea. Plant Cell Rep. 10:135-138.

Lei,B., G.Yin, C.Lu, H.Qian, K.Zhang, S.Zhou, and S.Wang. 1991. Study of exogenous DNA directly transferred into soybean. Soybean Sci. 10:58-63.

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1990

Christou,P., D.E.McCabe, B.J.Martinell, and W.F.Swain. 1990. Soybean genetic engineering – commercial production of transgenic plants. Tibtech 8:145-151.

Christou,P. 1990. Soybean transformation by electric discharge particle acceleration. Physiol. Plant. 79:210-212.

Christou,P. 1990. Morphological description of transgenic soybean chimeras created by the delivery, integration and expression of foreign DNA using electric discharge particle acceleration. Ann. Bot. 66:379-386.

Liu,B.-L., S.-X.Yue, N.-B.Hu, X.-B.Li, W.-X.Zhai, N.Li, R.-H.Zhu, L.-H.Zhu, D.-Z.Mao, and P.-Z.Zhou. 1990. Transfer of the atrazine-resistant gene of black nightshade to soybean chloroplast genome and its expression in transgenic plants. Sci. Chi. Ser. B. 33:444-452.

Yue,S.-X., B.-L.Liu, D.-Z.Mao, X.-B.Li, N.-B.Hu, J.-H.Fu, L.-C.Li, and L.-B.Zhu. 1990. A genetic analysis of the progenies of atrazine-resistant transgenic soybean plant. Acta Bot. Sin. 32:343-349.

Zhou,J.H. and A.G.Atherly. 1990. In situ detection of transposition of the maize controlling element (Ac) in transgenic soybean tissues. Plant Cell Rep. 8:542-545.

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1989

Chee,P.P., K.A.Fober, and J.L.Slightom. 1989. Transformation of soybean (Glycine max) by infecting germinating seeds with Agrobacterium tumefaciens. Plant Physiol. 91:1212-1218.

Parrott,W.A., L.M.Hoffman, D.F.Hildebrand, E.G.Williams, and G.B.Collins. 1989. Recovery of primary transformants of soybean. Plant Cell Rep. 7:615-617.

Christou,P., W.F.Swain, N.S.Yang, and D.E.McCabe. 1989. Inheritance and expression of foreign genes in transgenic soybean plants. Proc. Natl. Acad. Sci. USA 86:7500-7504.

Lei,B., Y.Guangchu, S.Wang, C.Lu, H.Qian, S.Zhou, K.Zhang, D.Sui, and Z.Lin. 1989. Variation occurring by introduction of wild soybean DNA into cultivar soybean. Oil Crops of China 3:11-14.

Liu,B.-L., S.-X.Yue, N.-B.Hu, X.-B.Li, W.-X.Zhai, N.Li, R.-H.Zhu, L.-H.Zhu, D.-Z.Mao, and P.-Z.Zhou. 1989. Transfer of atrazine resistant gene from nightshade to soybean chloroplast genome and its expression in transgenic plants. Ch. Sci. Bull. 34:1670-1672.

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1988

Hinchee,M.A.W., D.V.Connor-Ward, C.A.Newell, R.E.McDonnell, S.J.Sato, C.S.Gasser, D.A.Fischhoff, D.B.Re, R.T.Fraley, and R.B.Horsch. 1988. Production of transgenic soybean plants using Agrobacterium-mediated gene transfer. Bio/Technol. 6:915-922.

McCabe,D.E., W.F.Swain, B.J.Martinell, and P.Christou. 1988. Stable transformation of soybean (Glycine max) by particle acceleration. Bio/Technol. 6:923-926.

Rech,E.L., T.J.Golds, N.Hammatt, B.J.Mulligan, and M.R.Davey. 1988. Agrobacterium rhizogenes mediated transformation of the wild soybeans Glycine canescens and G. clandestina: production of transgenic plants of G. canescens. J. Exp. Bot. 39:1275-1285.

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