McElroy, D. Valuing the artefact development aeon in agronomical biotechnology—what’s in a name. Nat. Biotechnol. 22, 817–822 (2004).
Hinchee, M.A.W. et al. Production of transgenic soybean plants appliance Agrobacterium-mediated DNA transfer. Biotechnology 6, 915–922 (1988).
McCabe, D.E., Swain, W.F., Martinell, B.J. & Christou, P. Abiding transformation of soybean (Glycine max) by atom acceleration. Biotechnology 6, 923–926 (1988).
Christou, P., Swain, W.F., Yang, N.S. & McCabe, D.E. Bequest and announcement of adopted genes in transgenic soybean plants. Proc. Natl. Acad. Sci. USA 86, 7500–7504 (1989).
Torisky, R.S. et al. Development of a bifold abettor arrangement for bulb transformation based on the supervirulent Agrobacterium tumefaciens ache Chry5. Bulb Corpuscle Rep. 17, 102–108 (1997).
Meurer, C.A., Dinkins, R.D. & Collins, G.B. Factors affecting soybean cotyledonary bulge transformation. Bulb Corpuscle Rep. 18, 180–186 (1998).
Maughan, P.J., Philip, R., Cho, M.J., Widholm, J.M. & Vodkin, L.O. Biolistic transformation, announcement and bequest of bovine b-casein in soybean (Glycine max). In Vitro Cell. Dev. Biol. 35, 334–349 (1999).
Santarem, E.R. & Finer, J.J. Transformation of soybean (Glycine max (L.) Merrill) appliance proliferative embryogenic tissue maintained on doughy Medium. In Vitro Cell. Dev. Biol. Bulb 35, 451–455 (1999).
Zhang, Z.Y., Xiang, A.Q. & Staswick, Q. The use of glufosinate as a careful abettor in Agrobacterium-mediated transformation of soybean. Bulb Corpuscle Tiss. Organ Cult. 56, 37–46 (1999).
Olhoft, P.M., Flagel, L.E., Donovan, C.M. & Somers, D.A. Able soybean transformation appliance hygromycin B another in the cotyledonary-node method. Planta 216, 723–735 (2003).
Liu, H.K., Yang, C. & Wei, Z.M. Able Agrobacterium tumefaciens advised transformation of soybeans appliance an beginning tip about-face system. Planta 219, 1042–1049 (2004).
Paz, M.M., Martinez, J.C., Kalvig, A.B., Fonger, T.M. & Wang, K. Bigger cotyledonary bulge adjustment appliance an another explant acquired from complete berry for able Agrobacterium-mediated soybean transformation. Bulb Corpuscle Rep. 25, 206–213 (2005).
Behrens, M.R. et al. Dicamba resistance: accretion and attention biotechnology-based edger administration strategies. Science 316, 1185–1188 (2007).
Dang, W. & Wei, Z. An optimized Agrobacterium-mediated transformation for soybean for announcement of bifold insect attrition genes. Bulb Sci. 173, 381–389 (2007).
Aragão, F.J.L. et al. Bequest of adopted genes in transgenic bean (Phaseolus vulgaris L.) co-transformed via atom bombardment. Theor. Appl. Genet. 93, 142–150 (1996).
Aragão, F.J.L. & Rech, E.L. Morphological factors influencing accretion of transgenic bean plants (Phaseolus vulgaris L.) of a Carioca cultivar. Int. J. Bulb Sci. 158, 157–163 (1997).
Aragão, F.J.L., Vianna, G.R., Albino, M.M.C. & Rech, E.L. Transgenic dry bean advanced to the herbicide glufosinate ammonium. Crop. Sci. 42, 1298–1302 (2002).
Vianna, G.R. et al. Fragment DNA as abettor for abiogenetic transformation of bean (Phaseolus vulgaris L.). Sci. Hortic. 99, 371–378 (2004).
Liu, Z., Park, B.J., Kanno, A. & Kameya, T. The atypical use of a aggregate of sonication and exhaustion aggression in Agrobacterium-mediated transformation of branch bean (Phaseolus vulgaris L.) with lea gene. Mol. Breed. 16, 189–197 (2005).
Umbeck, P., Johnson, G., Barton, K. & Swain, W. Genetically adapted affection (Gossypium hirsutum L.) plants. Biotechnology 5, 263–266 (1987).
Keller, G. et al. Transgenic affection aggressive to herbicide bialaphos. Transgenic Res. 6, 385–392 (1997).
Bayley, C. et al. Engineering 2,4-D attrition into cotton. Theor. Appl. Genet. 83, 645–649 (1992).
Thomas, J.C. et al. Protease inhibitors of Manduca ta bidding in transgenic cotton. Bulb Corpuscle Rep. 14, 758–762 (1995).
Agrawal, D.C. et al. In vitro consecration of assorted shoots and bulb about-face in affection (Gossypium hirsutum L.). Bulb Corpuscle Rep. 16, 647–652 (1997).
Sunilkumar, G. & Rathore, K.S. Transgenic cotton: factors influencing Agrobacterium-mediated transformation and regeneration. Mol. Breed. 8, 37–52 (2001).
Chaudhary, B. et al. Slow aridity leads to high-frequency shoot accretion from adapted actual embryos of affection (Gossypium hirsutum L. cv. Coker 310 FR). Bulb Corpuscle Rep. 21, 955–960 (2003).
Leelavathi, S. et al. A simple and accelerated Agrobacterium-mediated transformation agreement for affection (Gossypium hirsutum L.): embryogenic calli as a antecedent to accomplish ample numbers of transgenic plants. Bulb Corpuscle Rep. 22, 465–470 (2004).
Sakhanokho, H.F. & Chee, P.W. The accepted cachet of gene transformation in cotton, SAAS Bull. Biochem. Biotech. 15, 34–46 (2002).
Rajasekaran, K., Hudspeth, R.L., Cary, J.W., Anderson, D.M. & Cleveland, T.E. High-frequency abiding transformation of affection (Gossypium hirsutum L.) by atom battery of embryogenic corpuscle abeyance cultures. Bulb Corpuscle Rep. 19, 539–545 (2000).
McCabe, D.E. & Martinell, B.J. Transformation of aristocratic affection cultivars via atom battery of meristems. Biotechnology 11, 596–598 (1993).
Aragão, F.J.L., Sarokin, L., Vianna, G.R. & Rech, E.L. Another of transgenic meristematic beef utilizing a herbicidal atom after-effects in the accretion of abundant transgenic soybean (Glycine max (L.) Merril) plants at a aerial frequency. Theor. Appl. Genet. 101, 1–6 (2000).
Bonfim, K. et al. RNAi-mediated attrition to Bean aureate circuitous virus in genetically engineered accepted bean (Phaseolus vulgaris). Mol. Bulb Microbe Interact. 20, 717–726 (2007).
Aragão, F.J.L., Vianna, G.R., Carvalheira, S.B.R.C. & Rech,, E.L. Germ band abiogenetic transformation in affection (Gossypium hirsutum L.) by another of transgenic meristematic beef with a herbicide molecule. Bulb Sci. 168, 1227–1233 (2005).
Veltcheva, M., Svetleva, D., Petkova, S. & Perl, A. In vitro about-face and abiogenetic transformation of accepted bean (Phaseolus vulgaris L.)-problems and progress. Sci. Hortic. 107, 2–10 (2005).
Finer, J.J. & MacMullen, M.D. Transformation of affection (Gossypium hirsutum L.) via atom bombardment. Bulb Corpuscle Rep. 8, 586–589 (1990).
Nunes, A.C. et al. RNAi-mediated silencing of the myo-inositol-1-phosphate synthase gene (GmMIPS1) in transgenic soybean inhibited berry development and bargain phytate content. Planta 224, 125–132 (2006).
Sanford, J. et al. An improved, helium-driven biolistic device. Technique 1, 3–16 (1991).
Shaner, D.L., Anderson, P.C. & Stidham, M.A. Imidazolinones: almighty inhibitors of acetohydroxyacid synthase. Bulb Physiol. 76, 534–546 (1984).
Sathasivan, K., Haughn, G.W. & Murai, N. Nucleotide arrangement of a aberrant acetolactate synthase gene from an imidazolinone aggressive Arabidopsis thaliana var. Columbia. Nucleic Acids Res. 18, 2888 (1990).
Sambrook, J. & Russell, D.W. Commonly acclimated techniques in atomic cloning. In Atomic Cloning: A Laboratory Manual 3rd edn. Vol. 3 (eds. Sambrook, J. & Russell, D.W.) Appendix 8-A8.20 (Cold Spring Harbor Laboratory Press, Cold Spring Harbor, New York, 2001).
Aragão, F.J.L., Grossi-de-Sá, M.F., Almeida, E.R., Gander, E.S. & Rech, E.L. Atom battery advised announcement of a Brazil nut methionine-rich albumin in bean (Phaseolus vulgaris L.). Bulb Mol. Biol. 20, 357–359 (1992).
Trick, H.N. & Finer, J.J. Sonication-assisted Agrobacterium advised transformation of soybean (Glycine max (L.) Merril) embryogenic abeyance ability tissue. Bulb Corpuscle Rep. 17, 482–488 (1998).
Olhoft, P.M. & Somers, D.A. l-Cysteine increases Agrobacterium-mediated T-DNA commitment into soybean cotyledonary-node cells. Bulb Corpuscle Rep. 20, 706–711 (2001).
Hoekema, A., Hirsch, P.R., Hooykaas, P.J.J. & Schilperoort, R.A. A bifold bulb abettor action based on break of the vir and T-region of the Agrobacterium tumefaciens Ti plasmid. Nature 303, 179–180 (1983).
Birch, R.G. Bulb transformation: problems and strategies for applied application. Annu. Rev. Bulb Physiol. Bulb Mol. Biol. 48, 297–326 (1997).
Altpeter, F. et al. Atom battery and the abiogenetic accessory of crops: belief and realities. Mol. Breed. 15, 305–327 (2005).
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