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Volume 34 Issue 8
Aug.  2007
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Selection of Maize Inbred Lines with High Regeneration and Susceptibility to Agrobacterium tumifacien

doi: 10.1016/S1673-8527(07)60084-8
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  • Corresponding author: E-mail address: pangt@sicau.edu.cn (Guangtang Pan)
  • Received Date: 2006-09-26
  • Accepted Date: 2006-12-03
  • Available Online: 2007-08-21
  • Publish Date: 2007-08-20
  • Ten-maize inbred lines of maize (Zea mays L.) with high-induction rate and proliferation ability of embryonic calli were selected from 70-maize inbred lines by immature embryo culturing. Some of the embryonic calli were transferred onto regeneration medium to examine the ability of regeneration, some were transformed via Agrobacterium tumifaciens C58 carrying intron-β-glucuronidase (gus) gene, and GV3301 carrying the green fluorescent protein (gfp) gene to study the susceptibility of different genotypes in maize to A. tumifaciens. All embryonic calli initiated from 10-maize inbred lines were able to regenerate into plantlets, and the regeneration frequencies of inbred lines 6010, 6038, 6015, 6051, and 6060 were 61.11%, 31.94%, 45%, 33.33%, and 56.94%, respectively, which were higher than that of other lines. Analysis of variance indicated that the susceptibility of the various genotypes in maize to A. tumifacien C58 showed a significant difference among each other, and the inbred lines 6010, 6015, 6051, 6050, 6058, 6060, 6069, 6077 were susceptible to A. tumifacien C58, of which frequency of gus expression were over 70%. Expression of GFP was observed in six-inbred lines (6050, 6015, 6051, 6058, 6069, 6077). The inbred lines 6051, 6010, 6015, 6060, and 6050 had the high regeneration and the susceptibility to A. tumifaciens C58; and the inbred lines 6051, 6015, and 6060 had the high regeneration and the susceptibility to Agrobacterium tumifaciens GV3301.
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  • [1]
    Gordon-Kamm, WI, Spencer, et al. Transformation of maize using microprojectile bombardment: an update and perspective In Vitro Cell Dev, 27 (1991),pp. 21-27
    [2]
    Casas, AM, Kononowicz, et al. Proc Natl Acad Sci USA, 90 (1993),pp. 11212-11216
    [3]
    Torbot, KA, Rines, et al. Use of paromomycin as a selective agent for oat transformation Plant Cell Rep, 14 (1995),pp. 635-640
    [4]
    Hobbs, SLA, Warkentin, et al. Transgene copy number can be positively or negatively associated with transgene expression Plant Mol Biol, 21 (1993),pp. 17-26
    [5]
    Prols, F, Meyer, et al. Plant J, 2 (1992),pp. 465-475
    [6]
    Meyer, P Understanding and controlling transgene expression Trends Biol Technology, 13 (1995),pp. 332-337
    [7]
    Meyer, P, Niederhof, et al. EMBO J, 13 (1994),pp. 2084-2088
    [8]
    Martin, T, Wohner, et al.
    [9]
    Mysore, KS, Nam, et al. Proc Natl Acad Sci USA, 97 (2000),pp. 948-953
    [10]
    Narasimhulu, SB, Deng, et al. Plant Cell, 8 (1996),pp. 873-886
    [11]
    Mysore, KS, Bassune, et al. Mol Plant-Microbe Interact, 11 (1998),pp. 668-683
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