大豆胚尖遗传转化体系优化及抗逆基因GmPK转化研究
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河北省科技攻关计划项目(NO. 042401116D-1); 河北省科学技术研究与发展计划子课题(NO.09220103D);河北省教育厅项目(NO.2008460);


Optimization of Soybean Embryonic Tips Genetic Transformation System and Transformation of Stress Resistance Gene GmPK
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    摘要:

    采用GUS基因瞬时表达检测方法,通过正交试验以AS浓度、侵染菌液OD值、侵染时间、共培养时间和恢复培养时间5个因素在4个水平上进行分析,优化了农杆菌介导的大豆胚尖遗传转化体系,并在此基础上进行了抗逆基因GmPK的遗传转化。结果表明,采用共培养培养基中添加100 μmol/L AS、侵染菌液OD600值0.9、侵染15 h、共培养5 d和恢复培养3 d的转化条件最佳,GUS阳性率达74.59%,经PCR及RT-PCR进一步验证获得了转基因阳性植株。利用优化的最佳条件进行抗逆基因GmPK的转化,炼苗移栽成活的再生植株经PCR及PCR-Southern blotting验证,初步证明外源基因已经整合至大豆基因组,转化率为0.6%。

    Abstract:

    The Agrobacterium tumefaciens mediated genetic transformation system of soybean embryonic tips was optimized. The experiment was carried out by orthogonal test involving four levels of five terms (Acetosyringone (AS) concentration, Agrobacterium OD value, infection time, co-culture time and recovery culture time) , and the transgenic events were ascertained by β-glucuronidase assay. The results indicated that the optimum transformation conditions were: 100 μmol/L AS, Agrobacterium OD of 0.9, infected for 15h, co-cultured for 5d, recovery cultured for 3d. In the above condition, GUS staining positive rate reached up to 74.59%. And then, transgenic plants were obtained by PCR and RT-PCR. Using the optimized system, a stress-resistant gene GmPK was transformed. PCR and PCR-Southern blotting results showed that the GmPK gene was integrated into the genome of soybean. The transformation efficiency was 0.6%.

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张 洁,商 蕾,郑文永,等.大豆胚尖遗传转化体系优化及抗逆基因GmPK转化研究[J].植物遗传资源学报,2012,13(2):271-277.

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  • 收稿日期:2011-03-13
  • 最后修改日期:2011-11-06
  • 录用日期:2011-11-03
  • 在线发布日期: 2012-02-07
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