烟草液泡转化酶抑制子基因调控马铃薯块茎低温还原糖累积的研究

中国农业科学 ›› 2007, Vol. 40 ›› Issue (1): 140-146 .

烟草液泡转化酶抑制子基因调控马铃薯块茎低温还原糖累积的研究

成善汉,宋波涛,谢从华,李竟才,柳俊

国家蔬菜改良中心华中分中心/园艺植物生物学教育部重点实验室/湖北省马铃薯工程技术研究中心

收稿日期:2005-12-20 修回日期:1900-01-01 出版日期:2007-01-10 发布日期:2007-01-10
通讯作者: 柳俊

Cloning of Tobacco Vacuolar Invertase Inhibitor Gene and Its function in Regulating Reducing Sugar Accumulation of Potato Tubers Stored at Low Temperature

国家蔬菜改良中心华中分中心/园艺植物生物学教育部重点实验室/湖北省马铃薯工程技术研究中心

Received:2005-12-20 Revised:1900-01-01 Online:2007-01-10 Published:2007-01-10

摘要/Abstract

摘要： 【目的】克隆烟草液泡转化酶抑制子基因，并在马铃薯中表达，从而抑制低温贮藏块茎还原糖积累，提高马铃薯加工品质。【方法】通过RT-PCR法分离Nt-VIF全长cDNA，转化马铃薯植株，PCR、Northern杂交和Southern杂交检测转基因植株，转基因植株块茎在低温和常温条件下贮藏30 d，分析转化酶活性与还原糖含量。【结果】克隆到Nt-VIF全长cDNA，35S调控下正向的Nt-VIF基因cDNA已经成功转入鄂马铃薯3号（E3）植株。转基因植株块茎在4℃和20℃贮藏30 d表明，VI活性受温度调节，高温贮藏块茎的VI活性显著低于低温贮藏的块茎，且高温条件下转基因块茎与对照无显著差异，而低温条件下转基因块茎的VI活性与对照相比下降幅度为22.7%（株系A-3）～78.1%（株系A-31）。转基因块茎还原糖（RS）含量在高温贮藏条件下与对照差异亦不明显，而低温贮藏条件下RS含量下降幅度为20%（株系A-17）～80.5%（株系A-30）。进一步分析还表明，转基因块茎低温贮藏其液泡转化酶活性与还原糖含量呈显著正直线相关（RS = 0.289VI + 0.0736）。【结论】Nt-VIF基因的表达显著抑制了马铃薯液泡转化酶活性，导致还原糖积累降低。

关键词: 马铃薯, 低温糖化, 转化酶抑制子, 遗传转化

Abstract: The potato (Solanum tuberosum L.) is the fourth food crop in the world. Low temperature storage regarding processing quality is the focus of post-harvesting physiology. In this experiment, a full cDNA sequence of vacuolar invertase inhibitor gene was amplified from leaves of tobacco T1 strain by RT-PCR using the primers designed on the base of published sequence of NCBI (Nt-VIF, GenBank assession number AY594179) and. Analysis of Blast showed that the cloned cDNA shares 100% homology with Nt-VIF of tobacco. The sense-orientation vector containing Nt-VIF cDNA regulated by 35S promoter was introduced successfully into potato cv. E-Potato 3 (E3) by the PCR detection and Northern and Southern blot analysis. The transgenic tubers were harvested and stored at 4℃ or 20℃ for 1 month in order to analyze the variation in reducing sugar (RS) content and vacuolar invertase (VI) activity. The results showed that VI activity was regulated by temperature, which was lower in high temperature than that in low temperature. There were no significant variances in VI activity between transgenic and non-transgenic (CK) tubers when they stored at high temperature, but VI activity of the transgenic tubers stored at low temperature was inhibited by a range of 22.7 (Line A-3) - 78.1% (Line A-31) comparing with CK. Correspondently, there were also no remarkable differences in RS content existed between transgenic and CK tubers at high temperature while the RS content of low temperature stored transgenic tubers decreased by 20 (Line A-17) to 80.5% (Line A-30). Further analysis revealed a significant linear relationship between IV activity and RS content of the transgenic tubers stored at low temperature which could be presented as RS = 0.289VI + 0.0736. Therefore, the present research approved that expression level of Nt-VIF was regulated by temperature and low temperature enhanced its expression which resulted in obvious inhibition of VI activity leading to a lower accumulation of RS in potato tubers. This implies a potential approach to slow RS accumulation of potato tubers during low temperature storage through regulating invertase activity.

Key words: Solanum tuberosum, Low temperature sweetening, Invertase inhibitor, Genetic modification

成善汉,宋波涛,谢从华,李竟才,柳俊. 烟草液泡转化酶抑制子基因调控马铃薯块茎低温还原糖累积的研究[J]. 中国农业科学, 2007, 40(1): 140-146 .

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