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高水平积累的重组神秘果蛋白在表达优化密码子使用的合成神秘果基因的转基因番茄中,该基因的终止子为天然神秘果终止子。

High-level accumulation of recombinant miraculin protein in transgenic tomatoes expressing a synthetic miraculin gene with optimized codon usage terminated by the native miraculin terminator.

机构信息

Graduate School of Life and Environmental Sciences, University of Tsukuba, Tennodai 1-1-1, Tsukuba, Ibaraki 305-8572, Japan.

出版信息

Plant Cell Rep. 2011 Jan;30(1):113-24. doi: 10.1007/s00299-010-0949-y. Epub 2010 Nov 13.

DOI:10.1007/s00299-010-0949-y
PMID:21076835
Abstract

In our previous study, a transgenic tomato line that expressed the MIR gene under control of the cauliflower mosaic virus 35S promoter and the nopaline synthase terminator (tNOS) produced the taste-modifying protein miraculin (MIR). However, the concentration of MIR in the tomatoes was lower than that in the MIR gene's native miracle fruit. To increase MIR production, the native MIR terminator (tMIR) was used and a synthetic gene encoding MIR protein (sMIR) was designed to optimize its codon usage for tomato. Four different combinations of these genes and terminators (MIR-tNOS, MIR-tMIR, sMIR-tNOS and sMIR-tMIR) were constructed and used for transformation. The average MIR concentrations in MIR-tNOS, MIR-tMIR, sMIR-tNOS and sMIR-tMIR fruits were 131, 197, 128 and 287 μg/g fresh weight, respectively. The MIR concentrations using tMIR were higher than those using tNOS. The highest MIR accumulation was detected in sMIR-tMIR fruits. On the other hand, the MIR concentration was largely unaffected by sMIR-tNOS. The expression levels of both MIR and sMIR mRNAs terminated by tMIR tended to be higher than those terminated by tNOS. Read-through mRNA transcripts terminated by tNOS were much longer than those terminated by tMIR. These results suggest that tMIR enhances mRNA expression and permits the multiplier effect of optimized codon usage.

摘要

在我们之前的研究中,一种在 Cauliflower Mosaic Virus 35S 启动子和胭脂碱合成酶终止子(tNOS)控制下表达 MIR 基因的转基因番茄系产生了味觉修饰蛋白 miraculin(MIR)。然而,番茄中 MIR 的浓度低于 MIR 基因天然奇迹果中的浓度。为了增加 MIR 的产量,使用了天然的 MIR 终止子(tMIR),并设计了一种合成基因来编码 MIR 蛋白(sMIR),以优化其在番茄中的密码子使用。这两个基因和终止子(MIR-tNOS、MIR-tMIR、sMIR-tNOS 和 sMIR-tMIR)的四个不同组合被构建并用于转化。在 MIR-tNOS、MIR-tMIR、sMIR-tNOS 和 sMIR-tMIR 果实中,MIR 的平均浓度分别为 131、197、128 和 287μg/g 鲜重。使用 tMIR 的 MIR 浓度高于使用 tNOS 的 MIR 浓度。在 sMIR-tMIR 果实中检测到最高的 MIR 积累。另一方面,sMIR-tNOS 对 MIR 浓度的影响不大。由 tMIR 终止的 MIR 和 sMIR mRNA 的表达水平往往高于由 tNOS 终止的表达水平。由 tNOS 终止的通读 mRNA 转录本比由 tMIR 终止的转录本长得多。这些结果表明,tMIR 增强了 mRNA 的表达,并允许优化密码子使用的倍增效应。

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