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使用双终止子实现最小启动子盒中转录瞬时基因表达的空前增强。

Unprecedented enhancement of transient gene expression from minimal cassettes using a double terminator.

机构信息

Department of Plant Pathology and Microbiology, Texas AgriLife Research, Texas A&M System, Weslaco, TX 78596-8344, USA.

出版信息

Plant Cell Rep. 2011 Jan;30(1):13-25. doi: 10.1007/s00299-010-0936-3. Epub 2010 Oct 22.

DOI:10.1007/s00299-010-0936-3
PMID:20967448
Abstract

The potential of using vector-free minimal gene cassettes (MGCs) with a double terminator for the enhancement and stabilization of transgene expression was tested in sugarcane biolistic transformation. The MGC system used consisted of the enhanced yellow fluorescent protein (EYFP) reporter gene driven by the maize ubiquitin-1 (Ubi) promoter and a single or double terminator from nopaline synthase (Tnos) or/and Cauliflower mosaic virus 35S (35ST). Transient EYFP expression from Tnos or 35ST single terminator MGC was very low and unstable, typically peaking early (8-16 h) and diminishing rapidly (48-72 h) after bombardment. Addition of a ~260 bp vector sequence (VS) to the single MGC downstream of Tnos (Tnos + VS) or 35ST (35ST + VS) enhanced EYFP expression by 1.25- to 25-fold. However, a much more significant increase in EYFP expression was achieved when the VS in 35ST + VS was replaced by Tnos to generate a 35ST-Tnos double terminator MGC, reaching its maximum at 24 h post-bombardment. The enhanced EYFP expression from the double terminator MGC was maintained for a long period of time (168 h), resulting in an overall increase of 5- to 65-fold and 10- to 160-fold as compared to the 35ST and Tnos single terminator MGCs, respectively. The efficiency of the double terminator MGC in enhancing EYFP expression was also demonstrated in sorghum and tobacco, suggesting that the underlying mechanism is highly conserved among monocots and dicots. Our results also suggest the involvement of posttranscriptional gene silencing in the reduced and unstable transgene expression from single terminator MGCs in plants.

摘要

利用带有双终止子的无载体最小基因盒(MGC)增强和稳定转基因表达的潜力在甘蔗生物弹击转化中进行了测试。使用的 MGC 系统由增强型黄色荧光蛋白(EYFP)报告基因组成,该基因由玉米泛素-1(Ubi)启动子驱动,由来自胭脂碱合成酶(Tnos)或/和花椰菜花叶病毒 35S(35ST)的单个或双终止子组成。来自 Tnos 或 35ST 单个终止子 MGC 的瞬时 EYFP 表达非常低且不稳定,通常在轰击后 8-16 小时早期(早期)和 48-72 小时(早期)迅速减少。在 Tnos(Tnos + VS)或 35ST(35ST + VS)下游的单个 MGC 下游添加约 260 bp 载体序列(VS)可将 EYFP 表达增强 1.25-至 25 倍。然而,当 35ST + VS 中的 VS 被 Tnos 取代以生成 35ST-Tnos 双终止子 MGC 时,可使 EYFP 表达显著增加,在轰击后 24 小时达到最大值。双终止子 MGC 增强的 EYFP 表达可维持很长时间(168 小时),与 35ST 和 Tnos 单个终止子 MGC 相比,总体增加了 5-至 65 倍和 10-至 160 倍。双终止子 MGC 在增强 EYFP 表达方面的效率也在高粱和烟草中得到了证明,这表明该机制在单子叶植物和双子叶植物中高度保守。我们的结果还表明,在植物中单终止子 MGC 中,转录后基因沉默参与了转基因表达的减少和不稳定。

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