Marillonnet Sylvestre, Giritch Anatoli, Gils Mario, Kandzia Romy, Klimyuk Victor, Gleba Yuri
Icon Genetics, Biozentrum Halle, Weinbergweg 22, D-06120 Halle/Saale, Germany.
Proc Natl Acad Sci U S A. 2004 May 4;101(18):6852-7. doi: 10.1073/pnas.0400149101. Epub 2004 Apr 21.
We have developed an efficient, versatile, and user-friendly viral engineering and expression system that is based on in planta assembly of functional viral vectors from separate pro-vector modules. With this new system, instead of supplying a plant cell with a complete viral vector as a mature viral particle, an RNA or a linear DNA molecule, we use agrobacteria to deliver various modules that are assembled inside the cell with the help of a site-specific recombinase. The resulting DNA is transcribed, and undesired elements such as recombination sites are spliced out, generating a fully functional RNA replicon. The proposed protocol allows us, by simply treating a plant with a mixture of two or more agrobacteria carrying specific prefabricated modules, to rapidly and inexpensively assemble and test multiple vector/gene combinations, without the need to perform the various engineering steps normally required with alternative protocols. The process described here is very fast (expression requires 3-4 days); it provides very high protein yield (up to 80% of total soluble protein); more than before, it is carried out using in vivo manipulations; it is based on prefabricated genetic modules that can be developed/upgraded independently; and it is inherently scalable.
我们开发了一种高效、通用且用户友好的病毒工程与表达系统,该系统基于从单独的前载体模块在植物体内组装功能性病毒载体。借助这个新系统,我们不是向植物细胞提供完整的病毒载体(如成熟病毒粒子、RNA或线性DNA分子),而是利用农杆菌来递送各种模块,这些模块在细胞内借助位点特异性重组酶进行组装。产生的DNA被转录,诸如重组位点等不需要的元件被剪接掉,从而产生一个功能完全的RNA复制子。所提出的方案使我们能够通过简单地用携带特定预制模块的两种或更多种农杆菌混合物处理植物,快速且低成本地组装和测试多种载体/基因组合,而无需执行替代方案通常所需的各种工程步骤。这里描述的过程非常快速(表达需要3 - 4天);它能提供非常高的蛋白质产量(高达总可溶性蛋白质的80%);比以前更多地采用体内操作;它基于可独立开发/升级的预制遗传模块;并且具有内在的可扩展性。