蛋白酶
烟草蚀刻病毒
蛋白质水解
融合蛋白
融合
生物化学
蛋白酵素
化学
重组DNA
生物
酶
病毒
病毒学
植物病毒
语言学
哲学
基因
马铃薯Y病毒
作者
Pragyan P. Parida,Deepa Saraswathi,Subbarao Mohana Venkata Mopidevi,Sreejith Raran‐Kurussi
标识
DOI:10.1016/j.crstbi.2023.100106
摘要
Tobacco etch virus Protease (TEVp), a cysteine protease, is renowned for its remarkable specific proteolysis, making it an invaluable tool for removing fusion tags from recombinant proteins. However, TEV protease's inherently poor solubility limits its broad application. Fusion constructs like an N-terminal MBP fusion, known for its improved solubility, have been employed for TEVp production to address this issue. In this study, we fused the TEVp with the N-terminal domain of the spider silk protein, specifically utilizing a charge-reversed mutant (D40K/K65D) of the N-terminal domain of major ampullate spidroin-1 protein from Euprosthenops australis, referred to as NT*. This fusion construct contains a TEVp cleavage site, enabling intracellular self-processing and the release of a His7-tagged protease. The significant increase in soluble protein expression allowed us to purify approximately 90–100 mg of TEVp from a 1-L E. coli culture, surpassing previous findings by a considerable margin. The enzyme remained stable and catalytically active even after several months of storage in a deep freezer (−80 °C).
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