Background <p>The <i>Escherichia coli</i> expression system is widely used for recombinant protein production, but its utility is often limited by the formation of insoluble inclusion bodies. Although fusion tags can enhance solubility, their effectiveness varies unpredictably across different target proteins, and the optimal tag must typically be determined empirically.</p> Results <p>We developed a standardized set of pX fusion tag vector system for the high-throughput screening of soluble protein expression in <i>E. coli</i>. This system consists of eight medium-sized, TEV-cleavable fusion tags (ArsC, Crr, DsbA, Ecotin, MsyB, SlyD, Snut, and YjgD) cloned into a standardized pET-28b(+) backbone. We systematically evaluated the impact of these tags on the solubility and function of three model proteins (eGFP, EcFabG, and Mals) and six proteins known to be challenging to express in <i>E. coli</i> (PulA, NodE, FabF1XL, FabF2XL, FabZXL, and FabGXL). Our results demonstrated that the efficacy of each tag was highly protein-dependent. Notably, tags such as MsyB and Snut dramatically increased the soluble proportion of eGFP from 15% to over 85%, while the SlyD tag significantly enhanced both the solubility and activity of Mals. For several difficult-to-express proteins, soluble expression was only achieved with specific tags, highlighting the critical importance of tag selection.</p> Conclusions <p>Our study presents a versatile and efficient parallel cloning and screening system for the rapid production of soluble recombinant proteins. By enabling parallel screening of multiple fusion partners, this system facilitates the identification of optimal conditions for enhancing protein solubility and function, thereby addressing a key bottleneck in recombinant protein applications.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Application of a novel fusion tag system for enhanced soluble expression of recombinant proteins in Escherichia coli

  • Li-Zhen Luo,
  • Jian-Tao Cai,
  • Zi-Ying Tan,
  • Yu-Qing Chen,
  • Zhe Hu,
  • Hai-Hong Wang,
  • Wen-Bin Zhang,
  • Jin-Cheng Ma

摘要

Background

The Escherichia coli expression system is widely used for recombinant protein production, but its utility is often limited by the formation of insoluble inclusion bodies. Although fusion tags can enhance solubility, their effectiveness varies unpredictably across different target proteins, and the optimal tag must typically be determined empirically.

Results

We developed a standardized set of pX fusion tag vector system for the high-throughput screening of soluble protein expression in E. coli. This system consists of eight medium-sized, TEV-cleavable fusion tags (ArsC, Crr, DsbA, Ecotin, MsyB, SlyD, Snut, and YjgD) cloned into a standardized pET-28b(+) backbone. We systematically evaluated the impact of these tags on the solubility and function of three model proteins (eGFP, EcFabG, and Mals) and six proteins known to be challenging to express in E. coli (PulA, NodE, FabF1XL, FabF2XL, FabZXL, and FabGXL). Our results demonstrated that the efficacy of each tag was highly protein-dependent. Notably, tags such as MsyB and Snut dramatically increased the soluble proportion of eGFP from 15% to over 85%, while the SlyD tag significantly enhanced both the solubility and activity of Mals. For several difficult-to-express proteins, soluble expression was only achieved with specific tags, highlighting the critical importance of tag selection.

Conclusions

Our study presents a versatile and efficient parallel cloning and screening system for the rapid production of soluble recombinant proteins. By enabling parallel screening of multiple fusion partners, this system facilitates the identification of optimal conditions for enhancing protein solubility and function, thereby addressing a key bottleneck in recombinant protein applications.