周质间隙
分泌物
重组DNA
分泌蛋白
信号肽
分泌途径
神经生长因子
包涵体
异源的
免疫印迹
分子生物学
生物
大肠杆菌
生物化学
受体
内质网
基因
神经营养因子
胶质细胞源性神经生长因子
高尔基体
作者
Zahra Hajihassan,Mina Yazdi,Atiyeh Fadaie,Nooshin Akbarsemnani
标识
DOI:10.1080/10826068.2024.2331203
摘要
Since cytoplasmic expression of heterologous proteins with disulfide bonds leads to the formation of inclusion bodies in E. coli, periplasmic production is preferable. The N-terminal signal peptide attached to the secreted protein determines the type of secretory pathway through which the target protein is secreted; Sec, Tat, or SRP. The aim of this study was to design and compare two novel signal peptides for the secretion of recombinant neurturin (as a model) via the Sec and Tat pathways. For this purpose, we aligned the natural signal peptides from E. coli and Bacillus subtilis to identify the conserved amino acids and those with the highest repetition. The SignalP4.1 and TatP1.0 software were used to determine the secretion efficiency of the new signal peptides. The efficiency of new signal peptides was then evaluated and compared experimentally with two naturally used signal peptides. Quantitative analysis of Western blot bands showed that approximately 80% of the expressed neurturin was secreted into the periplasmic space by new signal peptides. Circular dichroism spectroscopy also confirmed the correct secondary structure of the secreted neurturin. In conclusion, these novel signal peptides can be used to secrete any other recombinant proteins to the periplasmic space of E. coli efficiently.
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