In:
Microbial Cell Factories, Springer Science and Business Media LLC, Vol. 21, No. 1 ( 2022-12)
Abstract:
Streptomyces mobaraenesis transglutaminase (smTG) is widely used to generate protein crosslinking or attachment of small molecules. However, the low thermostability is a main obstacle for smTG application. In addition, it is still hard to achieve the secretory expression of active smTG in E. coli , which benefits the enzyme evolution. In this study, a combined strategy was conducted to improve the thermostability and secretory expression of active smTG in E. coli . Results First, the thermostable S. mobaraenesis transglutaminase variant S2P-S23V-Y24N-S199A-K294L (TGm1) was intracellularly expressed in pro-enzyme form in E. coli . Fusing the pro-region of Streptomyces hygroscopicus transglutaminase (proH) and TrxA achieved a 9.78 U/mL of intracellular smTG activity, 1.37-fold higher than the TGm1 fused with its native pro-region. After in vitro activation by dispase, the TGm1 with proH yielded FRAPD-TGm1, exhibiting 0.95 ℃ and 94.25% increases in melting temperature and half-life at 60 ℃ compared to FRAP-TGm1 derived from the expression using its native pro-region, respectively. Second, the TGm1 with proH was co-expressed with transglutaminase activating protease and chaperones (DnaK, DnaJ, and GrpE) in E. coli , achieving 9.51 U/mL of intracellular FRAPD-TGm1 without in vitro activation. Third, the pelB signal peptide was used to mediate the secretory expression of active TGm in E. coli , yielding 0.54 U/mL of the extracellular FRAPD-TGm1. A script was developed to shuffle the codon of pelB and calculate the corresponding mRNA folding energy. A 1.8-fold increase in the extracellular expression of FRAPD-TGm1 was achieved by the Top-9 pelB sequence derived from the coding sequences with the lowest mRNA folding energy. Last, deleting the gene of Braun’s lipoprotein further increased the extracellular yield of FRAPD-TGm1 by 31.2%, reached 1.99 U/mL. Conclusions The stabilized FRAPD-smTG here could benefit the enzyme application in food and non-food sectors, while the E. coli system that enables secretory expression of active smTG will facilitate the directed evolution for further improved catalytic properties. The combined strategy (N-terminal modification, co-expression with chaperones, mRNA folding energy optimization of signal peptide, and lipoprotein deletion) may also improve the secretory expression of other functional proteins in E. coli .
Type of Medium:
Online Resource
ISSN:
1475-2859
DOI:
10.1186/s12934-022-01801-9
Language:
English
Publisher:
Springer Science and Business Media LLC
Publication Date:
2022
detail.hit.zdb_id:
2091377-1
