A new protease gene (pro1437)was separated from an oil-polluted Mud flat metagenomic library. Pro1437 belongs to a peptidase M48 superfamily according to the results of sequence analysis, and it showed very low identities compared to other known proteases or peptidases. The error-prone PCR was used to introduce random mutations and improve the expression of pro1437. After two rounds of mutagenesis and screening, a mutant (Pro2T21) with a 6.6-fold higher activity and a 4.8-fold higher expression level than Pro1437 was obtained. Sequence analysis found three amino acid substitutions (A54V, L192H, F224L) in Pro2T21. 3D structure modelling analysis indicated A54V and L192H probably played a crucial role in the improvement of enzymatic activity and soluble expression level of Pro2T21. Furthermore, Pro2T21opti displayed a 5.8-fold higher expression level than the wild type under optimal pH 8.0 at 50°C after codon-optimization. Also, Pro2T21opti represented robust compatibility with several popular laundry detergents, and blood stains on white cloth pieces were completely washed away when endogenous protease-inactivated Tide and Pro2T21opti were used together. Therefore, Pro2T21opti has great potential for use as an additive in detergents after further study.
Keywords: Function expression; Functional metagenomics; Protease; Random mutagenesis; Wash performance.
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