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Engineering of a T7 Bacteriophage Endolysin Variant with Enhanced Amidase Activity

赖氨酸 酰胺酶 噬菌体 溶解 蛋白质工程 细菌细胞结构 突变 合理设计 生物化学 细胞溶解 化学 生物 生物物理学 大肠杆菌 细菌 突变体 遗传学 体外 基因 细胞毒性T细胞
作者
Jaya Lakshmi Tyagi,Meenakshi Sharma,Khushboo Gulati,Manikyaprabhu Kairamkonda,Dinesh Kumar,Krishna Mohan Poluri
出处
期刊:Biochemistry [American Chemical Society]
卷期号:62 (2): 330-344 被引量:10
标识
DOI:10.1021/acs.biochem.1c00710
摘要

The therapeutic use of bacteriophage-encoded endolysins as enzybiotics has increased significantly in recent years due to the emergence of antibiotic resistant bacteria. Phage endolysins lyse the bacteria by targeting their cell wall. Various engineering strategies are commonly used to modulate or enhance the utility of therapeutic enzymes. This study employed a structure-guided mutagenesis approach to engineer a T7 bacteriophage endolysin (T7L) with enhanced amidase activity and lysis potency via replacement of a noncatalytic gating residue (His 37). Two H37 variants (H37A and H37K) were designed and characterized comprehensively using integrated biophysical and biochemical techniques to provide mechanistic insights into their structure–stability–dynamics–activity paradigms. Among the studied proteins, cell lysis data suggested that the obtained H37A variant exhibits amidase activity (∼35%) enhanced compared to that of wild-type T7 endolysin (T7L-WT). In contrast to this, the H37K variant is highly unstable, prone to aggregation, and less active. Comparison of the structure and dynamics of the H37A variant to those of T7L-WT evidenced that the alteration at the site of H37 resulted in long-range structural perturbations, attenuated the conformational heterogeneity, and quenched the microsecond to millisecond time scale motions. Stability analysis confirmed the altered stability of H37A compared to that of its WT counterpart. All of the obtained results established that the H37A variant enhances the lysis activity by regulating the stability–activity trade-off. This study provided deeper atomic level insights into the structure–function relationships of endolysin proteins, thus aiding researchers in the rational design of engineered endolysins with enhanced therapeutic properties.
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