Novel Feruloyl Esterase for the Degradation of Polyethylene Terephthalate (PET) Screened from the Gut Microbiome of Plastic-Degrading Mealworms (Tenebrio Molitor Larvae)

聚对苯二甲酸乙二醇酯 酯酶 幼虫 食品科学 降级(电信) 生物降解 昆虫 肠道微生物群 粉虱 生物 微生物群 化学 植物 生物化学 材料科学 生态学 复合材料 电信 生物信息学 计算机科学
作者
Tursunay Mamtimin,Xingyu Ouyang,Wei‐Min Wu,Tuoyu Zhou,Xiaoxiao Hou,Aman Khan,Pu Liu,Yi‐Lei Zhao,Hongzhi Tang,Craig S. Criddle,Huawen Han,Xiangkai Li
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:58 (40): 17717-17731 被引量:31
标识
DOI:10.1021/acs.est.4c01495
摘要

Mealworms (Tenebrio molitor) larvae can degrade both plastics and lignocellulose through synergistic biological activities of their gut microbiota because they share similarities in chemical and physical properties. Here, a total of 428 genes encoding lignocellulose-degrading enzymes were screened from the gut microbiome of T. molitor larvae to identify poly(ethylene terephthalate) (PET)-degrading activities. Five genes were successfully expressed in E. coli, among which a feruloyl esterase-like enzyme named TmFae-PETase demonstrated the highest PET degradation activity, converting PET into MHET (0.7 mgMHETeq ·h–1·mgenzyme–1) and TPA (0.2 mgTPAeq ·h–1·mgenzyme–1) at 50 °C. TmFae-PETase showed a preference for the hydrolysis of ferulic acid methyl ester (MFA) in the presence of both PET and MFA. Site-directed mutagenesis and molecular dynamics simulations of TmFae-PETase revealed similar catalytic mechanisms for both PET and MFA. TmFae-PETase effectively depolymerized commercial PET, making it a promising candidate for application. Additionally, the known PET hydrolases IsPETase, FsC, and LCC also hydrolyzed MFA, indicating a potential origin of PET hydrolytic activity from its lignocellulosic-degrading abilities. This study provides an innovative strategy for screening PET-degrading enzymes identified from lignocellulose degradation-related enzymes within the gut microbiome of plastic-degrading mealworms. This discovery expands the existing pool of plastic-degrading enzymes available for resource recovery and bioremediation applications.
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