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利用工程化睾丸酮丛毛单胞菌菌株将聚对苯二甲酸乙二酯转化为聚羟基丁酸酯

Towards polyethylene terephthalate valorisation into PHB using an engineered Comamonas testosteroni strain.

作者信息

Molpeceres-García Francisco J, Sanz-Mata David, García-Miro Alejandro, Prieto Alicia, Barriuso Jorge

机构信息

Centro de Investigaciones Biológicas Margarita Salas, Consejo Superior de Investigaciones Científicas (CIB-CSIC), C/ Ramiro de Maeztu 9, Madrid E-28040, Spain.

Centro de Investigaciones Biológicas Margarita Salas, Consejo Superior de Investigaciones Científicas (CIB-CSIC), C/ Ramiro de Maeztu 9, Madrid E-28040, Spain.

出版信息

N Biotechnol. 2025 Mar 25;85:75-83. doi: 10.1016/j.nbt.2024.12.005. Epub 2024 Dec 20.

DOI:10.1016/j.nbt.2024.12.005
PMID:39708916
Abstract

The abundant production of plastic materials, coupled with their recalcitrant nature, makes plastic waste a major challenge as a pollutant. Polyethylene terephthalate (PET) is a polyester formed by polycondensation of terephthalic acid (TPA) and ethylene glycol (EG). This plastic polymer can be completely depolymerized to its monomers using microbial enzymes. In this study, we verified in silico and in vivo that the bacterium Comamonas testosteroni RW31 is able to assimilate TPA and to produce the bioplastic polyhydroxybutyrate (PHB). This bacterium was engineered to heterologously express a fusion of the PET-degrading enzymes FAST-PETase and IsMHETase. We verified that our strain successfully secretes the enzymes and depolymerize PET both in vitro and in vivo, achieving a weight loss of 37.1 % and 0.83 %, respectively. We also studied its capacity to form biofilm. Furthermore, our strain can employ bis(2-hydroxyethyl) terephthalate (BHET), an intermediate of PET degradation, as feedstock to accumulate PHB up to 12.03 % of its dry weight in 14 h. Our findings highlight C. testosteroni RW31 as a promising chassis for synthetic biology strategies aimed at upcycling PET waste.

摘要

塑料材料的大量生产,再加上其难降解的特性,使得塑料垃圾成为一种主要的污染物挑战。聚对苯二甲酸乙二酯(PET)是由对苯二甲酸(TPA)和乙二醇(EG)缩聚形成的聚酯。这种塑料聚合物可以使用微生物酶完全解聚为其单体。在本研究中,我们通过计算机模拟和体内实验验证了睾丸酮丛毛单胞菌RW31能够同化TPA并产生生物塑料聚羟基丁酸酯(PHB)。对该细菌进行了基因工程改造,使其异源表达PET降解酶FAST-PETase和IsMHETase的融合蛋白。我们验证了我们的菌株在体外和体内均成功分泌这些酶并使PET解聚,体重分别减轻了37.1%和0.83%。我们还研究了其形成生物膜的能力。此外,我们的菌株可以利用PET降解中间体双(2-羟乙基)对苯二甲酸酯(BHET)作为原料,在14小时内积累高达其干重12.03%的PHB。我们的研究结果突出了睾丸酮丛毛单胞菌RW31作为旨在升级回收PET废料的合成生物学策略的一个有前景的底盘。

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