Selective Modification of the Product Profile of Biocatalytic Hydrolyzed PET via Product-Specific Medium Engineering.

IF 7.5 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
ChemSusChem Pub Date : 2024-11-06 DOI:10.1002/cssc.202401759
Tobias Heinks, Katrin Hofmann, Simon Last, Igor Gamm, Luise Blach, Ren Wei, Uwe T Bornscheuer, Christof Hamel, Jan von Langermann
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Abstract

Over the past years, enzymatic depolymerization of PET, one of the most widely used plastics worldwide, has become very efficient leading to the end products terephthalic acid (TPA) and ethylene glycol (EG) used for PET re-synthesis. Potent alternatives to these monomers are the intermediates BHET and MHET, the mono- and di-esters of TPA and EG which avoid total hydrolysis and can serve as single starting materials for direct re-polymerization. This study therefore aimed to selectively prepare those intermediates through reaction medium engineering during the biocatalytic hydrolysis of PET. After a comparative pre-screening of 12 PET-hydrolyzing enzymes, two of them (LCCICCG, IsPETasewt) were chosen for detailed investigations. Depending on the reaction conditions, MHET and BHET are predominantly obtainable: (i) MHET was produced in a better ratio and high concentrations at the beginning of the reaction when IsPETasewt and 10 % EG was used; (ii) BHET was produced as predominant product when LCCICCG and 25 % EG was used. TPA itself was nearly the single product at pH 9.0 after 24 h due to the self-hydrolysis of MHET and BHET under basic conditions. Using medium engineering in biocatalytic PET-hydrolysis, the product profile can be adjusted so that TPA, MHET or BHET is predominantly produced.

通过产品特异性培养基工程选择性修改生物催化水解 PET 的产品谱。
聚对苯二甲酸(TPA)和乙二醇(EG)是全球使用最广泛的塑料之一,在过去几年中,聚对苯二甲酸(PET)的酶解效率非常高,最终产品对苯二甲酸(TPA)和乙二醇(EG)被用于聚对苯二甲酸(PET)的再合成。这些单体的有效替代品是中间体 BHET 和 MHET,它们是 TPA 和 EG 的单酯和二酯,可避免完全水解,并可作为直接再聚合的单一起始原料。因此,本研究旨在通过反应介质工程,在 PET 的生物催化水解过程中选择性地制备这些中间体。在对 12 种 PET水解酶进行比较预筛选后,选择了其中两种(LCCICCG 和 IsPETasewt)进行详细研究。根据反应条件的不同,可主要获得 MHET 和 BHET:(i) 使用 IsPETasewt 和 10% EG 时,MHET 的生成比例较好,且在反应初期浓度较高;(ii) 使用 LCCICCG 和 25% EG 时,BHET 成为主要生成物。由于 MHET 和 BHET 在碱性条件下会发生自水解,因此 24 小时后,在 pH 值为 9.0 时,TPA 本身几乎是唯一的产物。在生物催化 PET- 水解过程中使用培养基工程技术,可以调整产物分布,使 TPA、MHET 或 BHET 成为主要产物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ChemSusChem
ChemSusChem 化学-化学综合
CiteScore
15.80
自引率
4.80%
发文量
555
审稿时长
1.8 months
期刊介绍: ChemSusChem Impact Factor (2016): 7.226 Scope: Interdisciplinary journal Focuses on research at the interface of chemistry and sustainability Features the best research on sustainability and energy Areas Covered: Chemistry Materials Science Chemical Engineering Biotechnology
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