Rapid Screening of Plastic-Degrading Enzymes Using an Optimized Cell-Free Protein Synthesis Platform
SangKu Yi, Junhyeon Park, Jiyoung Park, Kyung-Jin Kim, Juhyun Kim

TL;DR
A cell-free system was developed to quickly test and improve enzymes that break down plastic, offering a faster alternative to traditional methods.
Contribution
An optimized cell-free protein synthesis platform for rapid screening of plastic-degrading enzymes was developed.
Findings
Cutinase and PETase enzymes showed clear degradation activity on polymer-containing agar plates.
Mipa-P PETase variant exhibited higher catalytic activity than IsPETase when tested using the CFPS platform.
CFPS enzyme synthesis was more effective at room temperature compared to 37°C.
Abstract
The accumulation of plastic waste poses a significant environmental challenge, necessitating the development of efficient plastic-degrading enzymes for bioremediation and recycling. However, traditional enzyme engineering approaches rely on microbial expression systems and are time-consuming and prone to unintended interactions between host cells and recombinant circuits. To address these limitations, a cell-free protein synthesis (CFPS) platform was developed for rapidly screening plastic-degrading enzymes. Using CFPS, cutinase and PET-degrading enzymes (PETases) were successfully synthesized, and their catalytic activities were assessed using polymer-containing agar plates. Clear degradation halos were observed for cutinase and PETase on polycaprolactone (PCL)-containing and bis (2-hydroxyethyl) terephthalate (BHET)-containing plates, respectively. The optimization of CFPS conditions…
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Taxonomy
Topicsbiodegradable polymer synthesis and properties · Click Chemistry and Applications · Biotin and Related Studies
