Degradable living plastics programmed by engineered spores

Plastics are widely used materials that pose an ecological challenge because their wastes are difficult to degrade. Embedding enzymes and biomachinery within polymers could enable the biodegradation and disposal of plastics. However, enzymes rarely function under conditions suitable for polymer proc...

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Published inNature chemical biology
Main Authors Tang, Chenwang, Wang, Lin, Sun, Jing, Chen, Guangda, Shen, Junfeng, Wang, Liang, Han, Ying, Luo, Jiren, Li, Zhiying, Zhang, Pei, Zeng, Simin, Qi, Dianpeng, Geng, Jin, Liu, Ji, Dai, Zhuojun
Format Journal Article
LanguageEnglish
Published United States 21.08.2024
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Summary:Plastics are widely used materials that pose an ecological challenge because their wastes are difficult to degrade. Embedding enzymes and biomachinery within polymers could enable the biodegradation and disposal of plastics. However, enzymes rarely function under conditions suitable for polymer processing. Here, we report degradable living plastics by harnessing synthetic biology and polymer engineering. We engineered Bacillus subtilis spores harboring the gene circuit for the xylose-inducible secretory expression of Burkholderia cepacia lipase (BC-lipase). The spores that were resilient to stresses during material processing were mixed with poly(caprolactone) to produce living plastics in various formats. Spore incorporation did not compromise the physical properties of the materials. Spore recovery was triggered by eroding the plastic surface, after which the BC-lipase released by the germinated cells caused near-complete depolymerization of the polymer matrix. This study showcases a method for fabricating green plastics that can function when the spores are latent and decay when the spores are activated and sheds light on the development of materials for sustainability.
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ISSN:1552-4469
1552-4469
DOI:10.1038/s41589-024-01713-2