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Merck
  • Upcycling chitin-containing waste into organonitrogen chemicals via an integrated process.

Upcycling chitin-containing waste into organonitrogen chemicals via an integrated process.

Proceedings of the National Academy of Sciences of the United States of America (2020-03-28)
Xiaoqiang Ma, Gökalp Gözaydın, Huiying Yang, Wenbo Ning, Xi Han, Nga Yu Poon, Hong Liang, Ning Yan, Kang Zhou
摘要

Chitin is the most abundant renewable nitrogenous material on earth and is accessible to humans in the form of crustacean shell waste. Such waste has been severely underutilized, resulting in both resource wastage and disposal issues. Upcycling chitin-containing waste into value-added products is an attractive solution. However, the direct conversion of crustacean shell waste-derived chitin into a wide spectrum of nitrogen-containing chemicals (NCCs) is challenging via conventional catalytic processes. To address this challenge, in this study, we developed an integrated biorefinery process to upgrade shell waste-derived chitin into two aromatic NCCs that currently cannot be synthesized from chitin via any chemical process (tyrosine and l-DOPA). The process involves a pretreatment of chitin-containing shell waste and an enzymatic/fermentative bioprocess using metabolically engineered Escherichia coli The pretreatment step achieved an almost 100% recovery and partial depolymerization of chitin from shrimp shell waste (SSW), thereby offering water-soluble chitin hydrolysates for the downstream microbial process under mild conditions. The engineered E. coli strains produced 0.91 g/L tyrosine or 0.41 g/L l-DOPA from 22.5 g/L unpurified SSW-derived chitin hydrolysates, demonstrating the feasibility of upcycling renewable chitin-containing waste into value-added NCCs via this integrated biorefinery, which bypassed the Haber-Bosch process in providing a nitrogen source.

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Sigma-Aldrich
灰链霉菌来源几丁质酶, lyophilized powder (essentially salt free), ≥200 units/g solid
Sigma-Aldrich
D-葡萄糖胺6-磷酸, ≥98% (TLC)