通过 Pandoraea sp. B-6 将木质素生物转化为生物塑料：分子机制。

Bioconversion of lignin into bioplastics by Pandoraea sp. B-6: molecular mechanism.

机构信息

Institute of Environmental Science and Engineering, School of Metallurgy and Environment, Central South University, Changsha, 410083, China.

Chinese National Engineering Research Center for Control & Treatment of Heavy Metal Pollution, Changsha, 410083, China.

出版信息

Environ Sci Pollut Res Int. 2019 Jan;26(3):2761-2770. doi: 10.1007/s11356-018-3785-1. Epub 2018 Nov 27.

DOI:10.1007/s11356-018-3785-1

PMID:30484053

Abstract

Lignin is a byproduct in the pulp and paper industry and is considered as a promising alternative for the provision of energy and chemicals. Currently, the efficient valorization of lignin is a challenge owing to its polymeric structure complexity. Here, we present a platform for bio-converting Kraft lignin (KL), to polyhydroxyalkanoate (PHA) by Pandoraea sp. B-6 (hereafter B-6). Depolymerization of KL by B-6 was first confirmed, and > 40% KL was degraded by B-6 in the initial 4 days. Characterization of PHA showed that up to 24.7% of PHA accumulated in B-6 grown in 6-g/L KL mineral medium. The composition, structure, and thermal properties of the produced PHA were analyzed, revealing that 3-hydroxybutyrate was the only monomer and that PHA was comparable with the commercially available bioplastics. Moreover, the genomic analysis illustrated three core enzymatic systems for lignin depolymerization including laccases, peroxidases, and Fenton-reaction enzymes; five catabolic pathways for LDAC degradation and a gene cluster consisting of bktB, phaR, phaB, phaA, and phaC genes involved in PHA biosynthesis. Accordingly, a basic model for the process from lignin depolymerization to PHA production was constructed. Our findings provide a comprehensive perspective for lignin valorization and bio-material production from waste.

摘要

木质素是制浆造纸工业的副产品，被认为是提供能源和化学品的有前途的替代品。目前，由于其聚合物结构的复杂性，木质素的高效利用是一个挑战。在这里，我们提出了一个通过 Pandoraea sp. B-6 将 Kraft 木质素（KL）生物转化为聚羟基烷酸酯（PHA）的平台（简称 B-6）。首先确认了 B-6 对 KL 的解聚作用，在最初的 4 天内，B-6 降解了超过 40%的 KL。PHA 的特性表明，在 6 g/L KL 矿物培养基中，B-6 中可积累高达 24.7%的 PHA。对所产生的 PHA 的组成、结构和热性能进行了分析，结果表明 3-羟基丁酸是唯一的单体，PHA 与市售的生物塑料相当。此外，基因组分析说明了木质素解聚的三个核心酶系统，包括漆酶、过氧化物酶和芬顿反应酶；LDAC 降解的五个代谢途径以及一个由 bktB、phaR、phaB、phaA 和 phaC 基因组成的基因簇，这些基因参与 PHA 的生物合成。因此，构建了从木质素解聚到 PHA 生产的基本模型。我们的研究结果为从废物中木质素的增值和生物材料的生产提供了全面的视角。

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通过 Pandoraea sp. B-6 将木质素生物转化为生物塑料：分子机制。

Bioconversion of lignin into bioplastics by Pandoraea sp. B-6: molecular mechanism.

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