Biology Department, Georgia State University, Atlanta, GA, 30302-4010, USA.
Appl Microbiol Biotechnol. 2019 Sep;103(18):7729-7740. doi: 10.1007/s00253-019-09999-2. Epub 2019 Jul 31.
Plastic production and waste generation will continue to rise as nations worldwide grow economically. In this work, we detail a pyrolysis-based bioconversion process for polypropylene (PP) to produce value-added fatty acids (FAs). PP pellets were depolymerized by pyrolysis, generating oil that consisted of mainly branched chain fatty alcohols and alkenes. The oil was mixed with biodegradable surfactants and trace nutrients and mechanically homogenized. The resulting medium, OP4, was used for fermentation by Yarrowia lipolytica strain 78-003. Y. lipolytica assimilated > 80% of the substrate over 312 h, including 86% of the fatty alcohols. Y. lipolytica produced up to 492 mg L lipids, compared with 216 mg L during growth in surfactant-based control medium. C 18 compounds, including oleic acid, linoleic acid, and stearic acid, were the predominant products, followed by C 16 compounds palmitic and palmitoleic acids. Two percent of the products was C 20 compounds. The majority of the products were unsaturated FAs. Growth on hydrophobic substrates (OP4 medium, hexadecane) was compared with growth on hydrophilic substrates (glucose, starch). The resulting FA profiles revealed an absence of short-chain fatty acids during growth on hydrophobic media, findings consistent with ex novo FA biosynthesis. Overall, FA profiles by Y. lipolytica during growth in OP4 medium were similar to FA profiles while growing on natural substrates. The process described here offers an alternative approach to managing postconsumer plastic waste.
随着全球各国经济的增长,塑料产量和废物产生量将继续上升。在这项工作中,我们详细介绍了一种基于热解的聚丙烯(PP)生物转化工艺,以生产增值脂肪酸(FA)。PP 颗粒通过热解解聚,生成主要由支链脂肪酸醇和烯烃组成的油。将油与可生物降解的表面活性剂和痕量营养素混合,并进行机械均化。所得的 OP4 介质用于发酵脂肪酵母 Yarrowia lipolytica 菌株 78-003。Y. lipolytica 在 312 小时内同化了超过 80%的底物,包括 86%的脂肪酸醇。与在基于表面活性剂的对照培养基中生长时相比,Y. lipolytica 产生了高达 492mg/L 的脂质,而在生长时产生了 216mg/L 的脂质。C18 化合物,包括油酸、亚油酸和硬脂酸,是主要产物,其次是 C16 化合物棕榈酸和棕榈油酸。2%的产物是 C20 化合物。产物的大部分是不饱和 FA。在疏水性底物(OP4 培养基、十六烷)上的生长与在亲水性底物(葡萄糖、淀粉)上的生长进行了比较。所得 FA 谱表明,在疏水性介质上生长时没有短链脂肪酸,这一发现与从头 FA 生物合成一致。总的来说,Y. lipolytica 在 OP4 培养基中生长时的 FA 谱与在天然基质上生长时的 FA 谱相似。这里描述的过程为管理消费后塑料废物提供了一种替代方法。
