Purple acid phosphatase promoted hydrolysis of organophosphate pesticides in microalgae

IF 14 1区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Xiang Wang , Guo-Hui He , Zhen-Yao Wang , Hui-Ying Xu , Jin-Hua Mou , Zi-Hao Qin , Carol Sze Ki Lin , Wei-Dong Yang , Yalei Zhang , Hong-Ye Li
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引用次数: 0

Abstract

When organophosphate pesticides (OPs) are not used and handled in accordance with the current rules and standards, it results in serious threats to the aquatic environment and human health. Phaeodactylum tricornutum is a prospective microalgae-based system for pollutant removal and carbon sequestration. Genetically engineered P. tricornutum, designated as the OE line (endogenously expressing purple acid phosphatase 1 [PAP1]), can utilize organic phosphorus for cellular metabolism. However, the competencies and mechanisms of the microalgae-based system (namely the OE line of P. tricornutum) for metabolizing OPs remain to be addressed. In this study, the OE line exhibited the effective biodegradation competencies of 72.12% and 68.2% for 30 mg L−1 of dichlorvos and 50 mg L−1 of glyphosate, accompanied by synergistic accumulations of biomass (0.91 and 0.95 g L−1) and lipids (32.71% and 32.08%), respectively. Furthermore, the biodiesel properties of the lipids from the OE line manifested a high potential as an alternative feedstock for microalgae-based biofuel production. A plausible mechanism of OPs biodegraded by overexpressed PAP1 is that sufficient inorganic P for adenosine triphosphate and concurrent carbon flux for the reduced form of nicotinamide adenine dinucleotide phosphate biosynthesis, which improved the OP tolerance and biodegradation competencies by regulating the antioxidant system, delaying programmed cell death and accumulating lipids via the upregulation of related genes. To sum up, this study demonstrates a potential strategy using a genetically engineered strain of P. tricornutum to remove high concentrations of OPs with the simultaneous production of biomass and biofuels, which might provide novel insights for microalgae-based pollutant biodegradation.

Abstract Image

紫酸性磷酸酶促进微藻中有机磷农药的水解
当有机磷农药不按照现行法规和标准使用和处理时,会对水生环境和人类健康造成严重威胁。三角褐指藻是一种很有前途的以微藻为基础的污染物去除和碳固存系统。经基因工程改造的三角棘豆(P. tricornutum)被称为OE系(内源性表达紫色酸性磷酸酶1 [PAP1]),可以利用有机磷进行细胞代谢。然而,以微藻为基础的系统(即P. tricornutum的OE系)代谢OPs的能力和机制仍有待解决。在本研究中,OE系对30 mg L−1敌敌畏和50 mg L−1草甘膦的有效降解能力分别为72.12%和68.2%,并具有生物量(0.91和0.95 g L−1)和脂质(32.71%和32.08%)的协同积累。此外,来自OE生产线的脂质的生物柴油特性表明,作为微藻生物燃料生产的替代原料具有很高的潜力。一种可能的机制是,过表达PAP1使OPs生物降解的机制是,有足够的无机P用于三磷酸腺苷,同时碳通量用于烟酰胺腺嘌呤二核苷酸磷酸生物合成的还原形式,从而通过调节抗氧化系统、延迟程序性细胞死亡和通过上调相关基因积累脂质来提高OPs耐受性和生物降解能力。综上所述,本研究展示了一种利用基因工程菌株去除高浓度有机磷并同时生产生物质和生物燃料的潜在策略,这可能为基于微藻的污染物生物降解提供新的见解。
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来源期刊
CiteScore
20.40
自引率
6.30%
发文量
11
审稿时长
18 days
期刊介绍: Environmental Science & Ecotechnology (ESE) is an international, open-access journal publishing original research in environmental science, engineering, ecotechnology, and related fields. Authors publishing in ESE can immediately, permanently, and freely share their work. They have license options and retain copyright. Published by Elsevier, ESE is co-organized by the Chinese Society for Environmental Sciences, Harbin Institute of Technology, and the Chinese Research Academy of Environmental Sciences, under the supervision of the China Association for Science and Technology.
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