Batch studies on the biodegradation of paracetamol and 1,4-hydroquinone by novel bacterial strains isolated from extreme environmental samples and the identification of candidate catabolic genes

IF 5.7 3区 环境科学与生态学 Q1 WATER RESOURCES
Alba Lara-Moreno, Fatma El-Sayed, Cymon J. Cox, Maria C. Costa, Jorge D. Carlier
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引用次数: 0

Abstract

The emerging pollutant paracetamol (APAP) is one of the most prescribed drugs worldwide. In addition, APAP and its main metabolites, namely, 4-aminophenol (4-AP), hydroquinone (H2Q), benzoquinone (BQ), and 2,5-dihydroxy-1,4-benzoquinone (2,5-OH-BQ), among others, are frequently detected in wastewater treatment plants (WWTPs) influents, effluents, and the environment. Thus, continuous release into the environment, especially aquatic environments, is a source of general concern. Six APAP-degrading bacterial strains were isolated from two mine samples from the Iberian Pyrite Belt (Lousal and Poderosa mines). Mycolicibacterium aubagnense HPB1.1, which was isolated using enrichment cultures from the Poderosa mine sample in the presence of H2Q as the sole carbon source, also showed APAP biodegrading capabilities. Pure cultures of this strain degraded 34.3 mg L−1 of APAP in 5 days and 9.4 mg L−1 of H2Q in 4 days. Interestingly, BQ and 2,5-OH-BQ were detected as metabolites resulting from H2Q abiotic degradation, but these compounds were removed in the strain’s cultures. Furthermore, M. aubagnense HPB1.1 whole-genome was sequenced, and its encoded proteins were aligned with enzymes of APAP-degrading bacteria recovered from databases and literature aiming to identify candidate catabolic genes. Putative amidases, deaminases, hydroxylases, and dioxygenases, responsible for the degradation of APAP by the HPB1.1 strain, were identified by similarity, corroborating its ability to transform APAP and its intermediate metabolite H2Q into less toxic metabolic compounds due to their capacity to break the aromatic ring of these molecules.

Abstract Image

从极端环境样品中分离的新型细菌菌株对扑热息痛和 1,4-对苯二酚的生物降解批量研究及候选分解基因的鉴定
新出现的污染物扑热息痛(APAP)是全球处方量最大的药物之一。此外,APAP 及其主要代谢物,即 4-氨基苯酚 (4-AP)、对苯二酚 (H2Q)、苯醌 (BQ) 和 2,5- 二羟基-1,4-苯醌 (2,5-OH-BQ) 等,经常在污水处理厂(WWTPs)的进水、出水和环境中被检测到。因此,向环境(尤其是水生环境)中的持续释放是一个普遍关注的问题。从伊比利亚黄铁矿带(Lousal 和 Poderosa 矿山)的两个矿山样本中分离出了六种可降解 APAP 的细菌菌株。在以 H2Q 为唯一碳源的情况下,利用从 Poderosa 矿样品中的富集培养物分离出的 Mycolicibacterium aubagnense HPB1.1 也显示出 APAP 的生物降解能力。该菌株的纯培养物在 5 天内降解了 34.3 mg L-1 的 APAP,在 4 天内降解了 9.4 mg L-1 的 H2Q。有趣的是,在 H2Q 非生物降解过程中检测到了 BQ 和 2,5-OH-BQ,但这些化合物在该菌株的培养物中被去除。此外,还对 M. aubagnense HPB1.1 进行了全基因组测序,并将其编码的蛋白质与从数据库和文献中找到的 APAP 降解细菌的酶进行了比对,以确定候选分解基因。通过相似性鉴定出了负责 HPB1.1 菌株降解 APAP 的假定酰胺酶、脱氨酶、羟化酶和二氧酶,这证实了 HPB1.1 菌株有能力将 APAP 及其中间代谢产物 H2Q 转化为毒性较低的代谢化合物,因为它们有能力打破这些分子的芳香环。
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来源期刊
Applied Water Science
Applied Water Science WATER RESOURCES-
CiteScore
9.90
自引率
3.60%
发文量
268
审稿时长
13 weeks
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