Harnessing microbial potentials by advancing bioremediation of PAHs through molecular insights and genetics

IF 4.1 2区 环境科学与生态学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY International Biodeterioration & Biodegradation Pub Date : 2024-07-30 DOI:10.1016/j.ibiod.2024.105861
Poonam Sharma , Prachi Gaur , Shreya Dwivedi , Komal Kumari , Janmejai Kumar Srivastava , Kusum Dhakar , Vivek Kumar Gaur , Sunita Varjani , Jo-Shu Chang , Huu Hao Ngo , How Yong Ng , Cheng-Di Dong , Sang Jun Sim
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Abstract

This article covers the advancements and challenges in microbial remediation of polyaromatic hydrocarbons (PAHs), which are highly concerning pollutants due to their detrimental impacts on the environment and human health. It highlights the need for effective remediation methods in the face of rapid industrialization and expanding economies. Among the various approaches studied, microbial remediation has emerged as a promising, environmentally friendly, cost-effective, and sustainable strategy. However, the efficacy of microbial remediation is hindered by factors such as the ageing in the environment, toxicity of PAHs to microbial populations, the identification of more effective degradative enzymes, and the proliferation rate of degradative microbial strains in contaminated environments. Another constrain in biodegradation is the bioavailability of the PAHs which is primarily limited due to its low aqueous solubility and complex chemical structure. To address these challenges, innovative techniques such as multi-omics and genetic engineering have been employed to discover novel dehydrogenases and dioxygenases like catechol 2,3-dioxygenase gene responsible for PAHs degradation. The addition of microbial derived biosurfactants can be employed to address a major issue of PAHs bioavailability. Despite significant progress, the restoration of contaminated sites remains challenging due to the unfavourable environmental conditions encountered in real-world scenarios. This comprehensive communication aims to draw global attention to the hazardous nature of PAHs and shed light on the existing research gaps in order to guide future research endeavours in PAH degradation and remediation.

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通过分子洞察力和遗传学推进多环芳烃的生物修复,从而利用微生物的潜力
本文介绍了微生物修复多芳烃(PAHs)方面的进展和挑战,多芳烃因其对环境和人类健康的有害影响而成为备受关注的污染物。报告强调,面对快速的工业化和不断扩大的经济,需要有效的修复方法。在所研究的各种方法中,微生物修复已成为一种前景广阔、环境友好、成本效益高且可持续的策略。然而,微生物修复的有效性受到一些因素的阻碍,如环境中的老化、多环芳烃对微生物种群的毒性、更有效降解酶的鉴定以及受污染环境中降解微生物菌株的增殖率。生物降解的另一个限制因素是多环芳烃的生物利用率,这主要是由于多环芳烃的水溶性低和化学结构复杂。为了应对这些挑战,人们采用了多组学和基因工程等创新技术来发现新型脱氢酶和二氧酶,如负责 PAHs 降解的儿茶酚 2,3 二氧酶基因。添加微生物衍生的生物表面活性剂可用于解决多环芳烃生物利用率的主要问题。尽管取得了重大进展,但由于现实世界中遇到的不利环境条件,受污染场地的修复工作仍然充满挑战。这篇综合性文章旨在引起全球对多环芳烃危害性的关注,并阐明现有的研究空白,以指导未来在多环芳烃降解和修复方面的研究工作。
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来源期刊
CiteScore
9.60
自引率
10.40%
发文量
107
审稿时长
21 days
期刊介绍: International Biodeterioration and Biodegradation publishes original research papers and reviews on the biological causes of deterioration or degradation.
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