Transcriptomic and biochemical analysis of the mechanism of sodium gluconate promoting the degradation of benzo [a] pyrene by Bacillus subtilis MSC4

IF 5.9 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Rui Chen , Tangbing Cui
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引用次数: 0

Abstract

Benzo[a]pyrene (B[a]P) is a carcinogenic environmental pollutant widely present in the environment and can enter the human body through the food chain. It is therefore essential to treat and remediate the B[a]P-contaminated environment. Microbial remediation of B[a]P-contaminated environments is considered to be one of the most effective strategies, and the addition of biostimulants is a feasible method to further improve the effectiveness of microbial remediation. In this study, we used Bacillus subtilis MSC4 to screen for the stimulation of sodium gluconate, which promoted B[a]P degradation. Based on biochemical and transcriptomic analyses, Sodium gluconate was found to significantly increase the biomass of MSC4 and the expression of most genes involved in B[a]P degradation. Activities of central carbon metabolism, fatty acid β-oxidation and oxidative phosphorylation were all promoted. The significant increase in acid-induced oxalate decarboxylase expression indicates a decrease in intracellular pH, which promoted the synthesis of acetoin and lactate. Genes involved in the nitrogen cycle, especially nitrification and denitrification, were significantly up-regulated, contributing to B[a]P degradation. Genes involved in the synthesis of enzyme cofactors, including thiamine, molybdenum cofactors, NAD and heme, were up-regulated, which contributes to increasing enzyme activity in metabolic pathways. Up-regulation of genes in flagella assembly, chemotaxis, and lipopeptide synthesis is beneficial for the dissolution and uptake of B[a]P. Genes related to the sugar transport system were upregulated, which facilitates the transport and absorption of monosaccharides and oligosaccharides by MSC4. This study provides a theoretical basis for the further application of sodium gluconate in the treatment of PAH-contaminated sites.

葡萄糖酸钠促进枯草芽孢杆菌 MSC4 降解苯并 [a] 芘的转录组和生化分析机制
苯并[a]芘(B[a]P)是一种致癌环境污染物,广泛存在于环境中,并可通过食物链进入人体。因此,必须对受 B[a]P 污染的环境进行处理和修复。对 B[a]P 污染环境进行微生物修复被认为是最有效的策略之一,而添加生物刺激剂是进一步提高微生物修复效果的可行方法。在本研究中,我们利用枯草芽孢杆菌 MSC4 对葡萄糖酸钠的刺激作用进行了筛选,发现葡萄糖酸钠能促进 B[a]P 降解。基于生化和转录组分析,我们发现葡萄糖酸钠能显著增加 MSC4 的生物量和大多数参与 B[a]P 降解的基因的表达。中心碳代谢、脂肪酸β-氧化和氧化磷酸化的活性都得到了促进。酸诱导的草酸脱羧酶表达量明显增加,表明细胞内 pH 值降低,从而促进了乙酰辅酶和乳酸的合成。参与氮循环的基因,特别是硝化和反硝化基因的表达显著上调,促进了 B[a]P 的降解。参与合成酶辅助因子(包括硫胺素、钼辅助因子、NAD 和血红素)的基因被上调,这有助于提高代谢途径中的酶活性。鞭毛组装、趋化和脂肽合成基因的上调有利于 B[a]P 的溶解和吸收。与糖转运系统相关的基因上调,有利于 MSC4 转运和吸收单糖和寡糖。这项研究为葡萄糖酸钠在多环芳烃污染场地处理中的进一步应用提供了理论依据。
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来源期刊
Journal of Environmental Sciences-china
Journal of Environmental Sciences-china 环境科学-环境科学
CiteScore
13.70
自引率
0.00%
发文量
6354
审稿时长
2.6 months
期刊介绍: The Journal of Environmental Sciences is an international journal started in 1989. The journal is devoted to publish original, peer-reviewed research papers on main aspects of environmental sciences, such as environmental chemistry, environmental biology, ecology, geosciences and environmental physics. Appropriate subjects include basic and applied research on atmospheric, terrestrial and aquatic environments, pollution control and abatement technology, conservation of natural resources, environmental health and toxicology. Announcements of international environmental science meetings and other recent information are also included.
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