Serratia marcescens AB1：一种减轻土壤环境中乙酰氯压力的根瘤菌

IF 3.4 3区生物学 Q1 PLANT SCIENCES

Rhizosphere Pub Date : 2024-05-16 DOI:10.1016/j.rhisph.2024.100898

Meiqi Dong , Yufeng Xiao , Bingbing Yang , Siya Wang , Liangpeng Sun , Zhe Han , Hao Zhang , Xian Wu

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引用次数: 0

摘要

微生物修复是生物修复领域的一个重要研究重点，在解决污染问题方面前景广阔。本研究采用响应面法确定了乙酰氯降解菌 AB1 的最佳培养基为 29.94 g L-1 蔗糖、10.06 g L-1 酵母提取物和 20.32 g L-1 氯化钠。单因素法确定了最佳降解条件，包括温度 30 °C、pH 值 7.0、接种 3% AB1 和初始乙草胺浓度 10 mg L-1。该菌株在 5 天内达到 79.87% 的最大降解率。AB1 具有固氮、溶磷、水解钾、产生苷元和形成生物膜的功能。在乙酰氯存在的情况下，它还能诱导 wza 和 luxS 基因的上调。利用绿色荧光蛋白和利福平抗性菌株 LAB1-gfp，它在玉米根瘤和土壤中实现了稳定定殖，增强了生长和降解能力。这将乙草胺的半衰期缩短至 12.77 天，并提高了土壤酶的活性，为乙草胺的生物修复提供了理论基础。

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Serratia marcescens AB1: A rhizosphere bacterium mitigating the acetochlor stress on the soil environment

Microbial remediation, a significant research focus in bioremediation, shows promise in addressing pollution. In this study, the optimal medium for acetochlor-degrading bacteria AB1 was determined by the response surface method as 29.94 g L⁻¹ sucrose, 10.06 g L⁻¹ yeast extract, and 20.32 g L⁻¹ NaCl. The single-factor method identified optimum degradation conditions, including a temperature of 30 °C, pH of 7.0, inoculation with 3% AB1, and an initial acetochlor concentration of 10 mg L⁻¹. The strain reached a maximum degradation rate of 79.87% within 5 days. AB1 performed nitrogen fixation, phosphorus dissolution, potassium hydrolysis, siderophore production, and biofilm formation. In the presence of acetochlor, it also induced the upregulation of genes, wza and luxS. Utilizing a green fluorescent protein and rifampicin-resistant strain LAB1-gfp, it demonstrated stable colonization in maize rhizospheres and soils, enhancing growth and degradation. This reduced the acetochlor half-life to 12.77 days and increased soil enzyme activity, providing a theoretical foundation for acetochlor bioremediation.

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来源期刊

Rhizosphere Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

5.70

自引率

8.10%

发文量

155

审稿时长

29 days

期刊介绍： Rhizosphere aims to advance the frontier of our understanding of plant-soil interactions. Rhizosphere is a multidisciplinary journal that publishes research on the interactions between plant roots, soil organisms, nutrients, and water. Except carbon fixation by photosynthesis, plants obtain all other elements primarily from soil through roots. We are beginning to understand how communications at the rhizosphere, with soil organisms and other plant species, affect root exudates and nutrient uptake. This rapidly evolving subject utilizes molecular biology and genomic tools, food web or community structure manipulations, high performance liquid chromatography, isotopic analysis, diverse spectroscopic analytics, tomography and other microscopy, complex statistical and modeling tools.