用于圣阿马罗市重金属生物修复的细菌的分离及碳源对其产生胞外聚合物物质的影响

de Oliveira Santos Leila Thaise Santana, Sampaio Kayque Frota, Esposito Elisa, Paulo Elinalva Maciel, Góes-Neto Aristóteles, da Silva Souza Amanda, de Jesus Taise Bomfim
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引用次数: 0

摘要

圣阿马罗市(巴西巴伊亚州)因 1956 年苏巴埃河畔的 PLUMBUM Mineração e Metalurgia Ltda 公司生产铅锭造成苏巴埃河铅镉污染而受到科学界的关注、本研究旨在调查苏巴埃河细菌产生的发泡聚苯乙烯(EPS)对重金属(铅和镉)的吸附能力,以便将来将这些生物聚合物应用于受上述重金属影响地区的生物修复过程。收集苏巴埃河水进行物理化学分析和细菌分离。经证实,所有分离出的细菌都能产生大量的外多糖(EPS)。因此,在不同的糖(蔗糖、葡萄糖和甘露醇)和三种不同的 pH 值条件下,对这种生产进行了优化:5.5、6.5 和 7.5。所有细菌都产生了大量的 EPS,而 pH 值为 7.5 的蔗糖是最好的糖。为了将 EPS 用于生物修复领域,分离出的 EPS 进行了铅和镉的吸附试验。将 0.5 克 EPS 溶于 50 毫升去离子水中,然后将金属溶液、醋酸铅溶液和硫酸镉溶液(分别进行)在 28 °C 下培养 16 小时,然后离心。过滤样品以分离不溶性 EPS,所得滤液用于原子吸收法(FAAS-火焰原子吸收光谱法)对金属进行定量。由于 EPS 的高效吸附能力,芽孢杆菌属、蜡样芽孢杆菌属、葡萄球菌属和 Serratiamarcescens 均对测试的金属表现出耐受性,并有可能区分出肺炎克雷伯菌属、铜绿假单胞菌属、溶血芽孢杆菌属等 7 个菌属,可用于重金属污染环境的生物修复。
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Isolation and Influence of Carbon Source on the Production of Extracellular Polymeric Substance by Bacteria for the Bioremediation of Heavy Metals in Santo Amaro City
The city of Santo Amaro (Bahia, Brazil) gained visibility among the scientific community due to the contamination of the Subaé River by lead and cadmium from the PLUMBUM Mineração e Metalurgia Ltda industry, on the banks of the river in 1956, which produced lead ingots The present work aimed to investigate the adsorption capacity of heavy metals (Pb and Cd) of EPS produced by bacterial species from the Subaé River, for possible future application of these biopolymers in bioremediation processes in areas impacted by the aforementioned heavy metals. Subaé river water was collected for physical-chemical analysis and bacterial isolation. It was verified that all isolated bacteria produced an expressive amount of Exopolysaccharide (EPS). Thus, the optimization of this production in different sugars (sucrose, glucose, and mannitol) and in three different pHs: 5.5; 6.5, and 7.5. All bacteria produced EPS in large quantities and the best sugar was sucrose at pH 7.5. In order to use the EPS for the bioremediation area, the adsorption test of lead and cadmium was carried out by the isolated EPS. 0.5 g of the EPS was dissolved in 50 ml of deionized water, then the solutions of metals, lead acetate, and cadmium sulfate (procedure performed separately) were incubated at 28 °C for 16 h after that period, and were centrifuged. Samples were filtered to separate the insoluble EPS and the filtrates obtained were used in the quantification of the metals by atomic absorption (FAAS- Flame Atomic Absorption Spectrometry). Bacillus spp., Bacillus cereus, Staphylococcus spp., and Serratiamarcescens, all showed tolerance to the tested metals, due to the efficiency in the adsorption capacity of the EPS, and it was possible to distinguish seven genera, Klebsiella pneumonia, Pseudomonas aeruginosa, Lysinibacillus spp. to be used in the bioremediation of environments contaminated with heavy metals.
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