ISOLATION AND CHARACTERISTICS OF BACTERIA CITROBACTER SP. SR35 FROM A COAL MINE WASTE DUMP

Microbiology&Biotechnology Pub Date : 2022-09-20 DOI:10.18524/2307-4663.2022.2(55).263463

S. Komplikevych, O. Maslovska, N. Meniv, N. M. Kulishko, O. R. Ishchak, S. Hnatush

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Abstract

SummaryBacteria of the genus Citrobacter are found in soil, water, the intestinal tract of animals, human clinical samples (urine, sputum, blood, wound drainage, etc.), also in wastewaters and waste dumps of mines. Gram-negative bacteria SR35, capable of reducing sulfur and sulfate ions, were isolated from the waste dump of the Nadiya coal mine, Chervonograd Mining and Industrial district (Lviv region, Ukraine). The work aimed to identify and study morphological, physical and chemical properties (cell shape, size, Gram staining, sporulation, motility, oxygen requirements, ability to form H2S, utilization of carbon sources, catalase activity, oxidase activity) of isolate SR35. Methods. We used standard microbiological and biochemical research methods (microbial culture, microscopy methods, determination of amilase, lipase activity). Chromosomal DNA was isolated by the method of soft lysis. The 16S rRNA gene was amplified using universal primers 27F and 1492R. It was sequenced by the Sanger method. Phylogenetic reconstruction was performed using the MEGA X program. Identification of isolates was carried out based on both the sequence of the 16S rRNA gene and physiological and biochemical properties. Results. The studied bacteria are rods (0.5–0.8×1.5–2.0μm), which form chains and are capable of reducing nitrate and sulfate ions and assimilating several carbon sources. Glucose, lactose, mannose, mannitol, and inositol are fermented with the formation of acid. Motile. Catalase positive, oxidase negative. Form H2S during growth in Kligler’s medium. According to the results of pairwise alignment of the isolate’s 16S rRNA gene sequence, the highest percentage of identity with representatives of the genus Citrobacter was established (99.23–99.86% identity, coverage 98%) and it was confirmed by phylogenetic reconstruction. Citrobacter sp. SR35 is resistant to 2 μM cadmium (II), 5 mM iron (II), 0.25 mM cobalt (II), 10 mM manganese (II), 0.5 mM copper (II), and 0.1 mM chromium (VI). Conclusions. According to the results of sequencing of the 16S rRNA (accession number GenBank OP279754) gene, and physiological, and biochemical characteristics (oxidase, catalase, metabolism of carbon sources, production of H2S, etc.), it was established that isolate SR35 belongs to the genus Citrobacter.

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某煤矿排土场中柠檬酸杆菌sr35的分离及特性研究

柠檬酸杆菌属细菌存在于土壤、水、动物肠道、人体临床样本(尿、痰、血、伤口引流液等)以及矿山废水和垃圾场中。从乌克兰利沃夫地区Chervonograd矿业和工业区Nadiya煤矿的排土场中分离到革兰氏阴性菌SR35，具有还原硫和硫酸盐离子的能力。本研究旨在鉴定和研究SR35的形态、物理和化学性质(细胞形状、大小、革兰氏染色、产孢、运动性、需氧、形成H2S的能力、碳源利用、过氧化氢酶活性、氧化酶活性)。方法。我们采用标准的微生物学和生化研究方法(微生物培养、显微镜法、淀粉酶、脂肪酶活性测定)。采用软裂解法分离染色体DNA。使用通用引物27F和1492R扩增16S rRNA基因。用Sanger法对其进行测序。使用MEGA X程序进行系统发育重建。根据16S rRNA基因序列和生理生化特性对分离株进行鉴定。结果。所研究的细菌是杆状(0.5-0.8×1.5-2.0μm)，它们形成链，能够还原硝酸盐和硫酸盐离子并吸收几种碳源。葡萄糖、乳糖、甘露糖、甘露醇和肌醇发酵形成酸。能动的。过氧化氢酶阳性，氧化酶阴性。在克利格勒培养基中生长时生成H2S。对该分离物16S rRNA基因序列进行两两比对，结果表明该分离物与Citrobacter属代表菌的同源性最高(99.23 ~ 99.86%，覆盖率98%)，并通过系统发育重建得到证实。Citrobacter sp. SR35耐2 μM镉(II)、5 mM铁(II)、0.25 mM钴(II)、10 mM锰(II)、0.5 mM铜(II)和0.1 mM铬(VI)。根据16S rRNA(登录号GenBank OP279754)基因的测序结果，以及生理生化特性(氧化酶、过氧化氢酶、碳源代谢、H2S生成等)，确定分离物SR35属于Citrobacter属。

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Microbiology&Biotechnology

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