Dieu Huynh , Götz Haferburg , Boyke Bunk , Stefan R. Kaschabek , Wolfgang Sand , Michael Schlömann
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Genome sequencing based on a combination of Illumina and PacBio reads revealed two contigs, a circular bacterial chromosome of 5.2 Mbp and a plasmid of 90 kbp, respectively. The chromosome comprised seven different 16S rRNA genes. Submission of the chromosome to the Type (Strain) Genome Server (TYGS) without preselection of similar sequences revealed exclusively type strains of the genus <em>Alicyclobacillus</em>. In the TYGS analyses the respective most similar species were dependent on whether the final tree was derived from just 16S rRNA, from the genomes, or from the proteomes. Thus, TYGS analysis clearly showed that isolate SO9 represents a novel species of the genus <em>Alicyclobacillus</em>. In the presence of artificial seawater with almost 0.6 M chloride, the addition of <em>Alicyclobacillus</em> sp. SO9 improved copper dissolution from chalcopyrite (CuFeS<sub>2</sub>) compared to abiotic leaching without bacteria. The new isolate SO9, therefore, has potential for bioleaching at elevated chloride concentrations.</p></div>","PeriodicalId":21098,"journal":{"name":"Research in microbiology","volume":"175 1","pages":"Article 104150"},"PeriodicalIF":2.5000,"publicationDate":"2024-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0923250823001250/pdfft?md5=3d3de41ff290b5f4c15f01072742544e&pid=1-s2.0-S0923250823001250-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Alicyclobacillus sp. SO9, a novel halophilic acidophilic iron-oxidizing bacterium isolated from a tailings-contaminated beach, and its effect on copper extraction from chalcopyrite in the presence of high chloride concentration\",\"authors\":\"Dieu Huynh , Götz Haferburg , Boyke Bunk , Stefan R. Kaschabek , Wolfgang Sand , Michael Schlömann\",\"doi\":\"10.1016/j.resmic.2023.104150\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Many acidophilic iron-oxidizing bacteria used in the mining industry for the bioleaching of sulfidic minerals are intolerant to high chloride concentrations, resulting in problems where chloride occurs in the deposit at high concentrations or only seawater is available. In search for strains tolerating such conditions a tetrathionate- and iron-oxidizing bacterium was isolated from a tailings-contaminated beach sample at Portman Bay, Cartagena-La Union mining district, Spain, in the presence of 20 g l<sup>−1</sup> (0.34 M) sodium chloride. The isolate was able to form spores, did not grow in the absence of NaCl, and oxidized ferrous iron in the presence of up to 1.5 M (∼87 g l<sup>−1</sup>) NaCl. Genome sequencing based on a combination of Illumina and PacBio reads revealed two contigs, a circular bacterial chromosome of 5.2 Mbp and a plasmid of 90 kbp, respectively. The chromosome comprised seven different 16S rRNA genes. Submission of the chromosome to the Type (Strain) Genome Server (TYGS) without preselection of similar sequences revealed exclusively type strains of the genus <em>Alicyclobacillus</em>. In the TYGS analyses the respective most similar species were dependent on whether the final tree was derived from just 16S rRNA, from the genomes, or from the proteomes. Thus, TYGS analysis clearly showed that isolate SO9 represents a novel species of the genus <em>Alicyclobacillus</em>. In the presence of artificial seawater with almost 0.6 M chloride, the addition of <em>Alicyclobacillus</em> sp. SO9 improved copper dissolution from chalcopyrite (CuFeS<sub>2</sub>) compared to abiotic leaching without bacteria. 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引用次数: 0
摘要
采矿工业中用于硫化物矿物生物浸出的许多嗜酸性铁氧化细菌对高氯化物浓度不耐受,导致沉积物中出现高浓度氯化物或只有海水可用的问题。为了寻找耐受这种条件的菌株,在20 g l-1(0.34M)氯化钠的存在下,从西班牙卡塔赫纳拉乌尼翁矿区波特曼湾的尾矿污染海滩样品中分离出一种四硫酸盐和铁氧化细菌。该分离物能够形成孢子,在没有NaCl的情况下不生长,并且在高达1.5 M(~87 g l-1)NaCl的存在下氧化亚铁。基于Illumina和PacBio读数组合的基因组测序显示了两个重叠群,一个5.2Mbp的圆形细菌染色体和一个90kbp的质粒。染色体由7个不同的16S rRNA基因组成。将染色体提交到类型(菌株)基因组服务器(TYGS)而不预选类似序列,只显示了脂环芽孢杆菌属的类型菌株。在TYGS分析中,各个最相似的物种取决于最终的树是仅来源于16S rRNA、基因组还是蛋白质组。因此,TYGS分析清楚地表明分离物SO9代表了脂环芽孢杆菌属的一个新物种。在含有近0.6M氯化物的人工海水存在的情况下,与无细菌的非生物浸出相比,添加Alicyclobacillus sp.SO9改善了黄铜矿(CuFeS2)对铜的溶解。因此,新分离物SO9具有在氯化物浓度升高时进行生物浸出的潜力。
Alicyclobacillus sp. SO9, a novel halophilic acidophilic iron-oxidizing bacterium isolated from a tailings-contaminated beach, and its effect on copper extraction from chalcopyrite in the presence of high chloride concentration
Many acidophilic iron-oxidizing bacteria used in the mining industry for the bioleaching of sulfidic minerals are intolerant to high chloride concentrations, resulting in problems where chloride occurs in the deposit at high concentrations or only seawater is available. In search for strains tolerating such conditions a tetrathionate- and iron-oxidizing bacterium was isolated from a tailings-contaminated beach sample at Portman Bay, Cartagena-La Union mining district, Spain, in the presence of 20 g l−1 (0.34 M) sodium chloride. The isolate was able to form spores, did not grow in the absence of NaCl, and oxidized ferrous iron in the presence of up to 1.5 M (∼87 g l−1) NaCl. Genome sequencing based on a combination of Illumina and PacBio reads revealed two contigs, a circular bacterial chromosome of 5.2 Mbp and a plasmid of 90 kbp, respectively. The chromosome comprised seven different 16S rRNA genes. Submission of the chromosome to the Type (Strain) Genome Server (TYGS) without preselection of similar sequences revealed exclusively type strains of the genus Alicyclobacillus. In the TYGS analyses the respective most similar species were dependent on whether the final tree was derived from just 16S rRNA, from the genomes, or from the proteomes. Thus, TYGS analysis clearly showed that isolate SO9 represents a novel species of the genus Alicyclobacillus. In the presence of artificial seawater with almost 0.6 M chloride, the addition of Alicyclobacillus sp. SO9 improved copper dissolution from chalcopyrite (CuFeS2) compared to abiotic leaching without bacteria. The new isolate SO9, therefore, has potential for bioleaching at elevated chloride concentrations.
期刊介绍:
Research in Microbiology is the direct descendant of the original Pasteur periodical entitled Annales de l''Institut Pasteur, created in 1887 by Emile Duclaux under the patronage of Louis Pasteur. The Editorial Committee included Chamberland, Grancher, Nocard, Roux and Straus, and the first issue began with Louis Pasteur''s "Lettre sur la Rage" which clearly defines the spirit of the journal:"You have informed me, my dear Duclaux, that you intend to start a monthly collection of articles entitled "Annales de l''Institut Pasteur". You will be rendering a service that will be appreciated by the ever increasing number of young scientists who are attracted to microbiological studies. In your Annales, our laboratory research will of course occupy a central position, but the work from outside groups that you intend to publish will be a source of competitive stimulation for all of us."That first volume included 53 articles as well as critical reviews and book reviews. From that time on, the Annales appeared regularly every month, without interruption, even during the two world wars. Although the journal has undergone many changes over the past 100 years (in the title, the format, the language) reflecting the evolution in scientific publishing, it has consistently maintained the Pasteur tradition by publishing original reports on all aspects of microbiology.
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