Study of an arsenic metabolizing bacteria from arsenic contaminated soil of Chandpur district, Bangladesh

Jahangirnagar University Journal of Biological Sciences Pub Date : 2019-08-03 DOI:10.3329/JUJBS.V8I1.42468

Roksana Khanam, Ripa Moni, Zahidul Islam, M. Billah, U. S. Zohora, F. Sabrin, Mohammad Shahedur Rahman

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引用次数: 4

Abstract

Arsenic is a toxic metal found as inorganic oxyanion arsenate As(V) and arsenite As (III) species. The disposal of toxic heavy metals such as arsenic poses high risk to environment. The present study was undertaken to isolate arsenic-metabolizing bacteria from arsenic contaminated soil of Chandpur district, which is one of the most arsenic contaminated area in Bangladesh and later these bacteria were screened for their ability to metabolize arsenate. Out of ninety eight isolates, ten were found to be capable of metabolizing arsenic in Yeast Extract Mannitol (YEM) medium containing 2 mM arsenate at 37ºC. One of the bacterial isolates designated as I-25 was found to produce an extracellular enzyme which can reduce As(V) into As(III) and able to grow in presence of up to 500 mM arsenate. Subsequent molecular identification of this enzyme producing bacterial isolate using 16s rRNA sequence analysis was correlated with previously identified isolate as Bacillus aryabhatti. Further characterization of the enzyme showed that optimum pH of the extracellular enzyme by the bacterial species was 7 and optimum temperature for the enzyme activity was 60ºC. The bacterial isolates can be exploited for the study of possible bioremediation of arsenic contamination. Jahangirnagar University J. Biol. Sci. 8(1): 57-65, 2019 (June)

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孟加拉Chandpur地区砷污染土壤中砷代谢细菌的研究

砷是一种有毒金属，以无机氧离子砷酸盐as (V)和亚砷酸盐as (III)的形式存在。砷等有毒重金属的处置对环境构成很大风险。本研究从孟加拉国砷污染最严重的地区之一Chandpur地区的砷污染土壤中分离砷代谢细菌，并对这些细菌进行了砷代谢能力的筛选。在98株分离株中，发现10株能够在含有2 mM砷酸盐的酵母提取物甘露醇(YEM)培养基中在37℃下代谢砷。其中一个被命名为I-25的细菌分离株被发现产生一种胞外酶，可以将as (V)还原为as (III)，并能够在高达500 mM的砷酸盐存在下生长。随后利用16s rRNA序列分析对该产酶细菌分离物进行了分子鉴定，与先前鉴定的分离物为aryabhatti芽孢杆菌(Bacillus aryabhatti)相关。进一步的表征表明，菌株胞外酶的最适pH为7，酶活性的最适温度为60℃。分离的细菌可用于砷污染的生物修复研究。贾汉吉纳格尔大学;科学通报8(1):57-65,2019 (6)

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Jahangirnagar University Journal of Biological Sciences

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