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Significant increase in cyanide degradation by Bacillus sp. M01 PTCC 1908 with response surface methodology optimization

by Zamani, Mohammadreza , Aminzadeh, Saeed , Motallebi, Mostafa , Javaheri Safa, Zohre

in Bacillus / Bacillus sp. M01 PTCC 1908 / Bacteria / Biodegradation / Biomedical and Life Sciences / Biotechnology / Cyanide / Cyanide process / Cyanides / Intellectual property / Life Sciences / Microbial Genetics and Genomics / Microbiology / One way ANOVA / Optimization / Original / Original Article / Plackett–Burman design / Response surface methodology / Response surface methodology (RSM) / Toxicity / Variance analysis

2017

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Significant increase in cyanide degradation by Bacillus sp. M01 PTCC 1908 with response surface methodology optimization

by Zamani, Mohammadreza , Aminzadeh, Saeed , Motallebi, Mostafa , Javaheri Safa, Zohre

2017

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Significant increase in cyanide degradation by Bacillus sp. M01 PTCC 1908 with response surface methodology optimization

by Zamani, Mohammadreza , Aminzadeh, Saeed , Motallebi, Mostafa , Javaheri Safa, Zohre

2017

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Journal Article

Significant increase in cyanide degradation by Bacillus sp. M01 PTCC 1908 with response surface methodology optimization

Zamani, Mohammadreza,

Aminzadeh, Saeed,

Motallebi, Mostafa,

Javaheri Safa, Zohre

2017

Overview

Cyanide is used in many industries despite its toxicity. Cyanide biodegradation is affordable and eco-friendly. Sampling from cyanide-contaminated areas from the Muteh gold mine and isolation of 24 bacteria were performed successfully. The selected bacteria—‘ Bacillus sp. M01’—showed maximum tolerance (15 mM) to cyanide and deposited in Persian Type Culture Collection by PTCC No.: 1908. In the primary experiments, effective factors were identified through the Plackett–Burman design. In order to attain the maximum degradation by Bacillus sp. M01 PTCC 1908, culture conditions were optimized by using response surface methodology. By optimizing the effective factor values and considering the interaction between them, the culture conditions were optimized. The degradation percentage was calculated using one-way ANOVA vs t test, and was found to have increased 2.35 times compared to pre-optimization. In all of the experiments, R 2 was as high as 91%. The results of this study are strongly significant for cyanide biodegradation. This method enables the bacteria to degrade 86% of 10 mM cyanide in 48 h. This process has been patented in Iranian Intellectual Property Centre under Licence No: 90533.

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Publisher

Springer Berlin Heidelberg,Springer Nature B.V,SpringerOpen

Subject

Bacillus

/ Bacillus sp. M01 PTCC 1908

/ Bacteria

/ Biodegradation

/ Biomedical and Life Sciences

/ Biotechnology

/ Cyanide