Biodegradation of alicyclic amines by a newly isolated hypersaline tolerant strain Paenarthrobacter sp. TYUT067

Alicyclic amines are widely used in several types of industries, and considerable attention has been devoted to possible environmental pollution by alicyclic amines in hypersaline industrial wastewater. In this study, a new hypersaline tolerant bacterial TYUT067 capable of growing in liquid basal sa...

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Autores principales: Kaiqing Feng, Jiandong Zhang, Lili Gao, Qi Tian
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Publicado: IWA Publishing 2021
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spelling oai:doaj.org-article:993128c7db864333a02dd5107bfbcbec2021-11-06T11:01:41ZBiodegradation of alicyclic amines by a newly isolated hypersaline tolerant strain Paenarthrobacter sp. TYUT0670273-12231996-973210.2166/wst.2021.130https://doaj.org/article/993128c7db864333a02dd5107bfbcbec2021-05-01T00:00:00Zhttp://wst.iwaponline.com/content/83/9/2160https://doaj.org/toc/0273-1223https://doaj.org/toc/1996-9732Alicyclic amines are widely used in several types of industries, and considerable attention has been devoted to possible environmental pollution by alicyclic amines in hypersaline industrial wastewater. In this study, a new hypersaline tolerant bacterial TYUT067 capable of growing in liquid basal salt medium with cyclohexylamine (CHAM) as the sole carbon source and energy source, was isolated from soil, and discovered with highly efficient CHAM degrading ability. The strain TYUT067 was identified as Paenarthrobacter sp. based on 16S rDNA gene sequence, and its degradation characteristic was examined. The results revealed that the isolated TYUT067 could grow well under pH range of 6.5–10.0, temperature from 20 °C to 30 °C. For degradation of 60 mM of cyclohexylamine, 100% degradation could be finished within 120 h. The TYUT067 could degrade 10 mM CHAM under hypersaline conditions (3–5% NaCl, w/v), revealed the hypersaline tolerance of TYUT067. Different type of amines was also tested with TYUT067, the degradations of >90% were achieved toward several alicyclic amines. The current results suggested that TYUT067 was a potential species could be efficiently used for the degradation of alicyclic amines and might be applicable to a hypersaline wastewater treatment system for the removal of alicyclic amines. HIGHLIGHTS A new cyclohexylamine degradation bacterial strain TYUT067 was isolated from soil environment.; The isolated TYUT067 is an alkali-tolerant strain and mesophilic microorganisms.; The isolated TYUT067 can degrade CHAM under hypersaline environment.; The isolated TYUT067 can degrade various alicyclic amines.;Kaiqing FengJiandong ZhangLili GaoQi TianIWA Publishingarticlealicyclic aminebacteriabiodegradationcyclohexylaminehypersaline wastewaterEnvironmental technology. Sanitary engineeringTD1-1066ENWater Science and Technology, Vol 83, Iss 9, Pp 2160-2168 (2021)
institution DOAJ
collection DOAJ
language EN
topic alicyclic amine
bacteria
biodegradation
cyclohexylamine
hypersaline wastewater
Environmental technology. Sanitary engineering
TD1-1066
spellingShingle alicyclic amine
bacteria
biodegradation
cyclohexylamine
hypersaline wastewater
Environmental technology. Sanitary engineering
TD1-1066
Kaiqing Feng
Jiandong Zhang
Lili Gao
Qi Tian
Biodegradation of alicyclic amines by a newly isolated hypersaline tolerant strain Paenarthrobacter sp. TYUT067
description Alicyclic amines are widely used in several types of industries, and considerable attention has been devoted to possible environmental pollution by alicyclic amines in hypersaline industrial wastewater. In this study, a new hypersaline tolerant bacterial TYUT067 capable of growing in liquid basal salt medium with cyclohexylamine (CHAM) as the sole carbon source and energy source, was isolated from soil, and discovered with highly efficient CHAM degrading ability. The strain TYUT067 was identified as Paenarthrobacter sp. based on 16S rDNA gene sequence, and its degradation characteristic was examined. The results revealed that the isolated TYUT067 could grow well under pH range of 6.5–10.0, temperature from 20 °C to 30 °C. For degradation of 60 mM of cyclohexylamine, 100% degradation could be finished within 120 h. The TYUT067 could degrade 10 mM CHAM under hypersaline conditions (3–5% NaCl, w/v), revealed the hypersaline tolerance of TYUT067. Different type of amines was also tested with TYUT067, the degradations of >90% were achieved toward several alicyclic amines. The current results suggested that TYUT067 was a potential species could be efficiently used for the degradation of alicyclic amines and might be applicable to a hypersaline wastewater treatment system for the removal of alicyclic amines. HIGHLIGHTS A new cyclohexylamine degradation bacterial strain TYUT067 was isolated from soil environment.; The isolated TYUT067 is an alkali-tolerant strain and mesophilic microorganisms.; The isolated TYUT067 can degrade CHAM under hypersaline environment.; The isolated TYUT067 can degrade various alicyclic amines.;
format article
author Kaiqing Feng
Jiandong Zhang
Lili Gao
Qi Tian
author_facet Kaiqing Feng
Jiandong Zhang
Lili Gao
Qi Tian
author_sort Kaiqing Feng
title Biodegradation of alicyclic amines by a newly isolated hypersaline tolerant strain Paenarthrobacter sp. TYUT067
title_short Biodegradation of alicyclic amines by a newly isolated hypersaline tolerant strain Paenarthrobacter sp. TYUT067
title_full Biodegradation of alicyclic amines by a newly isolated hypersaline tolerant strain Paenarthrobacter sp. TYUT067
title_fullStr Biodegradation of alicyclic amines by a newly isolated hypersaline tolerant strain Paenarthrobacter sp. TYUT067
title_full_unstemmed Biodegradation of alicyclic amines by a newly isolated hypersaline tolerant strain Paenarthrobacter sp. TYUT067
title_sort biodegradation of alicyclic amines by a newly isolated hypersaline tolerant strain paenarthrobacter sp. tyut067
publisher IWA Publishing
publishDate 2021
url https://doaj.org/article/993128c7db864333a02dd5107bfbcbec
work_keys_str_mv AT kaiqingfeng biodegradationofalicyclicaminesbyanewlyisolatedhypersalinetolerantstrainpaenarthrobactersptyut067
AT jiandongzhang biodegradationofalicyclicaminesbyanewlyisolatedhypersalinetolerantstrainpaenarthrobactersptyut067
AT liligao biodegradationofalicyclicaminesbyanewlyisolatedhypersalinetolerantstrainpaenarthrobactersptyut067
AT qitian biodegradationofalicyclicaminesbyanewlyisolatedhypersalinetolerantstrainpaenarthrobactersptyut067
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