Degradation of phenanthrene and pyrene using genetically engineered dioxygenase producing Pseudomonas putida in soil

Bioremediation use to promote degradation and/or removal of contaminants into nonhazardous or less-hazardous substances from the environment using microbial metabolic ability. Pseudomonas spp. is one of saprotrophic soil bacterium and can be used for biodegradation of polycyclic aromatic...

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Main Authors: Mardani Gashtasb, Mahvi Amir Hossein, Hashemzadeh-Chaleshtori Morteza, Nasseri Simin, Dehghani Mohammad Hadi, Ghasemi-Dehkordi Payam
Format: Article
Language:English
Published: Serbian Genetics Society 2016-01-01
Series:Genetika
Subjects:
Online Access:http://www.doiserbia.nb.rs/img/doi/0534-0012/2016/0534-00121603837M.pdf
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spelling doaj-673f7a31a2a54f70b9e3b070277788412020-11-24T23:56:04ZengSerbian Genetics SocietyGenetika0534-00121820-60692016-01-0148383785810.2298/GENSR1603837M0534-00121603837MDegradation of phenanthrene and pyrene using genetically engineered dioxygenase producing Pseudomonas putida in soilMardani Gashtasb0Mahvi Amir Hossein1Hashemzadeh-Chaleshtori Morteza2Nasseri Simin3Dehghani Mohammad Hadi4Ghasemi-Dehkordi Payam5Tehran University of Medical Sciences, School of Public Health, Department of Environmental Health Engineering, Tehran, IranTehran University of Medical Sciences, School of Public Health, Department of Environmental Health Engineering, Tehran, Iran + Tehran University of Medical Sciences, Institute for Environmental Research, Center for Solid Waste Research, Tehran, IranShahrekord University of Medical Sciences, Cellular and Molecular Research Center, Shahrekord, IranTehran University of Medical Sciences, School of Public Health, Department of Environmental Health Engineering, Tehran, Iran + Tehran University of Medical Sciences, Institute for Environmental Research (IER), Center for Water Quality Research (CWQR), TehTehran University of Medical Sciences, School of Public Health, Department of Environmental Health Engineering, Tehran, IranShahrekord University of Medical Sciences, Cellular and Molecular Research Center, Shahrekord, IranBioremediation use to promote degradation and/or removal of contaminants into nonhazardous or less-hazardous substances from the environment using microbial metabolic ability. Pseudomonas spp. is one of saprotrophic soil bacterium and can be used for biodegradation of polycyclic aromatic hydrocarbons (PAHs) but this activity in most species is weak. Phenanthrene and pyrene could associate with a risk of human cancer development in exposed individuals. The aim of the present study was application of genetically engineered P. putida that produce dioxygenase for degradation of phenanthrene and pyrene in spiked soil using high-performance liquid chromatography (HPLC) method. The nahH gene that encoded catechol 2,3-dioxygenase (C23O) was cloned into pUC18 and pUC18-nahH recombinant vector was generated and transformed into wild P. putida, successfully. The genetically modified and wild types of P. putida were inoculated in soil and pilot plan was prepared. Finally, degradation of phenanthrene and pyrene by this bacterium in spiked soil were evaluated using HPLC measurement technique. The results were showed elimination of these PAH compounds in spiked soil by engineered P. putida comparing to dishes containing natural soil with normal microbial flora and inoculated autoclaved soil by wild type of P. putida were statistically significant (p<0.05). Although adding N and P chemical nutrients on degradation ability of phenanthrene and pyrene by engineered P. putida in soil were not statistically significant (p>0.05) but it was few impact on this process (more than 2%). Additional and verification tests including catalase, oxidase and PCR on isolated bacteria from spiked soil were indicated that engineered P. putida was alive and functional as well as it can affect on phenanthrene and pyrene degradation via nahH gene producing. These findings indicated that genetically engineered P. putida generated in this work via producing C23O enzyme can useful and practical for biodegradation of phenanthrene and pyrene as well as petroleum compounds in polluted environments.http://www.doiserbia.nb.rs/img/doi/0534-0012/2016/0534-00121603837M.pdfcatechol 23-dioxygenaseHPLCphenanthrenepyrenePseudomonas putida
collection DOAJ
language English
format Article
sources DOAJ
author Mardani Gashtasb
Mahvi Amir Hossein
Hashemzadeh-Chaleshtori Morteza
Nasseri Simin
Dehghani Mohammad Hadi
Ghasemi-Dehkordi Payam
spellingShingle Mardani Gashtasb
Mahvi Amir Hossein
Hashemzadeh-Chaleshtori Morteza
Nasseri Simin
Dehghani Mohammad Hadi
Ghasemi-Dehkordi Payam
Degradation of phenanthrene and pyrene using genetically engineered dioxygenase producing Pseudomonas putida in soil
Genetika
catechol 2
3-dioxygenase
HPLC
phenanthrene
pyrene
Pseudomonas putida
author_facet Mardani Gashtasb
Mahvi Amir Hossein
Hashemzadeh-Chaleshtori Morteza
Nasseri Simin
Dehghani Mohammad Hadi
Ghasemi-Dehkordi Payam
author_sort Mardani Gashtasb
title Degradation of phenanthrene and pyrene using genetically engineered dioxygenase producing Pseudomonas putida in soil
title_short Degradation of phenanthrene and pyrene using genetically engineered dioxygenase producing Pseudomonas putida in soil
title_full Degradation of phenanthrene and pyrene using genetically engineered dioxygenase producing Pseudomonas putida in soil
title_fullStr Degradation of phenanthrene and pyrene using genetically engineered dioxygenase producing Pseudomonas putida in soil
title_full_unstemmed Degradation of phenanthrene and pyrene using genetically engineered dioxygenase producing Pseudomonas putida in soil
title_sort degradation of phenanthrene and pyrene using genetically engineered dioxygenase producing pseudomonas putida in soil
publisher Serbian Genetics Society
series Genetika
issn 0534-0012
1820-6069
publishDate 2016-01-01
description Bioremediation use to promote degradation and/or removal of contaminants into nonhazardous or less-hazardous substances from the environment using microbial metabolic ability. Pseudomonas spp. is one of saprotrophic soil bacterium and can be used for biodegradation of polycyclic aromatic hydrocarbons (PAHs) but this activity in most species is weak. Phenanthrene and pyrene could associate with a risk of human cancer development in exposed individuals. The aim of the present study was application of genetically engineered P. putida that produce dioxygenase for degradation of phenanthrene and pyrene in spiked soil using high-performance liquid chromatography (HPLC) method. The nahH gene that encoded catechol 2,3-dioxygenase (C23O) was cloned into pUC18 and pUC18-nahH recombinant vector was generated and transformed into wild P. putida, successfully. The genetically modified and wild types of P. putida were inoculated in soil and pilot plan was prepared. Finally, degradation of phenanthrene and pyrene by this bacterium in spiked soil were evaluated using HPLC measurement technique. The results were showed elimination of these PAH compounds in spiked soil by engineered P. putida comparing to dishes containing natural soil with normal microbial flora and inoculated autoclaved soil by wild type of P. putida were statistically significant (p<0.05). Although adding N and P chemical nutrients on degradation ability of phenanthrene and pyrene by engineered P. putida in soil were not statistically significant (p>0.05) but it was few impact on this process (more than 2%). Additional and verification tests including catalase, oxidase and PCR on isolated bacteria from spiked soil were indicated that engineered P. putida was alive and functional as well as it can affect on phenanthrene and pyrene degradation via nahH gene producing. These findings indicated that genetically engineered P. putida generated in this work via producing C23O enzyme can useful and practical for biodegradation of phenanthrene and pyrene as well as petroleum compounds in polluted environments.
topic catechol 2
3-dioxygenase
HPLC
phenanthrene
pyrene
Pseudomonas putida
url http://www.doiserbia.nb.rs/img/doi/0534-0012/2016/0534-00121603837M.pdf
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