Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediation

Detalhes bibliográficos
Autor(a) principal: Iqtedar, Mehwish
Data de Publicação: 2019
Outros Autores: Aftab, Farah, Asim, Rabab, Abdullah, Roheena, Kaleem, Afshan, Saleem, Faiza, Aehtisham, Ayesha
Tipo de documento: Artigo
Idioma: eng
Título da fonte: Bioscience journal (Online)
Texto Completo: https://seer.ufu.br/index.php/biosciencejournal/article/view/42407
Resumo: Industrialization has added extremely toxic metalloid arsenic into the environment which at high concentration severely threatens the biota. Naturally, some microbes possess the ability to bio-accumulate metals and also to transform arsenite (As III) a toxic form to a non-toxic arsenate As V. The present study aimed to isolate arsenic resistant bacterias from the arsenic contaminated soil and water. Among eleven bacterial isolates, three FAs 1, 4 and 9 exhibited tolerance against sodium arsenite at 100mM concentration by achieving growth of 7.48×109,1.57×109 and 2.23×109 C.F.U./ml, respectively. Optimization at different conditions such as temperature, pH and arsenic concentration revealed high arsenic tolerance from isolate FAs 4 (5.33×108) at 37°C and FAs 1 (4.43×108 C.F.U./ml) at pH 7. Arsenic resistance at optimum conditions for the bacterial strains FAs 1, FAs 4 and FAs 9 showed maximum growth at 80mM concentration of arsenite. These bacterial isolates did not show redox ability to oxidize arsenite As III to arsenate As V. However bacterial isolates FAs 1, FAs 4 and FAs 9 were able to accumulate arsenic 39.16, 148 and 125 µg/L on the 4th, 3rd and 5th day of incubation, respectively. The isolates FAs 1, FAs 4 and FAs 9 were identified as Gram negative non endospore forming rods. In future, these novel isolates possess a great potential in biotechnology field, as bioremediation of arsenic contaminated soil and water can be done by employing arsenic accumulating bacteria which is an eco-friendly and cost effective method.
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spelling Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediationTriagem e otimização de bactérias que degradam arsênicos e seu papel potencial na biorremediação de metais pesadosArsenic contaminationarsenic bioremediationarsenic biodegradationbioaccumulationBiological SciencesIndustrialization has added extremely toxic metalloid arsenic into the environment which at high concentration severely threatens the biota. Naturally, some microbes possess the ability to bio-accumulate metals and also to transform arsenite (As III) a toxic form to a non-toxic arsenate As V. The present study aimed to isolate arsenic resistant bacterias from the arsenic contaminated soil and water. Among eleven bacterial isolates, three FAs 1, 4 and 9 exhibited tolerance against sodium arsenite at 100mM concentration by achieving growth of 7.48×109,1.57×109 and 2.23×109 C.F.U./ml, respectively. Optimization at different conditions such as temperature, pH and arsenic concentration revealed high arsenic tolerance from isolate FAs 4 (5.33×108) at 37°C and FAs 1 (4.43×108 C.F.U./ml) at pH 7. Arsenic resistance at optimum conditions for the bacterial strains FAs 1, FAs 4 and FAs 9 showed maximum growth at 80mM concentration of arsenite. These bacterial isolates did not show redox ability to oxidize arsenite As III to arsenate As V. However bacterial isolates FAs 1, FAs 4 and FAs 9 were able to accumulate arsenic 39.16, 148 and 125 µg/L on the 4th, 3rd and 5th day of incubation, respectively. The isolates FAs 1, FAs 4 and FAs 9 were identified as Gram negative non endospore forming rods. In future, these novel isolates possess a great potential in biotechnology field, as bioremediation of arsenic contaminated soil and water can be done by employing arsenic accumulating bacteria which is an eco-friendly and cost effective method.A industrialização adicionou arsênico metalóide extremamente tóxico ao ambiente que, em alta concentração, ameaça severamente a biota. Naturalmente, alguns micróbios possuem a capacidade de bio-acumular metais e também transformar arsenito (As III) uma forma tóxica a um arsenato não-tóxico Como V. O presente estudo visa o isolamento de bactérias resistentes ao arsênico do solo contaminado com arsênico e água . Entre onze isolados bacterianos, três FAs 1, 4 e 9 exibiram tolerância à concentração de 100 mM de arseatura de sódio, obtendo crescimento de 7,48 × 109,157 × 109 e 2,23 × 109 C.F.U./ml, respectivamente. Otimização em diferentes condições como temperatura, pH e concentração de arsênio revelaram alta tolerância ao arsênico do isolado FAs 4 (5,33 × 108) a 37 ° C e FAs 1 (4,43 × 108 UFC / ml) em pH 7. Resistência ao arsênico em condições ótimas para as cepas bacterianas FAs 1, FAs 4 e FAs 9 apresentaram crescimento máximo na concentração de 80 mM de arsenito. Estes isolados bacterianos não mostraram capacidade redox para oxidar o arsenito As III para arseniar como V. No entanto, os isolados bacterianos FAs 1, FAs 4 e FAs 9 foram capazes de acumular arsênico 39,16, 148 e 125 µg / L no 4º, 3º e 5º dia de incubação, respectivamente. Os isolados FAs 1, FAs 4 e FAs 9 foram identificados como bastonetes gram-negativos não endoscópicos. No futuro, esses novos isolados possuem um grande potencial no campo da biotecnologia, já que a biorremediação de solo e água contaminados com arsênico pode ser feita empregando-se bactérias que acumulam arsênico, o que é um método ecologicamente correto e econômico.EDUFU2019-08-08info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://seer.ufu.br/index.php/biosciencejournal/article/view/4240710.14393/BJ-v35n4a2019-42407Bioscience Journal ; Vol. 35 No. 4 (2019): July/Aug.; 1237-1244Bioscience Journal ; v. 35 n. 4 (2019): July/Aug.; 1237-12441981-3163reponame:Bioscience journal (Online)instname:Universidade Federal de Uberlândia (UFU)instacron:UFUenghttps://seer.ufu.br/index.php/biosciencejournal/article/view/42407/26668Pakistan; ContemporaryCopyright (c) 2019 Mehwish Iqtedar, Farah Aftab, Rabab Asim, Roheena Abdullah, Afshan Kaleem, Faiza Saleem, Ayesha Aehtishamhttps://creativecommons.org/licenses/by/4.0info:eu-repo/semantics/openAccessIqtedar, MehwishAftab, FarahAsim, RababAbdullah, RoheenaKaleem, AfshanSaleem, FaizaAehtisham, Ayesha2022-01-31T21:51:52Zoai:ojs.www.seer.ufu.br:article/42407Revistahttps://seer.ufu.br/index.php/biosciencejournalPUBhttps://seer.ufu.br/index.php/biosciencejournal/oaibiosciencej@ufu.br||1981-31631516-3725opendoar:2022-01-31T21:51:52Bioscience journal (Online) - Universidade Federal de Uberlândia (UFU)false
dc.title.none.fl_str_mv Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediation
Triagem e otimização de bactérias que degradam arsênicos e seu papel potencial na biorremediação de metais pesados
title Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediation
spellingShingle Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediation
Iqtedar, Mehwish
Arsenic contamination
arsenic bioremediation
arsenic biodegradation
bioaccumulation
Biological Sciences
title_short Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediation
title_full Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediation
title_fullStr Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediation
title_full_unstemmed Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediation
title_sort Screening and optimization of arsenic degrading bacteria and their potential role in heavy metal bioremediation
author Iqtedar, Mehwish
author_facet Iqtedar, Mehwish
Aftab, Farah
Asim, Rabab
Abdullah, Roheena
Kaleem, Afshan
Saleem, Faiza
Aehtisham, Ayesha
author_role author
author2 Aftab, Farah
Asim, Rabab
Abdullah, Roheena
Kaleem, Afshan
Saleem, Faiza
Aehtisham, Ayesha
author2_role author
author
author
author
author
author
dc.contributor.author.fl_str_mv Iqtedar, Mehwish
Aftab, Farah
Asim, Rabab
Abdullah, Roheena
Kaleem, Afshan
Saleem, Faiza
Aehtisham, Ayesha
dc.subject.por.fl_str_mv Arsenic contamination
arsenic bioremediation
arsenic biodegradation
bioaccumulation
Biological Sciences
topic Arsenic contamination
arsenic bioremediation
arsenic biodegradation
bioaccumulation
Biological Sciences
description Industrialization has added extremely toxic metalloid arsenic into the environment which at high concentration severely threatens the biota. Naturally, some microbes possess the ability to bio-accumulate metals and also to transform arsenite (As III) a toxic form to a non-toxic arsenate As V. The present study aimed to isolate arsenic resistant bacterias from the arsenic contaminated soil and water. Among eleven bacterial isolates, three FAs 1, 4 and 9 exhibited tolerance against sodium arsenite at 100mM concentration by achieving growth of 7.48×109,1.57×109 and 2.23×109 C.F.U./ml, respectively. Optimization at different conditions such as temperature, pH and arsenic concentration revealed high arsenic tolerance from isolate FAs 4 (5.33×108) at 37°C and FAs 1 (4.43×108 C.F.U./ml) at pH 7. Arsenic resistance at optimum conditions for the bacterial strains FAs 1, FAs 4 and FAs 9 showed maximum growth at 80mM concentration of arsenite. These bacterial isolates did not show redox ability to oxidize arsenite As III to arsenate As V. However bacterial isolates FAs 1, FAs 4 and FAs 9 were able to accumulate arsenic 39.16, 148 and 125 µg/L on the 4th, 3rd and 5th day of incubation, respectively. The isolates FAs 1, FAs 4 and FAs 9 were identified as Gram negative non endospore forming rods. In future, these novel isolates possess a great potential in biotechnology field, as bioremediation of arsenic contaminated soil and water can be done by employing arsenic accumulating bacteria which is an eco-friendly and cost effective method.
publishDate 2019
dc.date.none.fl_str_mv 2019-08-08
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
status_str publishedVersion
dc.identifier.uri.fl_str_mv https://seer.ufu.br/index.php/biosciencejournal/article/view/42407
10.14393/BJ-v35n4a2019-42407
url https://seer.ufu.br/index.php/biosciencejournal/article/view/42407
identifier_str_mv 10.14393/BJ-v35n4a2019-42407
dc.language.iso.fl_str_mv eng
language eng
dc.relation.none.fl_str_mv https://seer.ufu.br/index.php/biosciencejournal/article/view/42407/26668
dc.rights.driver.fl_str_mv https://creativecommons.org/licenses/by/4.0
info:eu-repo/semantics/openAccess
rights_invalid_str_mv https://creativecommons.org/licenses/by/4.0
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.coverage.none.fl_str_mv Pakistan; Contemporary
dc.publisher.none.fl_str_mv EDUFU
publisher.none.fl_str_mv EDUFU
dc.source.none.fl_str_mv Bioscience Journal ; Vol. 35 No. 4 (2019): July/Aug.; 1237-1244
Bioscience Journal ; v. 35 n. 4 (2019): July/Aug.; 1237-1244
1981-3163
reponame:Bioscience journal (Online)
instname:Universidade Federal de Uberlândia (UFU)
instacron:UFU
instname_str Universidade Federal de Uberlândia (UFU)
instacron_str UFU
institution UFU
reponame_str Bioscience journal (Online)
collection Bioscience journal (Online)
repository.name.fl_str_mv Bioscience journal (Online) - Universidade Federal de Uberlândia (UFU)
repository.mail.fl_str_mv biosciencej@ufu.br||
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