Bioprospecting and molecular characterization of laccase producing bacteriafrom industrial contaminated sites

Laccases have vast prospective for biotechnological applications due to their outstanding bioremediation potential. These include abundant applications in effluent detoxification, enzymatic conversion of chemical intermediates, wine clarification degradation of textile dyes etc. In the present study...

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Main Authors: H.K. Patel, P.J. Sharma, R.K. Kalaria
Format: Article
Language:English
Published: GJESM Publisher 2019-04-01
Series:Global Journal of Environmental Science and Management
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Online Access:https://www.gjesm.net/article_34359_74cce2ffacd2fde6645f03158bc99177.pdf
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author H.K. Patel
P.J. Sharma
R.K. Kalaria
author_facet H.K. Patel
P.J. Sharma
R.K. Kalaria
author_sort H.K. Patel
collection DOAJ
description Laccases have vast prospective for biotechnological applications due to their outstanding bioremediation potential. These include abundant applications in effluent detoxification, enzymatic conversion of chemical intermediates, wine clarification degradation of textile dyes etc. In the present study, two potential microbes were isolated on solid medium containing guaiacol and ABTS for laccase activity out of 10 microbes. Two cultures PHP7 and PKD5 were selected for molecular characterization was carried out using 16S rRNA gene technology of PHP7 revealed as <em>Bacillus cereus</em> (KU878970.1).Partial amplification of laccase gene contain conserved domain of multicopper oxidase family. The biomass produced by PHP7 was 0.053 mg/5 mL, while PKD5 was 0.058 mg/5 mL. While dye degradation of PHP7dye of 64.28% after incubation of 6 days at pH7 whereas  PKD5 shows highest degradation of dye i.e. 61.90% after incubation of 8 days at pH8. PHP7 showed highest Laccase activity of 0.489 U/L at pH 7 while PKD5 showed 0.404 U/L Laccase activity at pH 8 at 8<sup>th</sup> day of incubation. Using laccase from PHP7 and PKD5 isolates, explored at industrial level for decolorization of coloured effluents that significance in  environmentally friendly and play critical role as bioremediation at commercial scale.
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spelling doaj-art-6aa859146bc54f4d8204d6d5558bddff2025-02-03T02:29:09ZengGJESM PublisherGlobal Journal of Environmental Science and Management2383-35722383-38662019-04-015220321210.22034/gjesm.2019.02.0634359Bioprospecting and molecular characterization of laccase producing bacteriafrom industrial contaminated sitesH.K. Patel0P.J. Sharma1R.K. Kalaria2School of Sciences, P.P. Savani University, Surat-394125 India|Bhagwan Mahavir College of Science and Technology, VNSGU, Surat-395007 IndiaBhagwan Mahavir College of Science and Technology, VNSGU, Surat-395007 IndiaAspee Shakilam Biotechnology Institute, Navsari Agricultural university, Athwa Farm, Surat-39500 IndiaLaccases have vast prospective for biotechnological applications due to their outstanding bioremediation potential. These include abundant applications in effluent detoxification, enzymatic conversion of chemical intermediates, wine clarification degradation of textile dyes etc. In the present study, two potential microbes were isolated on solid medium containing guaiacol and ABTS for laccase activity out of 10 microbes. Two cultures PHP7 and PKD5 were selected for molecular characterization was carried out using 16S rRNA gene technology of PHP7 revealed as <em>Bacillus cereus</em> (KU878970.1).Partial amplification of laccase gene contain conserved domain of multicopper oxidase family. The biomass produced by PHP7 was 0.053 mg/5 mL, while PKD5 was 0.058 mg/5 mL. While dye degradation of PHP7dye of 64.28% after incubation of 6 days at pH7 whereas  PKD5 shows highest degradation of dye i.e. 61.90% after incubation of 8 days at pH8. PHP7 showed highest Laccase activity of 0.489 U/L at pH 7 while PKD5 showed 0.404 U/L Laccase activity at pH 8 at 8<sup>th</sup> day of incubation. Using laccase from PHP7 and PKD5 isolates, explored at industrial level for decolorization of coloured effluents that significance in  environmentally friendly and play critical role as bioremediation at commercial scale.https://www.gjesm.net/article_34359_74cce2ffacd2fde6645f03158bc99177.pdf2, 2-azino-bis (3-ethylbenzthiazoline-6-sulphonic acid (ABTS)Bushnell Haans medium (BHM)GuaiacolLaccaseRibosomal Deoxy ribonucleic acid (rDNA)
spellingShingle H.K. Patel
P.J. Sharma
R.K. Kalaria
Bioprospecting and molecular characterization of laccase producing bacteriafrom industrial contaminated sites
Global Journal of Environmental Science and Management
2, 2-azino-bis (3-ethylbenzthiazoline-6-sulphonic acid (ABTS)
Bushnell Haans medium (BHM)
Guaiacol
Laccase
Ribosomal Deoxy ribonucleic acid (rDNA)
title Bioprospecting and molecular characterization of laccase producing bacteriafrom industrial contaminated sites
title_full Bioprospecting and molecular characterization of laccase producing bacteriafrom industrial contaminated sites
title_fullStr Bioprospecting and molecular characterization of laccase producing bacteriafrom industrial contaminated sites
title_full_unstemmed Bioprospecting and molecular characterization of laccase producing bacteriafrom industrial contaminated sites
title_short Bioprospecting and molecular characterization of laccase producing bacteriafrom industrial contaminated sites
title_sort bioprospecting and molecular characterization of laccase producing bacteriafrom industrial contaminated sites
topic 2, 2-azino-bis (3-ethylbenzthiazoline-6-sulphonic acid (ABTS)
Bushnell Haans medium (BHM)
Guaiacol
Laccase
Ribosomal Deoxy ribonucleic acid (rDNA)
url https://www.gjesm.net/article_34359_74cce2ffacd2fde6645f03158bc99177.pdf
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AT rkkalaria bioprospectingandmolecularcharacterizationoflaccaseproducingbacteriafromindustrialcontaminatedsites