Abstract
In the present study, the biotechnological potential of the marine-derived fungus Peniophora sp. CBMAI 1063 was investigated in relation to Reactive Black 5 (RB5) dye decolorization and degradation using an integrated statistical design composed of Plackett-Burman design (P&B), central composite design (CCD), and response surface methodology (RSM). RB5 dye was effectively decolorized (94 %) in saline conditions, without any detection of mutagenic compounds, and simultaneously, 57 % of total organic carbon (TOC) was removed in 7 days. The activity of lignin peroxidase (LiP) was not detected during the process. The gene expression of laccase (Lac) and manganese peroxidase (MnP) enzymes produced during the process was evaluated, and results from this experiment coupled with LC-MS analyses revealed that in the early stage of dye decolorization, a higher MnP gene expression and significant enzymatic activity was detected in Peniophora sp. CBMAI 1063 with the formation of p-Base and TAHNDS compounds. This paper reports innovative data related to the textile dye decolorization by the marine-derived basidiomycete Peniophora sp. CBMAI 1063, showing the metabolites formed and enzymatic action throughout the process in saline condition. T...Continue Reading
References
May 1, 1983·Mutation Research·D M Maron, B N Ames
Mar 24, 2000·Archives of Biochemistry and Biophysics·P GiardinaG Sannia
Jul 29, 2003·Biotechnology Letters·Qingxiang YangAntonius Kettrup
Dec 31, 2005·Analytical and Bioanalytical Chemistry·Astrid Rehorek, Alexander Plum
Apr 1, 1984·Proceedings of the National Academy of Sciences of the United States of America·M Tien, T K Kirk
May 1, 2007·FEMS Microbiology Ecology·Harald KellnerFrançois Buscot
Feb 23, 2008·Journal of Molecular Evolution·Ingo MorgensternDavid S Hibbett
Jul 12, 2008·Environment International·Prachi Kaushik, Anushree Malik
Sep 4, 2008·FEMS Microbiology Letters·Magali SoléDietmar Schlosser
Nov 13, 2008·Critical Reviews in Microbiology·Chandralata RaghukumarAshutosh Kumar Verma
Dec 17, 2008·Journal of Hazardous Materials·S V Srinivasan, D V S Murthy
Jan 16, 2009·Journal of Environmental Sciences (China)·Xingzu WangHong Qi
Nov 3, 2009·Microbiological Research·Cláudia B A MenezesLara D Sette
Oct 15, 2010·Fungal Biology·Rafaella C Bonugli-santosLara D Sette
Feb 15, 2011·Journal of Hazardous Materials·Xiangkang ZengDabing Zhang
Apr 8, 2011·Bioresource Technology·Qiang LiuZhi Ping Xu
Aug 23, 2011·Bioresource Technology·Chirag M GhevariyaBharti P Dave
Oct 1, 2011·Bioresource Technology·Naeimeh EnayatizamirLeila Mohammadi
Nov 21, 2013·Environmental Science & Technology·Andrea R PearceGregory K Druschel
Dec 5, 2013·Environmental Science & Technology·Teng Zeng, William A Arnold
Apr 29, 2015·Frontiers in Microbiology·Rafaella C Bonugli-SantosLara D Sette
Citations
Dec 22, 2017·AMB Express·Igor Vinicius Ramos OteroLara Durães Sette
May 29, 2018·Brazilian Journal of Microbiology : [publication of the Brazilian Society for Microbiology]·Gabriela A L VieiraLara D Sette
May 28, 2019·Topics in Current Chemistry·Efaq NomanBalkis A Talip
Jul 28, 2020·Environmental Technology·Leonardo MajulLaura Levin
Mar 9, 2019·Environmental Science and Pollution Research International·Maria R S VasconcelosLara D Sette
Aug 23, 2020·Applied Microbiology and Biotechnology·Bruno Francesco Rodrigues de OliveiraMarinella Silva Laport
Jul 17, 2018·Applied Biochemistry and Biotechnology·Monnat TheerachatWarawut Chulalaksananukul
Dec 15, 2020·Chemosphere·Gabriela Alves Licursi VieiraLara Durães Sette
Dec 3, 2020·Water Science and Technology : a Journal of the International Association on Water Pollution Research·Youssef M M Mohammed, Mona E M Mabrouk
Dec 10, 2020·Journal of Fungi·Olga A GlazunovaTatyana V Fedorova
Feb 26, 2021·The Science of the Total Environment·Efstratios NikolaivitsEvangelos Topakas
Feb 20, 2021·Heliyon·William Bartolomeu MedeirosRafaella Costa Bonugli-Santos