2020
DOI: 10.1016/j.jenvman.2020.111231
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Improving laccase production from Trametes versicolor using lignocellulosic residues as cosubstrates and evaluation of enzymes for blue wastewater biodegradation

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Cited by 31 publications
(27 citation statements)
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“…PP17-33 was 5.841 U/g using the oil palm decanter cake as materials for optimization of the production of enzymes through Plackett-Burman design (Thamvithayakorn et al, 2019). The optimal conditions for laccase production from T. versicolor were found at 35 • C and 5 g/L of wheat bran as substrate, reaching approximately 200 U/ml on 11 days in submerged fermentation (Atilano-Camino et al, 2020). An et al (2020b) reported that laccase production from P. ostreatus and Flammulina velutipes strains grown on cottonseed hull was better than that on corncob or poplar wood, and laccase production from P. ostreatus CCEF 89 grown on cottonseed hull, corncob, and poplar sawdust ranged from 61.38 ± 4.09 to 748.24 ± 9.53 U/L, 26.12 ± 2.28 to 699.12 ± 44.91 U/L, and 3.32 ± 0.30 to 509.75 ± 15.43 U/L, respectively.…”
Section: Discussionmentioning
confidence: 99%
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“…PP17-33 was 5.841 U/g using the oil palm decanter cake as materials for optimization of the production of enzymes through Plackett-Burman design (Thamvithayakorn et al, 2019). The optimal conditions for laccase production from T. versicolor were found at 35 • C and 5 g/L of wheat bran as substrate, reaching approximately 200 U/ml on 11 days in submerged fermentation (Atilano-Camino et al, 2020). An et al (2020b) reported that laccase production from P. ostreatus and Flammulina velutipes strains grown on cottonseed hull was better than that on corncob or poplar wood, and laccase production from P. ostreatus CCEF 89 grown on cottonseed hull, corncob, and poplar sawdust ranged from 61.38 ± 4.09 to 748.24 ± 9.53 U/L, 26.12 ± 2.28 to 699.12 ± 44.91 U/L, and 3.32 ± 0.30 to 509.75 ± 15.43 U/L, respectively.…”
Section: Discussionmentioning
confidence: 99%
“…Lignocellulosic biomass, versatile and most abundant natural renewable resources, have attracted more attention and considerable interest due to their abilities to convert into green second-generation energy fuels and valued industrial chemicals via the various bio-treatment process of lignocellulosic biomass (Haldar et al, 2016;Pinar et al, 2017;An et al, 2020b;Gaikwad and Meshram, 2020). Using various lignocellulosic wastes, such as corncob, cottonseed hull, bamboos, coffee shell, and tree leaves, to produce enzymes (especially laccase) had been widely investigated in recent years due to the low-cost and vast amounts of lignocellulosic wastes (Lizardi-Jimenez et al, 2019;Thamvithayakorn et al, 2019;Wang et al, 2019;Agrawal and Verma, 2020;Atilano-Camino et al, 2020;Pinheiro et al, 2020;Xu et al, 2020). Laccase (EC 1.10.3.2, p-benzenediol: oxygen oxidoreductase) belongs to a family of copper oxidases and widely distributes in various higher plants, fungi, bacteria, and some insects (Zhang et al, 2020).…”
Section: Introductionmentioning
confidence: 99%
“…Agroindustrial residues provide substantial, economic, and renewable natural biological resources for large-scale, profitable biofuel production and types of chemical products including industrial biocatalysts (Birhanli and Yesilada 2013;Ikubar et al 2018;Unuofin et al 2019b;Agrawal and Verma 2020). Due to these advantages, more studies have focused on the effects of various lignocellulosic materials on laccase secretion of fungi or bacteria, especially white-rot fungi, in recent years (Simonic et al 2010;Singh et al 2010;Srinivasan et al 2019;Thamvithayakorn et al 2019;Unuofin et al 2019b;Atilano-Camino et al 2020;Shanmugam et al 2020). Thus, sorghum straw, Populus beijingensis, Toona sinensis, and Salix babylonica were used to grow white-rot fungi producing laccase.…”
Section: Evaluation Of the Effect Of Lignocellulosic Biomass On Laccase Activitymentioning
confidence: 99%
“…Agro-and forestry residues, e.g., sugarcane bagasse, grasses, corncob, cottonseed hull, bamboos, etc., are composed of lignin, cellulose, and hemicellulose (Pinheiro et al 2020). The production of enzymes via agro-and forestry residues has attracted widespread attention, especially laccase, due to the wide existence and low price of agro-and forestry residues (Lizardi-Jimenez et al 2019;Palazzolo et al 2019;Srinivasan et al 2019;Thamvithayakorn et al 2019;Agrawal and Verma 2020;Atilano-Camino et al 2020;Pinheiro et al 2020;Xu et al 2020).…”
Section: Introductionmentioning
confidence: 99%
“…White-rot fungi, belonging to basidiomycetes, are recognized as excellent laccases producers, and almost all species of white-rot fungi can secrete laccase to varying degrees (Couto and Toca-Herrera 2007;An et al 2016a,b;Agrawal et al 2018). Among the white-rot fungi, laccase production from the genus Ganoderma, Trametes, Lentinus, and Pleurotus are the most widely studied (Elissetche et al 2007;Guo et al 2017;Jana 2018, 2019;Palazzolo et al 2019;Sadeghian-Abadi et al 2019;Atilano-Camino et al 2020;Han et al 2020).…”
Section: Introductionmentioning
confidence: 99%