沉水培养基中新产酸酶内生真菌的分离与特征描述

Sabiha Naz, Shailedra Gupta, Tanushree Chatterjee
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摘要

这项研究的目的是从一种内生真菌中分离和鉴定新的漆酶源,这种漆酶可作为一种武器来清除废水和水生生境中的污染物。研究人员从印度恰蒂斯加尔邦 "雷普尔 "地区不同地点的造纸厂废水中的卡洛托比斯(Calotropis gigantean)植物叶片中进行了分离。由于愈创木酚在马铃薯葡萄糖琼脂上的氧化作用,获得的阳性分离物在真菌菌落下方和周围呈深褐色。通过内部转录间隔(ITS)和BLAST 分析,确定了一种能产生漆酶的强内生真菌分离物为土曲霉(Aspergillus turcosus)。经过优化,在以下条件下获得了最大的漆酶产量:培养基(Czapeck Dox Broth)、碳源(蔗糖)、氮源(硝酸钠)、pH(6)、活化剂单宁酸(20 mM)、培养期(35°C)和持续时间(8 天),3 个(8 mM 发酵)圆盘接种体。在浸没优化条件下,最大漆酶活性为 65 U mL-1,是未优化条件下的两倍多。经 SDS-PAGE 测定,纯漆酶单体的分子质量为 66 kDa。用土茯苓漆酶处理五天后,合成染料酚红、溴酚蓝、甲基橙和刚果红会失去颜色。在规定的处理时间内,煤炭和纺织污水中化学需氧量的清除率分别为 59.46% 和 48.57%,酚类污染物的清除率分别为 80% 和 22.3%。成功分离出了一种新型强效漆酶生产内生真菌,它可作为漆酶生产源用于各种工业应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Isolation and Characterization of Newly Laccase-Producing Endophytic Fungi in Submerged Cultures from Calotropis gigantean Plant Leaves
The aim of the study to isolate and identify new laccase sources from an endophytic fungal source that could be used as a weapon foreliminating and detoxifying contaminants found in wastewater and aquatic habitats. Isolation was done from Calotropis gigantean plantleaves from different locations of paper mill effluents from the “Raipur” region of Chhattisgarh, India. Positive isolates were obtainedwith a dark brown color below and surrounding the fungal colony due to guaiacol oxidation on potato dextrose agar. One potentendophytic fungal isolate that produces laccase is identified as Aspergillus turcosus by using the internal transcribed spacer (ITS) andBLAST analysis. After optimization, maximum laccase production was obtained at the following conditions: medium (Czapeck Dox Broth),carbon source (sucrose), nitrogen source (sodium nitrate), pH (6), activator tannic acid (20 mM), incubation period (35°C) and duration(8 days) with 3 (8 mM fermentation) disc inoculums. The maximum laccase activity was obtained at 65 U mL-1 in submerged optimizedconditions, which was more than two fold compared to the unoptimized conditions. As estimated by SDS-PAGE, The molecular massof the monomer of pure laccase was determined to be 66 kDa. After five days of treatment with the laccase of A. turcosus, the syntheticdyes phenol red, bromophenol blue, methyl orange, and Congo red lose their colour. Clearance rates for chemical oxygen demand were59.46 and 48.57%, and phenolic contaminants were 80 and 22.3% in coal and textile effluents during the required treatment periods,respectively. One novel and potent laccase-producing endophytic fungus was successfully isolated, which can be utilized as a laccaseproducingsource for various industrial applications.
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