Absorption of polycyclic aromatic hydrocarbons onto depolymerized lignocellulosic wastes by Streptomyces viridosporus T7A

Ana Caroline de Oliveira , Ana Aguilar-Galvez , David Campos , Hervé Rogez
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引用次数: 3

Abstract

Preparations containing mainly lignified cell walls are effective adsorbents of hydrophobic carcinogens in vitro. Therefore, this innovative study aimed to structurally modify lignocellulosic materials in an enzymatic and environmentally friendly manner to improve the efficiency of sequestering three polycyclic aromatic hydrocarbons (PAHs) by adsorption. Submerged fermentations were performed to produce lignin peroxidase (LiP) in medium supplemented with three different lignocellulosic wastes (0.5% (w/v); açai seed, sugarcane bagasse, and seed coat of Brazil nut), followed by posterior hydrolysis of these three residues and subsequent adsorption to generate hydrolysate wastes. Among the three wastes, the açai seed was the most favourable carbon source for LiP production because a high enzyme activity peak was quickly achieved. Sugarcane bagasse residue was most readily hydrolysed (82.44%), and it had the highest increase in adsorption of the three PAHs tested dissolved in olive oil, from 15.67% of benzo[a]pyrene adsorbed before treatment to 39.45% after treatment. The depolymerisation of wastes may have increased binding sites for olive oil favouring the adsorption of PAHs on hydrolysed residues.

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毒孢链霉菌T7A对解聚木质纤维素废弃物多环芳烃的吸附研究
以木质化细胞壁为主的制剂是疏水致癌物的有效体外吸附剂。因此,本创新研究旨在通过酶和环境友好的方式对木质纤维素材料进行结构修饰,以提高吸附三种多环芳烃(PAHs)的效率。在培养基中添加三种不同的木质纤维素废弃物(0.5% (w/v);甘蔗种子、甘蔗渣和巴西坚果种皮),然后对这三种残留物进行后水解,随后吸附产生水解产物废物。在这三种废弃物中,阿帕拉泰种子是最有利的碳源,因为它的酶活性峰值很快就能达到。蔗渣最易水解(82.44%),对橄榄油中溶解的三种多环芳烃的吸附量增幅最大,对苯并[a]芘的吸附量由处理前的15.67%增至处理后的39.45%。废物的解聚合可能增加了橄榄油的结合位点,有利于在水解残基上吸附多环芳烃。
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