Effect of Solid-state Fermentation Parameters on Growth of Interest and Environmental Enzyme Production with Aspergillus niger

IF 0.7 Q4 CHEMISTRY, MULTIDISCIPLINARY
Kayna Hidalgo Zambrano, Carlos Delgado Villafuerte, Ernesto Rosero Delgado
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引用次数: 0

Abstract

Using residual biomass in biological processes is increasingly promoted to alleviate environmental impacts. However, the focus is mainly based on emerging technologies and limited resources, and the conditions of the technologies remain unclear. The objective of this research is to establish the conditions of a solid-state fermentation system (SSF) for the growth of fungal biomass and the production of ligninolytic enzymes of environmental interest using Aspergillus niger. In a screening step, the biomass and lipase enzyme expression of three A. niger strains obtained from different screening sites will be extended. In the second stage, the effect of packing density (ρs) and airflow (vvm) was evaluated through a 23, on the growth of fungal biomass, fiber degradation, and CO2 generation in a lipid-contaminated SSF system. The generation of biomass and the concentration of specific enzymatic activity (U/L) of lipase present a correlation for all the strains evaluated. It was estimated that the A. niger strain AN19bc isolated from sugarcane bagasse presents the highest accumulation of biomass and concentration of specific enzyme activity of lipase (0.027 U/L) after nine days. The most appropriate conditions for the production of fungal biomass of the AN19bc strain in an SSF system are presented with an airflow of 33.33 vvm and packing density ρs = 360 kg Mss/m3, levels with which Yx/s= 0.91 is reached. After the process, the solid support used in the SSF presents a change in composition, with the fiber being the component that suffers a considerable degradation of 78.70%.
固态发酵参数对黑曲霉生长和环境酶生产的影响
为减轻对环境的影响,在生物处理过程中使用残余生物质的做法日益得到推广。然而,目前的重点主要是基于新兴技术和有限的资源,技术条件仍不明确。本研究的目的是建立固态发酵系统(SSF)的条件,利用黑曲霉生长真菌生物质并生产对环境有意义的木质素分解酶。在筛选步骤中,将扩大从不同筛选地点获得的三种黑曲霉菌株的生物量和脂肪酶表达量。在第二阶段,通过 23 项实验评估了堆积密度(ρs)和气流(vvm)对脂质污染 SSF 系统中真菌生物量的生长、纤维降解和二氧化碳生成的影响。生物量的产生和脂肪酶的特定酶活性(U/L)浓度对所有被评估的菌株都有相关性。据估计,从甘蔗渣中分离出来的黑曲霉菌株 AN19bc 在九天后的生物量积累和脂肪酶的特定酶活性浓度(0.027 U/L)最高。在 SSF 系统中生产 AN19bc 菌株真菌生物量的最合适条件是气流 33.33 vvm 和堆积密度 ρs = 360 kg Mss/m3,Yx/s= 0.91。工艺结束后,固相萃取器中使用的固体支持物的成分发生了变化,其中纤维的降解率高达 78.70%。
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来源期刊
Orbital: The Electronic Journal of Chemistry
Orbital: The Electronic Journal of Chemistry CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
1.10
自引率
0.00%
发文量
25
审稿时长
10 weeks
期刊介绍: Orbital: The Electronic Journal of Chemistry is a quarterly scientific journal published by the Institute of Chemistry of the Universidade Federal de Mato Grosso do Sul, Brazil. Original contributions (in English) are welcome, which focus on all areas of Chemistry and their interfaces with Pharmacy, Biology, and Physics. Neither authors nor readers have to pay fees. The journal has an editorial team of scientists drawn from regions throughout Brazil and world, ensuring high standards for the texts published. The following categories are available for contributions: 1. Full papers 2. Reviews 3. Papers on Education 4. History of Chemistry 5. Short communications 6. Technical notes 7. Letters to the Editor The Orbital journal also publishes a number of special issues in addition to the regular ones. The central objectives of Orbital are threefold: (i) to provide the general scientific community (at regional, Brazilian, and worldwide levels) with a formal channel for the communication and dissemination of the Chemistry-related literature output by publishing original papers based on solid research and by reporting contributions which further knowledge in the field; (ii) to provide the community with open, free access to the full content of the journal, and (iii) to constitute a valuable channel for the dissemination of Chemistry-related investigations.
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