基于物理诱导自溶的黑曲霉废菌丝综合利用:壳聚糖和替代氮源的制备

IF 5.8 2区 生物学 Q1 AGRICULTURAL ENGINEERING Biomass & Bioenergy Pub Date : 2024-11-11 DOI:10.1016/j.biombioe.2024.107477
Qinfeng Guo , Yanting Xu , Zijun Liu , Dandan Zhang , Zhilong Xiu , Yuesheng Dong
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引用次数: 0

摘要

在柠檬酸的工业发酵过程中,会产生大量的黑曲霉菌丝体(MAN),仅中国的年产量就达 2000 万吨。废弃黑曲霉菌丝体的处理是一项重大挑战,也意味着错失了资源回收的良机。本研究采用物理诱导自溶(PIA)技术利用芒柄菌蛋白质和壳聚糖。结果表明,上清液中释放出丰富的可溶性蛋白质和糖类,而细胞碎片可用于制备壳聚糖。在优化的自溶条件下,MAN 蛋白的总利用率为 78.7%,细胞碎片中甲壳素的保留率为 93.8%,优于其他技术。在更大规模的实验中,这些结果始终具有可重复性。由于 PIA 能有效去除细胞碎片中的蛋白质,因此用细胞碎片制备壳聚糖无需酸处理,碱利用率降低了 50-67%。总糖利用率(包括自溶物和制备的壳聚糖中的可溶性糖含量)为 MAN 总糖的 75.42%。此外,自溶物还被证明是微生物生产 2,3-丁二醇和柠檬酸的发酵培养基中的替代氮源,其浓度与传统氮源相当或更高。因此,我们的研究结果不仅实现了较高的成分利用率,还促进了环境友好型壳聚糖的制备,表明了将废弃菌丝转化为宝贵资源的创新方法的潜力,并推动工业朝着更高效的方向发展。
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Comprehensive utilization of Aspergillus niger waste mycelium based on physically induced autolysis: Preparation of chitosan and alternative nitrogen source
In industrial fermentation of citric acid, vast quantities of mycelium from Aspergillus niger (MAN) are produced, with an annual output of 20 million tons in China alone. The disposal of waste MAN poses a significant challenge and signifies a missed opportunity for resource recovery. In this study, physically induced autolysis (PIA) was employed to utilize the MAN proteins and chitosan. The results indicated abundant soluble proteins and sugars were released into the supernatant, while the cell fragments can be used to prepare chitosan. Under optimized autolytic conditions, the rate of total protein utilization of MAN was 78.7 %, and the rate of reserved chitin in the cell fragment was 93.8 %, outperforming other techniques. These findings were consistently reproducible in larger-scale experiments. Chitosan was prepared from cell fragments that eliminated the need for acid treatment and reduced alkali utilization by 50–67 %, thanks to PIA's effective removal of proteins from cell fragments. The rate of total sugar utilization, including both the content of the soluble sugars from autolysate and prepared chitosan, was 75.42 % of the total sugar of MAN. Additionally, the autolysate was proved to be an alternative nitrogen source in the fermentation media for microbial production of 2, 3-butanediol and citric acid, yielding concentrations comparable or superior to traditional sources. Thus, our findings not only achieved high component utilization rates but also facilitated environmentally friendly chitosan preparation, indicating the potential for innovative approaches to convert waste mycelium into valuable resources and advance the industry towards more efficient practices.
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来源期刊
Biomass & Bioenergy
Biomass & Bioenergy 工程技术-能源与燃料
CiteScore
11.50
自引率
3.30%
发文量
258
审稿时长
60 days
期刊介绍: Biomass & Bioenergy is an international journal publishing original research papers and short communications, review articles and case studies on biological resources, chemical and biological processes, and biomass products for new renewable sources of energy and materials. The scope of the journal extends to the environmental, management and economic aspects of biomass and bioenergy. Key areas covered by the journal: • Biomass: sources, energy crop production processes, genetic improvements, composition. Please note that research on these biomass subjects must be linked directly to bioenergy generation. • Biological Residues: residues/rests from agricultural production, forestry and plantations (palm, sugar etc), processing industries, and municipal sources (MSW). Papers on the use of biomass residues through innovative processes/technological novelty and/or consideration of feedstock/system sustainability (or unsustainability) are welcomed. However waste treatment processes and pollution control or mitigation which are only tangentially related to bioenergy are not in the scope of the journal, as they are more suited to publications in the environmental arena. Papers that describe conventional waste streams (ie well described in existing literature) that do not empirically address ''new'' added value from the process are not suitable for submission to the journal. • Bioenergy Processes: fermentations, thermochemical conversions, liquid and gaseous fuels, and petrochemical substitutes • Bioenergy Utilization: direct combustion, gasification, electricity production, chemical processes, and by-product remediation • Biomass and the Environment: carbon cycle, the net energy efficiency of bioenergy systems, assessment of sustainability, and biodiversity issues.
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