黑曲霉(B1-D)趋化培养物对模拟和实际氧化应激的生理反应

IF 3.5 2区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Zhonghu Bai, Linda M. Harvey, Brian McNeil
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引用次数: 38

摘要

丝状真菌黑曲霉(B1-D)对模拟氧化应激和实际氧化应激的生理反应,分别添加外源甲萘醌(MD;研究了超氧自由基生成试剂)和富氧空气(25%、50%、75%和100% [v/v])对培养物的作用。监测细胞内超氧阴离子水平和过氧化氢酶(CAT)、超氧化物歧化酶(SOD)、谷胱甘肽过氧化物酶(GPx)等防御酶活性的变化,以及谷胱甘肽和呼吸活性在动态期和新稳态建立时的变化。添加MD的培养反应不同于暴露于富氧条件下的培养反应,因为MD引起细胞内蛋白质水平升高,而富氧引起蛋白质含量降低,特别是在低稀释率下。在稀释率范围内的富氧稳态培养物(大于或等于50%)中发现了出乎意料的低水平超氧化物自由基,这不是由SOD活性升高引起的。在这些条件下,注意到鱼藤酮不敏感/总呼吸的比例增加,表明替代呼吸途径的活性增加。这可能在富氧条件下减少了内源性超氧自由基的产生,但也可能由于替代呼吸途径的非质子泵送性质而降低了ATP的产量。因此,在许多高氧水平的研究中发现的负面培养效应可能不仅仅是由于内源性超氧化物生成的增加,而可能部分是由于培养物中代谢变化的结果,以尽量减少超氧化物的产生。动态培养反应的特点是细胞内超氧阴离子和相关保护酶,特别是SOD的快速升高,这与刚刚描述的适应性反应明显不同。©2003 Wiley期刊公司生物工程学报,2003,19(2):691-701。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Physiological responses of chemostat cultures of Aspergillus niger (B1-D) to simulated and actual oxidative stress

The physiological responses of chemostat cultures of the filamentous fungus, Aspergillus niger (B1-D) to simulated and actual oxidative stress, imposed respectively by addition of exogenous menadione (MD; a superoxide radical generating reagent) and gassing the culture with oxygen enriched air (25%, 50%, 75%, and 100% [v/v]), were examined. Changes in the levels of intracellular superoxide anions and defensive enzyme activities, such as catalase (CAT), superoxide dismutase (SOD), and glutathione peroxidase (GPx), were monitored, together with glutathione and respiratory activity in both the dynamic phase and when a new steady state was established. Culture response to MD addition was distinct from that upon exposure to enriched oxygen conditions, in that MD caused elevated levels of intracellular protein, whereas oxygen enrichment caused reduced protein content, especially at low dilution rates. An unexpectedly low level of superoxide radical was found in oxygen-enriched steady-state cultures (⩾50%) at a range of dilution rates, which was not caused by elevated SOD activity. Under these conditions, it was noted that the ratio of rotenone-insensitive/total respiration increased, suggesting increased activity of the alternative respiratory pathway. This may have had the effect of reducing the endogenous generation of superoxide radicals under oxygen rich conditions, but also may have reduced the ATP yield due to the non–proton-pumping nature of the alternative respiratory pathway. Thus, the negative culture effects noted in many studies at high oxygen levels may not simply be due to elevated endogenous superoxide generation, but could be in part due to the consequences of metabolic changes in the culture that seek to minimize superoxide generation. The dynamic culture response was characterized by rapid elevation of intracellular superoxide anions and associated protective enzymes, especially SOD, and was clearly distinct from the adaptive response just described. © 2003 Wiley Periodicals, Inc. Biotechnol Bioeng 82: 691–701, 2003.

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来源期刊
Biotechnology and Bioengineering
Biotechnology and Bioengineering 工程技术-生物工程与应用微生物
CiteScore
7.90
自引率
5.30%
发文量
280
审稿时长
2.1 months
期刊介绍: Biotechnology & Bioengineering publishes Perspectives, Articles, Reviews, Mini-Reviews, and Communications to the Editor that embrace all aspects of biotechnology. These include: -Enzyme systems and their applications, including enzyme reactors, purification, and applied aspects of protein engineering -Animal-cell biotechnology, including media development -Applied aspects of cellular physiology, metabolism, and energetics -Biocatalysis and applied enzymology, including enzyme reactors, protein engineering, and nanobiotechnology -Biothermodynamics -Biofuels, including biomass and renewable resource engineering -Biomaterials, including delivery systems and materials for tissue engineering -Bioprocess engineering, including kinetics and modeling of biological systems, transport phenomena in bioreactors, bioreactor design, monitoring, and control -Biosensors and instrumentation -Computational and systems biology, including bioinformatics and genomic/proteomic studies -Environmental biotechnology, including biofilms, algal systems, and bioremediation -Metabolic and cellular engineering -Plant-cell biotechnology -Spectroscopic and other analytical techniques for biotechnological applications -Synthetic biology -Tissue engineering, stem-cell bioengineering, regenerative medicine, gene therapy and delivery systems The editors will consider papers for publication based on novelty, their immediate or future impact on biotechnological processes, and their contribution to the advancement of biochemical engineering science. Submission of papers dealing with routine aspects of bioprocessing, description of established equipment, and routine applications of established methodologies (e.g., control strategies, modeling, experimental methods) is discouraged. Theoretical papers will be judged based on the novelty of the approach and their potential impact, or on their novel capability to predict and elucidate experimental observations.
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