通过调节光谱辐照度和盐度增加微藻 Golenkinia brevispicula(叶绿藻)中多不饱和脂肪酸和类胡萝卜素的积累。

IF 3.5 2区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biotechnology and Bioengineering Pub Date : 2024-08-25 DOI:10.1002/bit.28831
T. A. Rearte, P. S. M. Celis-Pla, R. Abdala-Díaz, P. Castro-Varela, S. N. Marsili, C. García, M. C. Cerón-García, F. L. Figueroa
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引用次数: 0

摘要

微藻生物技术为可持续生产多种可再生生物活性化合物提供了一个前景广阔的平台。与其他微生物生物工艺的主要区别在于光在培养过程中发挥的关键作用,因为光是控制代谢过程的环境信息源。因此,我们可以利用这些标准来设计一种生物工艺,旨在通过控制光照来刺激目标分子的积累。我们研究了在预应力和盐度胁迫条件下,不同光谱辐照(特别是高强度的窄黄色光谱 PAR,辅以低强度的红色、蓝色和紫外线 A 单色辐射)对 Golenkinia brevispicula FAUBA-3 的生化和光生物反应的影响。高光照强度(HL)和盐度胁迫分别通过最大量子产率(Fv/Fm)和非光化学淬灭(NPQmax)的降低影响了光合作用活性和光保护机制。在盐度胁迫下,HL 处理与适当剂量的 UV-A 辐射相结合,诱导出最高的类胡萝卜素含量(2.75 毫克克干重 [DW]-1),主要由叶黄素和 β-胡萝卜素组成,以及最高的脂质积累(35.3% DW),其中多不饱和脂肪酸含量最高(α-亚麻酸(C18:3)和亚油酸(C18:2))。我们的研究可为 G. brevispicula 高价值代谢物的商业室内生产战略提供指导。
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Increase in polyunsaturated fatty acids and carotenoid accumulation in the microalga Golenkinia brevispicula (Chlorophyceae) by manipulating spectral irradiance and salinity

Microalgal biotechnology offers a promising platform for the sustainable production of diverse renewable bioactive compounds. The key distinction from other microbial bioprocesses lies in the critical role that light plays in cultures, as it serves as a source of environmental information to control metabolic processes. Therefore, we can use these criteria to design a bioprocess that aims to stimulate the accumulation of target molecules by controlling light exposure. We study the effect on biochemical and photobiological responses of Golenkinia brevispicula FAUBA-3 to the exposition of different spectral irradiances (specifically, high-fluence PAR of narrow yellow spectrum complemented with low intensity of monochromatic radiations of red, blue, and UV-A) under prestress and salinity stress conditions. High light (HL) intensity coupled to salinity stress affected the photosynthetic activity and photoprotection mechanisms as shown by maximal quantum yield (Fv/Fm) and non-photochemical quenching (NPQmax) reduction, respectively. HL treatments combined with the proper dose of UV-A radiation under salinity stress induced the highest carotenoid content (2.75 mg g dry weight [DW]1) composed mainly of lutein and β-carotene, and the highest lipid accumulation (35.3% DW) with the highest polyunsaturated fatty acid content (alpha-linolenic acid (C18:3) and linoleic acid (C18:2)). Our study can guide the strategies for commercial indoor production of G. brevispicula for high-value metabolites.

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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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