Heng Zhao, Xiao Ju, Yong Nie, Timothy Y James, Xiao-Yong Liu
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引用次数: 0
摘要
根瘤菌(Rhizopus arrhizus)是一种嗜咽性霉菌(Mucorales),有时与临床和工业有关,分布于世界各地,这表明它可以吸收多种基质。在此,研究人员使用 Biolog FF 微型平板对 69 株 R. arrhizus 菌株进行了研究,以了解其利用 95 种碳和氮基质的情况。研究表明,大多数 R. arrhizus 菌株在平均井色发展(AWCD)和基质丰富度(SR)方面相似。然而,有 13 个菌株在主成分分析、热图、AWCD 和 SR 分析中是独特的,这可能意味着 R. arrhizus 的生态位分化。R. arrhizus 能利用所有 95 种碳和氮底物,这与代谢多样性的假设一致。它偏好醇类底物,最常利用的底物有 7 种,其中 N-乙酰-D-半乳糖胺和 L-苯丙氨酸位居前列。八种底物,尤其是 L-阿拉伯糖和木糖醇,能够促进孢子的产生,并可用于使退化菌株恢复活力。通过对 R. arrhizus 菌株的碳氮同化能力进行表型分析,本研究揭示了特异性内变异的程度,并为估计可能用于工业应用的最佳底物奠定了基础。
High-throughput screening carbon and nitrogen sources to promote growth and sporulation in Rhizopus arrhizus.
Rhizopus arrhizus is a saprotrophic, sometimes clinically- and industrially-relevant mold (Mucorales) and distributed worldwide, suggesting it can assimilate a broad spectrum of substrates. Here, 69 strains of R. arrhizus were investigated by using the Biolog FF MicroPlate for the profiles of utilizing 95 carbon and nitrogen substrates. The study showed that most R. arrhizus strains were similar in average well color development (AWCD) and substrate richness (SR). Nevertheless, 13 strains were unique in principal component analyses, heatmap, AWCD, and SR analyses, which may imply a niche differentiation within R. arrhizus. The species R. arrhizus was able to utilize all the 95 carbon and nitrogen substrates, consistent with the hypothesis of a great metabolic diversity. It possessed a substrate preference of alcohols, and seven substrates were most frequently utilized, with N-acetyl-D-galactosamine and L-phenylalanine ranking at the top of the list. Eight substrates, especially L-arabinose and xylitol, were capable of promoting sporulation and being applied for rejuvenating degenerated strains. By phenotyping R. arrhizus strains in carbon and nitrogen assimilation capacity, this study revealed the extent of intra-specific variability and laid a foundation for estimating optimum substrates that may be useful for industrial applications.
期刊介绍:
AMB Express is a high quality journal that brings together research in the area of Applied and Industrial Microbiology with a particular interest in ''White Biotechnology'' and ''Red Biotechnology''. The emphasis is on processes employing microorganisms, eukaryotic cell cultures or enzymes for the biosynthesis, transformation and degradation of compounds. This includes fine and bulk chemicals, polymeric compounds and enzymes or other proteins. Downstream processes are also considered. Integrated processes combining biochemical and chemical processes are also published.