Pulsed Light Mutagenesis of the Willow Bracket Mushroom, Phellinus igniarius (Agaricomycetes), for Enhanced Production of Flavonoids, Laccase, and Fermentation Biomass.

IF 1.4 4区生物学 Q4 MYCOLOGY

International journal of medicinal mushrooms Pub Date : 2022-01-01 DOI:10.1615/IntJMedMushrooms.2022044961

Yating Dong, Haile Ma, Moses Kwaku Golly, Wenjuan Qu, Bei Wang, Cunshan Zhou, Xiaofei Ye, Henan Zhang, Bingcheng Gan, Junjie Yan, Xing Han, Jin Zhao, Rencai Feng, Renyun Miao, Zhiyuan Zhang

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引用次数: 1

Abstract

Phellinus igniarius is a medicinal fungus possessing potent therapeutic activity due to the polysaccharides, polyphenols, flavonoids, and other secondary metabolites they contain. Laccases are crucial enzymes involved in lignin degradation in Ph. igniarius and offer great potential to accomplish several bioprocesses. To generate Ph. igniarius strains with high biomass, flavonoid, and laccase activity, we used pulsed light (PL) technology for mutagenesis of Ph. igniarius protoplasts and screened for mutants with high biomass, flavonoid, and laccase activity. At the irradiation power of 100 J, treated distance 8.5 cm, irradiation frequency was 0.5 s/time, three times treatments, after five generations of selection, three mutants were obtained with higher biomass production. Compared with control, the mycelium biomass and the flavonoid production of the screened mutant strain QB72 were increased 20.87% and 53.51%, respectively. The total amount of the accumulated extracellular laccase of the QB72 in the first 6 and 8 days increased 23.38% and 22.37% respectively, and over the total 16 days it increased 9.62%. In addition, RAPD analysis results indicated that the genetic materials of the mutant QB72 were altered. PL mutagenesis method has great potential for developing strains, especially Phellinus.

查看原文本刊更多论文

利用脉冲光诱变柳条菇(Phellinus igniarius)提高黄酮、漆酶和发酵生物量的研究。

由于其所含的多糖、多酚、黄酮类化合物和其他次生代谢物，黄菌是一种具有有效治疗活性的药用真菌。漆酶是Ph. igniarius中参与木质素降解的关键酶，具有完成多种生物过程的巨大潜力。为了获得高生物量、高类黄酮和高漆酶活性菌株，我们采用脉冲光诱变技术对Ph. igniarius原生质体进行诱变，筛选出高生物量、高类黄酮和高漆酶活性的突变体。辐照功率为100 J，辐照距离为8.5 cm，辐照频率为0.5 s/次，处理3次，经过5代选择，获得3个生物量较高的突变体。与对照相比，筛选的突变菌株QB72菌丝体生物量和类黄酮产量分别提高了20.87%和53.51%。QB72细胞外漆酶积累总量在前6天和8 d分别增加了23.38%和22.37%，16 d累计增加了9.62%。RAPD分析结果表明，突变体QB72的遗传物质发生了改变。PL诱变方法在菌株的开发中具有很大的潜力，特别是在茶树菌的开发中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International journal of medicinal mushrooms 医学-药学

CiteScore

2.60

自引率

16.70%

发文量

审稿时长

6-12 weeks

期刊介绍： The rapid growth of interest in medicinal mushrooms research is matched by the large number of disparate groups that currently publish in a wide range of publications. The International Journal of Medicinal Mushrooms is the one source of information that will draw together all aspects of this exciting and expanding field - a source that will keep you up to date with the latest issues and practice. The International Journal of Medicinal Mushrooms published original research articles and critical reviews on a broad range of subjects pertaining to medicinal mushrooms, including systematics, nomenclature, taxonomy, morphology, medicinal value, biotechnology, and much more.