{"title":"Urea-Induced Enhancement of Hypocrellin A Synthesis in Shiraia bambusicola GDMCC 60438: Strategies and Mechanisms","authors":"Yanbo Tang, Yongdi Wen, Xiang Zhang, Qian Gao, Fuqiang Yu, Zhenqiang Wu, Xiaofei Tian","doi":"10.3390/fermentation10080381","DOIUrl":null,"url":null,"abstract":"Hypocrellin A (HA) is a valuable pigment with promising applications in biotechnology and pharmaceuticals. The submerged cultivation of Shiraia bambusicola offers a strategic opportunity to enhance HA production. This study investigates the regulatory mechanisms for HA biosynthesis through urea supplementation and presents a strategy to increase HA yield. In the absence of urea, S. bambusicola (GDMCC 60438) does not synthesize HA. However, the addition of 40 g/L urea 12 h into the fermentation process results in a final HA production of 46.7 ± 8.2 mg/L. Morphological analysis reveals an optimized environment for HA synthesis, characterized by a densely intertwined and reticular hyphal structure with minute pores. RNA sequencing shows significant upregulation of genes involved in DNA repair, recombination, and metabolism. Conversely, genes related to cellular homeostasis, cell-wall chitin, and amino polysaccharide metabolism are downregulated. Urea supplementation facilitates the upregulation of amino acid metabolism and the cysteine desulfurase gene, enhancing acetyl-CoA accumulation within the mycelium and providing the necessary precursor materials for HA synthesis. Our work underscores the pivotal role of urea in regulating HA biosynthesis and proposes a practical approach to enhance HA production. The findings contribute novel insights to the fields of biotechnology for pharmaceuticals.","PeriodicalId":12379,"journal":{"name":"Fermentation","volume":"41 24","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Fermentation","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.3390/fermentation10080381","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Hypocrellin A (HA) is a valuable pigment with promising applications in biotechnology and pharmaceuticals. The submerged cultivation of Shiraia bambusicola offers a strategic opportunity to enhance HA production. This study investigates the regulatory mechanisms for HA biosynthesis through urea supplementation and presents a strategy to increase HA yield. In the absence of urea, S. bambusicola (GDMCC 60438) does not synthesize HA. However, the addition of 40 g/L urea 12 h into the fermentation process results in a final HA production of 46.7 ± 8.2 mg/L. Morphological analysis reveals an optimized environment for HA synthesis, characterized by a densely intertwined and reticular hyphal structure with minute pores. RNA sequencing shows significant upregulation of genes involved in DNA repair, recombination, and metabolism. Conversely, genes related to cellular homeostasis, cell-wall chitin, and amino polysaccharide metabolism are downregulated. Urea supplementation facilitates the upregulation of amino acid metabolism and the cysteine desulfurase gene, enhancing acetyl-CoA accumulation within the mycelium and providing the necessary precursor materials for HA synthesis. Our work underscores the pivotal role of urea in regulating HA biosynthesis and proposes a practical approach to enhance HA production. The findings contribute novel insights to the fields of biotechnology for pharmaceuticals.
尿素诱导的白毛茛属植物 GDMCC 60438 中 Hypocrellin A 合成的增强:策略与机制
Hypocrellin A(HA)是一种宝贵的色素,在生物技术和制药领域有着广阔的应用前景。浸没栽培白千层(Shiraia bambusicola)为提高 HA 产量提供了战略机遇。本研究探讨了通过补充尿素促进 HA 生物合成的调控机制,并提出了提高 HA 产量的策略。在没有尿素的情况下,S. bambusicola(GDMCC 60438)不会合成 HA。然而,在发酵过程中添加 40 克/升尿素 12 小时后,HA 的最终产量为 46.7 ± 8.2 毫克/升。形态学分析表明,HA 合成的最佳环境是密集交织的网状菌丝结构和微孔。RNA 测序显示,涉及 DNA 修复、重组和新陈代谢的基因明显上调。相反,与细胞稳态、细胞壁几丁质和氨基多糖代谢有关的基因则出现下调。尿素的补充有助于氨基酸代谢和半胱氨酸脱硫酶基因的上调,增加菌丝体内乙酰-CoA的积累,为HA的合成提供必要的前体物质。我们的研究强调了尿素在调节 HA 生物合成中的关键作用,并提出了一种提高 HA 产量的实用方法。这些发现为制药生物技术领域提供了新的见解。