Transcriptomic analysis of the metabolic characteristics of Aspergillus oryzae during the fermentation of doenjang-meju, a traditional Korean fermented soybean brick
Dong Min Han, Ju Hye Baek, Dae Gyu Choi, Che Ok Jeon
Abstract
To investigate the fermentative traits of Aspergillus oryzae in doenjang-meju, a traditional Korean fermented soybean brick, we prepared doenjang-meju bricks inoculated with both A. oryzae and Bacillus velezensis ––recognized as crucial microbes in doenjang-meju fermentation, and then the transcriptomes of A. oryzae were analyzed throughout the entire fermentation period. The transcriptomic analysis of carbohydrate-active enzyme (CAZy) genes revealed that A. oryzae exhibited robust expression of CAZy genes involved in the decomposition of various carbohydrates, particularly cellulose, starch, and hemicellulose, indicating the active breakdown of soybean carbohydrates by A. oryzae during fermentation. Furthermore, KEGG analysis, metabolic pathway reconstruction, and their transcriptomic analysis provided a comprehensive overview of the decomposition patterns of various carbohydrates, lipids, and proteins and the metabolic features of various carbon compounds during fermentation. Additionally, the transcriptomic analysis of biosynthetic gene clusters indicated the potential production of various secondary metabolites by A. oryzae during fermentation. Genes related to carbohydrate and carbon compound metabolisms and secondary metabolite biosynthesis displayed unique and different transcriptional expression patterns depending on the specific gene and fermentation stage. Overall, our findings provide comprehensive insights into the metabolic characteristics of A. oryzae , thus contributing to our understanding of soybean fermentation. • The metabolism of A. oryzae during doenjang-meju fermentation was investigated. • Transcriptional expression of CAZy genes and biosynthesis gene clusters was examined. • Metabolic pathway reconstruction and transcriptional analysis were conducted. • A. oryzae produces diverse secondary metabolites during fermentation. • This study offers comprehensive insights into the metabolic traits of A. oryzae.