Browse > Article
http://dx.doi.org/10.14480/JM.2022.20.1.7

Comparative transcriptome analysis of Cordyceps militaris grown on germinated soybean media  

Yoo, Chang-Hyuk (Division of Life Sciences, College of Life Sciences and Bioengineering, Incheon National University)
Choi, Jaehyuk (Division of Life Sciences, College of Life Sciences and Bioengineering, Incheon National University)
Publication Information
Journal of Mushroom / v.20, no.1, 2022 , pp. 7-12 More about this Journal
Abstract
The ascomycete fungus Cordyceps militaris infects lepidopteran insect pupae, forming characteristic fruiting bodies called "Dong Chung Ha Cho" in Korean. They have been used as medicines owing to their anti-allergic, anti-inflammatory, and immune-enhancing effects. This fungus can be grown on the geminated soybeans Rhynchosia nulubilis, which also contains several novel isoflavones. We performed a comparative transcriptome analysis to determine core gene sets or pathways contributing to biologically active products such as isoflavone. Initially, we sequenced 2-week-old fungal cultures on different soybean agar media, where different amounts of water agar were implemented to show different surface topology. We selected 830 upregulated and 188 downregulated genes by comparing linear models of the samples (two-fold change threshold). Gene ontology analysis identified that the "IMP biosynthesis" term was significantly found in the upregulated gene sets. The pathway is involved in the synthesis of cordycepin, the reference chemical for C. militaris. This finding in the transcriptome data is consistent with the previous observation: increased cordycepin concentrations in the C. militaris cultured on germinated soybean.
Keywords
comparative transcriptome analysis; cordycepin; Cordyceps militaris; germinated soybeans;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Itoh R, Saint-Marc C, Chaignepain S, Katahira R, Schmitter JM, Daignan-Fornier B. 2003. The yeast ISN1 (YOR155c) gene encodes a new type of IMP-specific 5'-nucleotidase. BMC Biochem 4: 4.   DOI
2 Paterson RRM. 2008. Cordyceps: A traditional Chinese medicine and another fungal therapeutic biofactory? Phytochemistry 69: 1469-1495.   DOI
3 Romani A, Vignolini P, Galardi C, Aroldi C, Vazzana C, Heimler D. 2003. Polyphenolic content in different plant parts of soy cultivars grown under natural conditions. J Agric Food Chem 51: 5301-5306.   DOI
4 Sung GH, Hywel-Jones NL, Sung JM, Luangsa-ard JJ, Shrestha B, Spatafora JW. 2007. Phylogenetic classification of Cordyceps and the clavicipitaceous fungi. Stud Mycol 57: 5-59.   DOI
5 Won SY, Park EH. 2005. Anti-inflammatory and related pharmacological activities of cultured mycelia and fruiting bodies of Cordyceps militaris. J Ethnopharmacol 96: 555-561.   DOI
6 Yin Y, Yu G, Chen Y, Jiang S, Wang M, Jin Y, Lan X, Liang Y, Sun H. 2012. Genome-wide transcriptome and proteome analysis on different developmental stages of Cordyceps militaris. PloS One 7: e51853.   DOI
7 Han JY, Im J, Choi JN, Lee CH, Park HJ, Park DK, Yun CH, Han SH. 2010. Induction of IL-8 expression by Cordyceps militaris grown on germinated soybeans through lipid rafts formation and signaling pathways via ERK and JNK in A549 cells. J Ethnopharmacol 127: 55-61.   DOI
8 Zhong JJ, Xiao JH. 2009. Secondary metabolites from higher fungi: discovery, bioactivity, and bioproduction. Adv Biochem Eng Biotechnol 113: 79-150.
9 Rottenberg ME, Masocha W, Ferella M, Petitto-Assis F, Goto H, Kristensson K, McCaffrey R, Wigzell H. 2005. Treatment of African trypanosomiasis with cordycepin and adenosine deaminase inhibitors in a mouse model. J Infect Dis 192: 1658-1665.   DOI
10 Zhu D, Hettiarachchy NS, Horax R, Chen P. 2005. Isoflavone contents in germinated soybean seeds. Plant Foods Hum Nutr 60: 147-151.   DOI
11 Cunningham K, Manson W, Spring F, Hutchinson S. 1950. Cordycepin, a metabolic product isolated from cultures of Cordyceps militaris (Linn.) Link. Nature 166: 949-949.
12 Yoshikawa N, Nakamura K, Yamaguchi Y, Kagota S, Shinozuka K, Kunitomo M. 2004. Antitumour activity of cordycepin in mice. Clin Exp Pharmacol Physiol 31: S51-S53.   DOI
13 Ohta Y, Lee JB, Hayashi K, Fujita A, Park DK, Hayashi T. 2007. In vivo anti-influenza virus activity of an immunomodulatory acidic polysaccharide isolated from Cordyceps militaris grown on germinated soybeans. J Agric Food Chem 55: 10194-10199.   DOI
14 Park DK, Choi WS, Park HJ. 2012. Antiallergic activity of novel isoflavone methyl-glycosides from Cordyceps militaris grown on germinated soybeans in antigen-stimulated mast cells. J Agric Food Chem 60: 2309-2315.   DOI
15 Park DK, Park HJ. 2013. Ethanol extract of Cordyceps militaris grown on germinated soybeans attenuates dextran-sodiumsulfate- (DSS-) induced colitis by suppressing the expression of matrix metalloproteinases and inflammatory mediators. Biomed Res Int 2013: 102918.