Identification of Optimal Culture Conditions for Mycelial Growth and Cultivation of Monkey Head Mushrooms (Hericium erinaceus (Bull.: fr.) Pers)

Date Received: Oct 17, 2018

Date Accepted: Oct 19, 2018

Date Published: Oct 19, 2018

Views

6486

Download

1163

Section:

ENGINEERING AND TECHNOLOGY

How to Cite:

Nguyen, B. T., Ngo, N., Le, V., Nguyen, L., Tran, A., & Nguyen, L. H. (2018). Identification of Optimal Culture Conditions for Mycelial Growth and Cultivation of Monkey Head Mushrooms (Hericium erinaceus (Bull.: fr.) Pers). Vietnam Journal of Agricultural Sciences, 1(2), 117–126. https://doi.org/10.31817/vjas.2018.1.2.01

Identification of Optimal Culture Conditions for Mycelial Growth and Cultivation of Monkey Head Mushrooms (Hericium erinaceus (Bull.: fr.) Pers)

Bich Thuy Thi Nguyen (*) 1 , Nghien Xuan Ngo 1 , Ve Van Le 2 , Luyen Thi Nguyen 1 , Anh Dong Tran 1   , Lam Hai Thi Nguyen 1

  • Corresponding author: ntbthuy.cnsh@vnua.edu.vn
  • 1 Faculty of Biotechnology, Vietnam National University of Agriculture, Hanoi 131000, Vietnam
  • 2 Department of Bioactive Material Sciences, Chonbuk National University, Jeonju 54896, Republic of Korea
  • Keywords

    Monkey head mushroom, mycelium, media, fruiting bodies

    Abstract


    Monkey head mushrooms (Hericium erinaceus (Bull.: Fr.) Pers) have been broadly cultivated and widely consumed as traditional medicinal herbs as well as functional food in the Orient for several hundred years of history. The identification of optimal culture conditions for mycelium growth and fruiting body formation is one of the most important steps in cultivation of mushroom. The aim of this study was to investigate the optimal culture conditions including pH level, temperature, media and substrate mixtures for the mycelium growth  and cultivation of Hericium erinaceus strain He-2. Results of the study revealed that the optimal conditions for mycelial growth were observed at 25 ± 1oC and pH 8.0. H. erinaceus was cultured on five different types of culture media: Czapek, Raper, PGA (potato, glucose, agar), PGA supplemented with rice bran, and PGA supplemented with fresh mushrooms. PGA supplemented with fresh mushrooms was found to be the best medium for the growth of mycelia. A media containing 99% grain of rice + 1% CaCO3 was considered as the best mother spawn media for mycelial growth. Among various culture media, the highest mycelium growth rate and biological efficiency of H. erinaceus were obtained when grown on a treatment of 87% sawdust + 4% corn bran + 8% rice bran + 1% CaCO3.

    References

    Chyi W. J., Hui H. S., Teng W. J., Shao C. K. and Chen C. Y. (2005). Hypoglycemic effect of extract of Hericiumerinaceus. Journal of the Science of Food and Agriculture. Vol 85 (4). pp. 641-646.

    Cohen N., Cohen J., Asatiani M. D., Varshney V. K., Yu H. T. and Yang Y. C. (2014). Chemical composition and nutritional and medicinal value of fruit bodies and submerged cultured mycelia of culinary-medicinal higher Basidiomycetes mushrooms. International Journal of Medicinal Mushrooms. Vol 16. pp. 273-291.

    Colauto N. B., Aizono P. M., Carvalho L. R. M., Paccola-Meirelles L. D. and Linde G. A, (2008). Temperature and pH conditions for mycelial growth of Agaricus brasiliensis on axenic cultivation. Semina: Ciencias Agrarias. Vol 29 (2). pp. 307-312.

    Elisashvili V. (2012). Submerged cultivation of medicinal mushrooms: bioprocesses and products (Review). International Journal of Medicinal Mushrooms. Vol 14. pp. 211-239.

    Grigansky A. Ph., Solomko E. F. and Kirchhoff B. (1999). Mycelial Growth of Medicinal Mushroom Hericium erinaceus (Bull.: Fr.) Pers. in Pure Culture international Journal of Medicinal Mushrooms. Vol 1 (1). pp. 81-87.

    Gue S. C., Woo S. J, Hyo C. J., Kwan C. C, Heui Y. C., Tae C. W. and Hyun H. S. (2006). Macrophage activation and nitric oxide production by water soluble component of Hericiumerinaceum. International Immunopharmacology. Vol 6 (8). pp. 1363-1369.

    Gyu K. H., Gu P. H., Ho P. S., Won C. C., Hwan K. S. and Mok P. W. (2005). Comparative study of mycelial growth and basidomata formation in seven different species of the edible mushroom genus Hericium. Bioresource-Technology. Vol 96 (13). pp. 1439-1444.

    Imtiaj A., Jayasinghe C., Lee G. W, Shim M. J., Rho H. S., Lee H. S., Hur H., Lee M. W., Lee U. Y. and Lee T. S. (2008). Vegetative Growth of Four Strains of Hericiumerinaceus collected from different habitats. Mycobiology. Vol 36 (2). pp. 88-92.

    Khan M. W., Ali M. A., Khan N. A., Khan M. A., Rehman A and Javed N. (2013). Effect of different levels of lime and pH on mycelial growth and production efficiency of oyster mushroom (PLEUROTUS spp.). Pakistan Journal of Botany. Vol 45 (1). pp. 297-302.

    Kirk P. M., Cannon P. F., Minter D. W. and Stalpers J. A. (2008). Dictionary of the fungi. 10th ed. Wallingford: CAB International. pp. 313.

    Lee K. F., Chen J. H., Teng C. C., Shen C. H., Hsieh M. C., Lu C. C., Lee K. C., Lee L. Y., Chen W. P., Chen C. C., Huang W. S. and Kuo H. C. (2014). Protective effects of Hericiumerinaceus mycelium and its isolated erinacine A against Ischemia-Injury-Induced Neuronal Cell Death via the Inhibition of iNOS/p38 MAPK and Nitrotyrosine. International Journal of Molecular Sciences. Vol 15. pp. 15073-15089.

    Miles P. G. and Chang S. T. (1997). Mushroom biology: concise basics and current developments. Singapore: World Scientific Press. pp. 1-9.

    Siwulski M. and Sobieralski K. (2005). Influence of some growing substrate additives on the Hericiumerinaceum (Bull., Fr.) pers. yield. Sodinikyste Darzininkyste. Vol 24 (3). pp. 2250-2253.

    Sokół S., Golak-Siwulska I., Sobieralski K., Siwulski M. and Górka K. (2015). Biology, cultivation, and medicinal functions of the mushroom Hericiumerinaceum. Acta Mycologica. Vol 50 (2). pp. 1069.

    Wong K. H., Kanagasabapathy G., Bakar R., Phan C. W. and Sabaratnam V. (2015). Restoration of sensory dysfunction following peripheral nerve injury by the polysaccharide from culinary and medicinal mushroom, Hericium erinaceus (Bull.: Fr.) Pers. through its neuroregenerative action.Food Science and Technology (Campinas). Vol 35 (4). pp. 712-721.

    Wong K. H., Kanagasabapathy G., Naidu M., David P. and Sabaratnam V. (2016). Hericium Erinaceus (Bull.: Fr.) Pers., A Medicinal Mushroom, Activates Peripheral Nerve Regeneration. Chinese Journal of Intergrative Medicine. Vol 22 (10). pp. 759-767.

    Wong K. H., Naidu M., David R. P., Bakar R. and Sabaratnam V. (2012). Neuroregenerative potential of lion’s mane mushroom, Hericium erinaceus (Bull.: Fr.) Pers. (higher basidiomycetes), in the treatment of peripheral nerve injury. International Journal of Medicinal Mushrooms. Vol 14 (5). pp. 427-446.