Mycobiology

The Korean Society of Mycology (한국균학회)
권호 표지
DOI QR코드

DOI QR Code

Cultural Characteristics and Log-Mediated Cultivation of the Medicinal Mushroom, Phellinus linteus

  • Hur, Hyun (Department of Biology, Dongguk University)
  • Published : 2008.06.30
Download PDF
⟨ Previous Next ⟩

Abstract

The optimal conditions for mycelial growth of Phellinus linteus ATCC 26710 were determined to be a log length of 20 cm, temperature of $30^{\circ}C$ and pH of 6.0. Mycelial growth was excellent on the mushroom complete medium, and was optimal when sucrose, man nose and glucose were supplied as carbon sources. Potassium nitrate and sodium nitrate as nitrogen sources supported good mycelial growth. To evaluate P. linteus mycelial colonization on logs, sterilized short log inoculation, drilling inoculation and log-end sandwich inoculation techniques were used. Only sterilized short log inoculation produced good mycelial colonization. Initial mycelial growth and full mycelial colonization were best on 20 cm logs having 42% moisture content. The initial mycelial growth of P. linteus was accelerated over 12hr of sterilization. Basidiocarp formation was optimal using a burying method of logs after $5{\sim}6$ months, and fruiting body formation was superior in cultivation house conditions of $31{\sim}35^{\circ}C$ and in excess of 96% relative humidity.

Keywords

References

  1. Berkeley, M. J. and Curtis, M. A. 1860. Characteristics of new fungi collected in the North Pacific exploring expedition by charles wright. Proc. Amer. Acad. Arts (Boston) 4:122
  2. Chen, S. Y. and Chen, H. Y. 2000. Collection of mushroom prescriptions. Shanghai Science and Technology Press. pp. 133-138
  3. Chi, J. H., Ha, T. M., Kim, Y. H. and Rho, T. D. 1996. Studies on the main factors affecting the mycelial growth of Phellinus linteus. Korean J. Mycol. 24:214-222
  4. Chung, K. S. and Kim, S. S. 1994. Effect of Kp, an antitumor protein-polysaccharide from mycelial culture of Phellinus linteus, on the humoral immune response of tumor-bearing ICR mice to sheep fed blood cells. Arch. Phar. Res. 16:336-338
  5. Ikekawa, J., Nakamishi, M., Uehara, N., Chihara, G. and Fukuoka, F. (1968) Antitumor action of some basidiomycetes, esp. Phellinus linteus. Gann. 59:155-157
  6. Jung, I. C., Kim, S. H., Kwon, Y. I., Kim, S. Y., Lee, J. K., Park, S., Park, K. S. and Lee, J. S. 1997. Cultural condition for the mycelial growth of Phellinus igniarius on chemically defined medium and grains. Korean J. Mycol. 25:133-142.
  7. Lee, J. H., Cho, S. M., Song, K. S., Han, S. B., Kim, H. M., Hong, N. D. and Yoo, I. D. 1966. Immuno-stimulating activity and characterization of polysaccharide from mycelium of Phellinus linteus. J. Microbiol. Biotechnol. 6:213-218
  8. Oh, G. T. and Han, S. B. 1993. Immuno-stimulating activity of Phellinus linteus extracts to B-lymphocyte. Arch. Phar. Res. 15:379-381
  9. Quelet, L. 1886. Enchiridition fungroum in Europa media et praesertim Gallaria Vigentium. Lutetiae
  10. Rew, Y. H., Jo, W. S., Jeong, K. C., Yoon, J, T. and Choi, B. S. 2000. Cultural chracteristics and fruitbody formation of Phellinus pini. Korean J. Mycol. 28:11-15
  11. Song, C. H., Ra, K. S., Yang, B. K. and Jeon, Y. J. 1998. Immono-stimulating activity of Phellinus linteus. Korean J. Mycol. 26:86-90

Cited by

  1. spp. vol.36, pp.3, 2008, https://doi.org/10.4489/MYCO.2008.36.3.152
  2. based on ITS sequence and RAPD vol.37, pp.4, 2009, https://doi.org/10.4489/MYCO.2009.37.4.258
  3. by multiple strategies vol.48, pp.2, 2018, https://doi.org/10.1080/10826068.2017.1365248