References
- 賈康鉉. 朴賢. 許泰鋨. 金熙注. 金教秀. 金泫中. 李元珪. 金種元. 李敏雄. 1998. 송이 자실체의 생장 원리에 관한연구. 山林科學論文集. 58: 35-39
- 姜安錫. 車東烈. 金養燮. 朴容? . 柳昌鉉. 1989. 松相生慶파 관련되는 氣價特性分析.韓國菌學會誌. 17(2): 51-56
- 박기문. 이병우. 1998. 표고버섯 균사체로부터 항암 단백다당체의 추출 및 정제. 韓國食品科學會誌 30(5) : 1236-1242
- 朴賢. 金敎秀. 具昌德. 1995. 韓國에서 9月의 氯象因子가 송이 發生에 미치는 影響과 그 克服方案. 韓國菌學會誌. 84(4) : 479-48
- 이신영. 강태수. 문순옥. 류인덕. 이명열. 1996. 영지 균사체의 액체배양에 의한 세포외 수용성 다당류의 분획 및 항암활성. 韓國應用微生物學會誌24(4) : 459-464
-
이창윤. 홍윤표. 정명준. 한영환. 1998 송이균사(Tricholoma
$mats\mu{take)}$ 배양액의 세포외 효소 활성. 韓國菌學會誌 26(4) : 496-501 - 李泰洙. 金敎秀. 沈尤燮. 金世鉉. 朱永煥,吳世元. 趙在明. 李址烈. 1984. 송이 人工 增植에 關한 硏究(I).- 송이感梁苗의 育成方法改善-. 林試硏報. 31: 109-123
- 이현진. 김종식. 허건영. 이경복. 이인구. 송경식. 1999. 담자균 추출물의 Prolyl Endopeptidase, Acetylcholine Esterase 저해 및 항혈전 옹고활성. 韓國農化學會誌. 42(4) : 336-343
- 趙隱鉉. 李景俊. 1995. 29個 地城의 10年閒 송이發生林의 氣候因子와 송이 發生罿과의 相關關係. 韓國菌學會誌. 84(3) : 277-285
- 韓基确. 朴俊圭. 鄭二根. 李春秀. 尹願熙. 金元出. 李相圭. 1988. 토양화학 분석법. 농업기술연구소. 450pp
- 小川 具. 梅原武夫. 紺各條治. 山路木增男.1978. マツタヶ菌の增修法(I). マツタヶ感染苗の育威法. 日林誌. 60(4) : 119-128
- 伊輪 武. 小川 具. 1979. マツタヶ菌の增修法(II). 林內植生の手入ゎとマツタヶッロの增殖. 日林誌. 61(5) : 163-173
-
Alexis, G. L., L. M. Vaario, W. M. Gill, F. Lapeyrie, N. Matsushita and K. Suzuki. 2000. Rapid in vitro ectomycorrhizal infection on Pin없 dens찌bra roots by T꺼choloma
$mats\mu{take}$ ? Mycoscience 41 : 389-393 https://doi.org/10.1007/BF02463952 - Helrch, K. 1990. Official method of analysis. 15th. AOAC. 2 : 713
- Kawagoe, M. 1996. Applications of the bubble column in biotechnology. Proceedings of the 4th Japan-Korea symposium on separation technology. 623-626
- Kawagoe, M, K. Kawakami, Y. Nakamura, K. Naoe, K. Miki and H. Noda. 1999. Submerged culture of Tricholoma matsutake mycelium in bubble column fermenters. Journal of Bioscience and Bioengineering 87(1) ; 116U8
- Lee, C. Y., O. P. Hong, M. J. and Y. H. Han. 1997. Effect of carbon sources and vitamins on mycelial growth of Tricholoma matsutake DGUM 26001. The Korean Jounal of Mycology 25(3) : 226-23
- Miller, G. L. 1959. use of dinitrosalicylic acid reagent for determination of reducing sugar. Analytical Chemistry 31(3) : 426-428 https://doi.org/10.1021/ac60147a030
- Min, E. G., K. K. Chung and Y. H. Han. 1988. Effect of complex nitrogen source on mycelial growth of Tricholoma matsutake DGUM 26001. The Korean Journal of Mycology 26(3) ; 361-364
- Ogawa, M. 1975. Microbial ecology of mycorrhizal fungus-Tricholoma matsutake(Ito et imai) Sing. in pine forest. I. Fungal colony(Shiro) of Tricholoma matsutake. Bulletin of Government Forest Experiment Station 272 ; 79-121
- Ogawa, M. 1975. Microbial ecology of mycorrhizal fungus- Tricholoma matsutake(Ito et imai) Sing. in pine forest II. Mycorrhiza formed by Tricholoma matsutake. Bulletin of Government Forest Experiment Station 278 : 21-49
- Ohnuma, N., K. Amemiya, R. Kakuda, Y. Yaoita, K. Machida and M. Kikuchi. 2000. Sterol constituents from the edible mushrooms, Lentinula edodes and Tricholoma matsutake. Chemical and Pharmaceutical bulletin 48(5) ; 749-751 https://doi.org/10.1248/cpb.48.749
- Ohta, A. 1990. A new medium for mycelial growth of mycorrhizal fungi. Transactions of the Mycology Society of Japan 31 : 323-334
- van't Riet, K. and J. Tramper. 1991. Basic bioreactor design. Marcel Dekker. Inc. New York, 465pp
- Son, S.H. and Y.H. Lee. 1997. Balloon type airlift bioreactor for plant cell culture. Korea patent submission No. 357510
- Son, S. H., M. S. Choi, Y. H. Lee, K. B. Choi, S. R. Yun, J. K. Kim, H. J. Park, O. W. Kwon, E. W. Noh, J. H. Sen and Y. G. Park. 2000. Large-scale growth and taxane production in cell cultures of Taxus cuspidata(Japanese yew) using a novel bioreactor. Plant cell reports 19 : 628-633 https://doi.org/10.1007/s002990050784
- Wang, Y., Ian R. Hall and L. A. Evans. 1997. Ectomycorrhizal fungi with edible fruiting bodies; 1. Tricholoma matsutake and related. Economic Botany 51(3): 311-327 https://doi.org/10.1007/BF02862101
- Yokoyama, R. and Yamada, T. 1987. In vitro cultures of Tricholoma matsutake and Pinus densiflora. Transactions of the Mycology Society of Japan 28 : 331-338