Journal of the Korean Wood Science and Technology

The Korean Society of Wood Science & Technology (한국목재공학회)
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Essential Oil Analysis of Illicium anistum L. Extracts

  • Min, Hee-Jeong (Department of Forest Biomaterials Engineering, College of Forest and Environmental Sciences, Kangwon National University) ;
  • Kim, Chan-Soo (Warm and Subtropical Forest Research Center, National Institute of Forest Service) ;
  • Hyun, Hwa-Ja (Warm and Subtropical Forest Research Center, National Institute of Forest Service) ;
  • Bae, Young-Soo (Department of Forest Biomaterials Engineering, College of Forest and Environmental Sciences, Kangwon National University)
  • Received : 2017.06.15
  • Accepted : 2017.07.31
  • Published : 2017.11.25
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Abstract

Fresh japanese anise (Illicium anisatum L.) tree leaves were collected and ground after drying. The essential oils of the leaves were analyzed by gas chromatography-mass spectrometry (GC-MS) using headspace (HS) and solid phase-microextra (SPME) methods. Volatile components of the leaves were identified 21 and 65 components in HS and SPME, respectively. The main components of the essential oils obtained by HS method were eucalyptol (36.7%), (+)-sabinene (15.61%), ${\delta}$-3-carene (6.87%), ${\alpha}$-pinene (6.07%), ${\gamma}$-terpinen (5.72%), ${\alpha}$-limonene (5.26%), ${\beta}$-myrcene (4.13%), ${\alpha}$-terpinene (4.04%) and ${\beta}$-pinene (3.73%). The other components were less than 3.5%. SPME method also showed that eucalyptol (17.88%) was main. The other were 5-allyl-1-methoxy-2 (13.29%), caryophyllene (6.09%), (+)-sabinene (5.60%), ${\alpha}$-ocimene (4.89%) and ${\beta}$-myrcene (3.73%), and the rest were less amounts than 3.5%. This work indicated that many more volatile components were isolated, comparing to the previous literature data and that SPME method was much more effective than HS method in the analysis of the volatile components.

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References

  1. Arthur, C.L., Pawliszyn, J. 1990. Solid-phase microextraction with thermal desorption using fused silica optical fibers. Analytical Chemistry 62: 2145-2148. https://doi.org/10.1021/ac00218a019
  2. Cook, W.B., Howard, A.S. 1966. The essential oil of Illicium anisatum Linn. Canadian Journal of Chemistry 44(21): 2461-2464. https://doi.org/10.1139/v66-371
  3. Kim, H.Y., Kang, M.H. 2005. Screening of Korean medicinal plants for lipase inhibitory activity. Phytotherapy Research 19: 359-361. https://doi.org/10.1002/ptr.1592
  4. Kim, H.Y., Kim, K. 2003. Protein glycation inhibitory and antioxidative activities of some plant extracts in vitro. Journal of Agricultural and Food Chemeistry 51: 1586-1591. https://doi.org/10.1021/jf020850t
  5. Kim, J.Y., Kim, S.S., Oh, T.H., Baik, J.S., Song, G.P., Lee, N.H., Hyun, C.G. 2009. Chemical composition, antioxidant, anti-elastase, and anti-inflammatory activities of Illicium anisatum essential oil. Acta Pharmaceutica 59: 289-300. https://doi.org/10.1111/j.1600-0773.1986.tb02765.x
  6. Kim, H.Y., Oh, J.H. 1999. Screening of Korean forest plants for rat lens aldose reductase inhibition. Bioscience. Biotechnology and Biochemistry 63: 184-188. https://doi.org/10.1271/bbb.63.184
  7. Eijkman, J.F. 1885. Sur les principes constituants de l'Illicium religiosum. Recueil des Travaux Chimiques des Pays-Bas 4(2): 32-73. https://doi.org/10.1002/recl.18850040202
  8. Guenther, E.D. 1948. van Nostrand Company Inc. New York, p.12.
  9. Lim, S.S., Lee, Y.S., Kim, H.M., Ahn, Y.H., Shin, K.H., Lee, S.H. 2008. GC/MS Analysis of Volatile Constituents from Broad-Leaved Indeciduous Trees. Korean Journal of Plant Resources 21(4): 237-248.
  10. Yamada, K., Takada, S., Nakamura, S., Hirata, Y. 1968. Structures of anisatin and neoanisatin toxic sesquiterpenes from Illicium anisatum. Tetrahedron 24(1): 199-229. https://doi.org/10.1016/0040-4020(68)89022-2
  11. Zhao, C.X., Liang, Y.Z., Fang, H.Z., Li, X.N. 2005. Temperature-programmed retention indices for gas chromatography-mass spectroscopy analysis of plant essential oils. Journal of Chromatography A 1096: 76-85. https://doi.org/10.1016/j.chroma.2005.09.067