• The Korean Journal of Food And Nutrition
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• v.12 no.4
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• pp.415-420
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• 1999

Petal of Azalea(Rhododendron mucronulatum Turcz) was incubated with Gokja at 3$0^{\circ}C$ for seven days and the essential oil components of petal of Azalea before and after incubated were analyzed using a GC/MSD. Ten or more essential oil components including n-heneicosane n-tricosane n-tetreacosane n-pentacosane n-heptacosane n-nonacosane and n-hentriacontane were identified from the petal of Azal-ea before incubated while oxygen-containng compounds including (E)-heptenal 2-ethoxy-1 -hexanol n-hexadecanoic acid methyl ester 9, 12-octadecadienoic acid methyl ester 9,12,15-octadecatrienoic acid methyl ester, n-octadecanoic acid methyl ester n-eicosanoic acid methyl ester and 9-docosaenoic acid methyl ester as well as n-alkanes such as n-tricosane that n-pentacosane were identified from the petal of Azalea after incubated. These results suggest that n-alkanes in petal of Azalea might be degraded and some oxygen-containing compounds such as aldehyde, esters and /or acids might be produced when pet-al of Azalea is incubated with Gokja.

• Korean journal of applied entomology
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• v.49 no.3
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• pp.211-218
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• 2010

Cuticular hydrocarbons (CHCs) of the pine sawyer (Monochamus saltuarius), Japanese pine sawyer (M. alternatus) and oak longicorn beetle (Moechotypa diphysis) were analyzed by GC, GC-MS and compared. Monochamus beetles are typical vectors of pine wilt disease but Moechotypa diphysis, which belongs to the same family, is not. They possess different CHCs in carbon number: 23-25 in M. saltuarius, 25-32 in M. alternatus, and 23-29 in M. diphysis. In comparison to inter-species, these three species of adult beetles have different numbers and chains of constituents of CHCs. In comparison between male and female in intra-species, the quantities of CHCs show the difference but constituents are not. Major constituent of M. saltuarius were analyzed as n-pentacosane > n-nonacosane > n-heptacosane; those of M. alternatus were n-nonacosene > n-pentacosane > n-nonacosane; and those of M. diphysis were n-heptacosane > 13-methylheptacosane > 3-methylheptacosane. From the body surface, most saturated carbohydrates of 3 species beetles are composed of n-alkane (40.2 - 65.7%) and followed by olefines > monomethylalkanes that one or two double bonds in M. saltuarius and M. alternatus. Otherwise, M. diphysis have the difference in order of monomethylalkanes > olefins.

• Korean Journal of Pharmacognosy
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• v.33 no.2 s.129
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• pp.105-109
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• 2002

Besides chrysophanol and friedelin, mixtures of n-hydrocarbons [pentacosane (72.6%), heptacosane (14.6%), tetracosane (5.8%), nonacosane (4.1 %) and hexacosane (2.9%)], n-hydrocarbon alcohols [octacosanol (70.5%) and hexacosanol (29.5%)], l-monoacyl glycerols [acyl part; behenic acid (43.5%), lignoceric acid (32.4%), cerotic acid (9.3%), tricosanoic acid (8.9%), pentacosanoic acid (2.6%), octacosanoic acid (2.3%), heneicosanoic acid (1.0%)], wax esters [behenic acid (56.3%), lignoceric acid (23.0%), cerotic acid (19.8%), tricosanoic acid (4.6%), octacosanoic acid (4.0%), pentacosanoic acid (1.7%), triacontanoic acid (0.6%)/ octacosanol (33.7%), hexacosanol (21.0%), tetracosanol (15.6%), triacontanol (10.5%), docosanol (6.0%), tricosanol (6.0%), heptacosanol (4.2%), nonacosanol (3.0%)] and sterols [${\beta}-sitosterol$ (73.2%), stigmasterol (14.6%), campesterol (12.2%)] were isolated from the roots of Hemerocallis fulva. The acid : alcohol combinations of the major wax esters were $C_{48}$: 22 : 26, 24 : 24, $C_{46}$: 22 : 24, and $C_{44}$: 22 : 22. This is the first report of l-monoacyl glycerols and friedelin from this plant. All isolates were identified on the basis of spectral data and chemical reactions.