Chemical Composition and Antibacterial Activity Against Oral Bacteria by the Essential Oil of Artemisia iwayomogi

Jeong-Dan Cha

doi:10.4167/jbv.2007.37.3.129

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Cha: Chemical Composition and Antibacterial Activity Against Oral Bacteria by the Essential Oil of Artemisia iwayomogi

Original Article

J Bacteriol Virol 2007;37(3):129-136.

Published online: 18 February 2007

DOI: https://doi.org/10.4167/jbv.2007.37.3.129

Chemical Composition and Antibacterial Activity Against Oral Bacteria by the Essential Oil of Artemisia iwayomogi

Jeong-Dan Cha^∗,

Institute of Oral Bioscience and Department of Oral Microbiology, School of Dentistry, Chonbuk National University, Republic of Korea

^∗Corresponding author: Prof. Dr. Jeong-Dan Cha. Department of Oral Microbiology, School of Dentistry, 664-14 Duckjin-Dong, Duckjin-Ku, Jeonju, Chonbuk, 561-756, Republic of Korea. Phone: +82-63-270-4022, Fax: +82-63-270-4037, e-mail: joungdan@chonbuk.ac.kr

Received 4 July 2007 Accepted 22 August 2007

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

The aerial part of Artemisia iwayomogi KITAMURA has traditionally been used for antitumour, immunomodulating, antimutagenic, antioxidant, antibacterial, antifungal, antipyretic, diuretic, liver protective effect, and choleretic purposes in Korea. The chemical composition of the essential oil obtained from A. iwayomogi was analyzed by GC/MS. The essential oil and its major compounds were tested for antibacterial activities against 15 different genera of oral bacteria. The essential oil of A. iwayomogi was rich in camphor (17.96%), 1,8-cineole (14.79%), terpinen-4-ol (3.28%), α-terpineol (17.60%), and β-caryophyllene (4.05%). The essential oil of A. iwayomogi exhibited considerable inhibitory effects against all obligate anaerobic bacteria (MICs, 0.05 to 0.2 mg/ml; MBCs, 0.1 to 0.4 mg/ml) tested, while its major compounds demonstrated various degrees of growth inhibition.

Keywords: Artemisia iwayomogi, Essential oil, Antibacterial activity, Minimum inhibitory concentrations/Minimum bactericidal concentrations (MICs/MBCs)

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Figure 1.

Gas chromatography/mass spectrometric analysis of the essential oil obtained from Artemisia iwayomogi

Table 1.

Constituents of essential oil of Artemisia iwayomogi

Peak no^a	Compounds	RI^b	RI^c	Peak Area (%)^d
Monoterpene hydrocarbons				(10.74)
1	Tricyclene	1006	919	0.18
2	α-Pinene	1012	930	0.33
3	α-Thujene	1029	924	0.09
4	Camphene	1071	943	2.77
5	β-Pinene	1111	966	0.61
6	Sabinene	1124	965	0.32
9	α-Phellandren	1167	994	2.01
10	α-Terpinene	1184	1007	0.86
12	Limonene	1196	1021	0.13
14	cis-β-Ocimene	1240	1029	0.19
15	γ-Terpinene	1247	1050	1.24
16	trans-β-Ocimene	1257	1035	0.10
17	p-Cymene	1273	1011	1.59
18	Terpinolene	1283	1078	0.32
Oxygenated monoterpenes				(66.73)
11	2,3-Dehydro-1,8-cineole	1193	978	0.06
13	1,8-Cineole	1215	1023	14.79
21	3-Octanol	1394	979	0.06
22	Yomogi alcohol	1403	984	2.30
23	trans-3-Hexen-1-ol	1409	852	1.53
24	α-Thujone	1423	1080	t
25	β-Thujone	1440	1091	0.15
27	trans-Sabinene hydrate	1465	1052	0.16
29	Chrysanthenone	1508	1096	0.09
30	Camphor	1517	1124	17.96
33	iso-Pinocamphone	1536	1118	0.67
34	Linalool	1546	1106	0.15
35	cis-Sabinene hydrate	1550	1130	0.14
36	β-Terpinyl acetate	1561	–	t
37	Pinocarvone	1562	1134	0.30
38	cis-p-Menth-2-en-1-ol	1566	1104	0.34
39	cis-Chrysanthenyl acetate	1570	1243	0.06
40	Bornyl acetate	1578	1265	1.02
43	Terpinen-4-ol	1601	1158	3.28
45	Lavandulyl acetate	1612	1275	0.09
46	Myrtenal	1627	1167	0.44
48	Umbellulone	1639	1165	0.07
49	trans-Pinocarvyl acetate	1648	–	0.18
50	trans-Pinocarveol	1653	1119	0.30
53	trans-Verbenol	1672	1123	0.22
54	trans-Piperitol	1676	1205	0.68
57	α-Terpineol	1701	1169	17.60
58	Borneol	1703	1150	2.36
62	Carvone	1732	1210	0.37
63	cis-Chrysanthenol	1754	1150	0.20
69	Myrtenol	1793	1177	0.20
71	trans-Carveol	1832	1181	0.11
74	cis-Myrtanol	1859	1280	0.14
75	cis-Carveol	1862	1196	0.14
76	β-Phenylethyl alcohol	1903	1081	0.08
79	Perillyl alcohol	1997	1277	0.07
93	Thymol	2187	1263	0.42
Sesquiterpene hydrocarbons				(9.40)
28	δ-Copaene	1490	1369	0.57
31	α-Gurjunene	1525	1389	t
32	Berkheyaradulen	1531	1377	0.14
41	β-Elemene	1589	1381	0.13
42	β-Caryophyllene	1594	1418	4.05
44	Aromadendrene	1609	1447	0.05
47	γ-Elemene	1629	–	0.15
51	γ-Gurjunene	1663	1463	0.11
52	trans-β-Farnesene	1668	1454	1.48
55	γ-Muurolene	1686	1464	0.20
56	γ-Cadinene	1690	1497	t
59	β-Selinene	1717	1471	0.34
60	Piperitone	1721	1220	0.16
61	cis, trans-α-Farnesene	1726	1447	0.60
64	α-Cadinene	1762	1505	0.10
65	β-Sesquiphellandrene	1770	1515	0.25
66	ar-Curcumene	1773	1472	0.12
68	δ-Cadinene	1785	1524	0.77
72	p-Cymen-8-ol	1835	1165	0.11
73	trans-Myrtanol	1845	–	0.07
Oxygenated sesquiterpenes				(3.95)
77	iso-Caryophyllene oxide	1967	1524	0.07
78	Caryophyllene oxide	1979	1556	1.07
80	Eicosane	2000	2000	0.08
82	α-Humulene oxide	2038	1586	0.12
83	trans-Nerolidol	2043	1555	0.32
84	Globulol	2058	1568	0.32
85	Viridiflorol	2070	1569	0.05
86	Elemol	2073	1527	0.12
87	Cubenol	2086	1619	0.19
88	Guaiol	2105	1576	0.14
89	Spathulenol	2125	1551	0.35
90	Eugenol	2146	1323	t
91	α-Cedrol	2150	1575	0.15
92	α-Cadinol	2173	1628	0.27
94	α-Eudesmol	2221	1622	0.13
95	Carvacrol	2229	1273	0.17
96	T-Muurolol	2234	1615	0.23
98	cis, trans-Farnesol	2298	1695	0.10
100	Caryophyllene alcohol	2357	1607	0.07
Others				(4.68)
7	1,4-Dimethylbenzene	1129	936	0.23
8	1,3-Dimethylbenzene	1135	946	t
19	6-Methyl-5-hepten-2-one	1341	–	t
20	n-Hexanol	1355	851	t
26	1-Octen-3-ol	1453	969	0.81
67	Methyl salicylate	1782	1173	1.50
70	p-Mentha-1(7),8-dien-2-ol	1801	–	0.08
81	Elemyl acetate	2027	–	0.15
97	Ethyl hexadecanoate	2253	1984	1.72
99	Tricosane	2300	2300	0.11
101	Diethyl phthalate	2361	–	t
102	Hexadecanol	2368	1864	0.08
Total identified				(95.50%)

^a Numbering refers to the elution order on a Supelcowax 10 column.

^b Retention index on a polar Supelcowax 10 column.

^c Retention index on an apolar SPB-1 column.

^d Peak area percentage is based on a polar Supelcowax 10 column, and values represent average of three determinations.

t; Trace (<0.05%)

Table 2.

MICs and MBCs (mg/ml) of essential oil and some of its major components of Artemisia iwayomogi for some oral bacteria with a few reference strains

Strains	Essential oil	Borneol	α-Terpineol	Camphor	1,8-Cineole	β-Caryophyllene	Terpinen-4-ol	Ampicillin	Gentamicin
Escherichia coli ATCC 25922	3.2/3.2	0.4/0.8	1.6/3.2	12.8/12.8<	3.2/6.4	12.8/12.8<	1.6/1.6	256/256×10^–3	8/16×10^–3
Staphylococcus aureus ATCC 29213	0.8/0.8	1.6/3.2	1.6/3.2	12.8/12.8<	12.8/12.8	12.8/12.8<	1.6/3.2	16/16×10^–3	2/4×10^–3
Staphylococcus epidermidis ATCC 12228	3.2/3.2	0.8/1.6	1.6/3.2	12.8/12.8<	0.8/1.6	12.8/12.8<	1.6/3.2	32/64×10^–3	1/2×10^–3
Streptococcus pyogenes ATCC 21059	0.4/0.8	0.8/0.8	1.6/1.6	12.8/12.8<	12.8/12.8	12.8/12.8	1.6/1.6	4/8×10^–3	8/16×10^–3
Streptococcus mutans ATCC 25175	0.2/0.8	0.8/1.6	1.6/3.2	6.4/12.8	12.8/12.8	1.6/3.2	1.6/3.2	4/4×10^–3	8/8×10^–3
Streptococcus sanguinis ATCC 10556	0.4/0.8	1.6/3.2	1.6/3.2	12.8/12.8	12.8/12.8	1.6/3.2	1.6/3.2	32/32×10^–3	8/16×10^–3
Streptococcus sobrinus ATCC 27607	0.4/0.8	0.4/0.8	1.6/1.6	12.8/12.8	12.8/12.8	12.8/12.8	1.6/3.2	2/2×10^–3	4/8×10^–3
Streptococcus ratti KCTC 3294	1.6/1.6	3.2/6.4	1.6/3.2	12.8/12.8<	12.8/12.8	12.8/12.8<	1.6/3.2	4/4×10^–3	4/8×10^–3
Streptococcus criceti KCTC 3292	0.8/1.6	3.2/6.4	3.2/3.2	12.8/12.8	12.8/12.8	12.8/12.8<	3.2/3.2	4/4×10^–3	8/8×10^–3
Streptococcus anginosus ATCC 31412	0.8/0.8	0.8/0.8	1.6/3.2	12.8/12.8	3.2/6.4	12.8/12.8<	1.6/3.2	4/4×10^–3	16/16×10^–3
Streptococcus gordonii ATCC 10558	0.1/0.4	0.8/0.8	0.05/0.1	12.8/12.8	6.4/6.4	1.6/3.2	0.05/0.1	1/2×10^–3	2/4×10^–3
Actinobacillus actinomycetemcomitans ATCC 43717	0.8/0.8	0.8/1.6	1.6/3.2	6.4/12.8	6.4/12.8	1.6/1.6	1.6/3.2	64/64×10^–3	2/2×10^–3
Fusobacterium nucleatum ATCC 10953	0.2/0.4	0.2/0.4	0.4/0.8	6.4/6.4	3.2/6.4	12.8/12.8	0.2/0.4	0.25/0.25×10^–3	16/32×10^–3
Prevotella intermedia ATCC 25611	0.2/0.4	0.2/0.4	0.2 /0.4	1.6/3.2	1.6/3.2	0.8/1.6	0.2/0.4	32/32×10^–3	0.5/1×10^–3
Porphylomonas gingivalis ATCC 33277	0.05/0.1	0.8/0.8	0.2/0.8	6.4/12.8	6.4/6.4	0.4/0.8	0.4/0.8	0.5/1×10^–3	256/512×10^–3

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