본 연구는 국내산 침엽수로부터 천연 항균화합물 개발을 목표로 미송 및 편백으로부터 추출물을 확보 하여 푸른곰팡이병의 원인균인 Trichoderma spp. 5종을 대상으로 항균활성을 테스트하고 GC/MS를 이 용하여 항균화합물을 탐색하였다. 미송 추출물은 Trichoderma spp.에 대해 1,000 ppm에서 저해 활성을 나타냈으며, 4,000 pp에서는 T. viride>T. harzianum>T. aggressivum 순으로 70.1, 67.3, 64.7% 의 높은 항균활성을 나타냈다. 편백 추출물도 1,000 ppm에서 항균활성을 나타냈고 4,000 ppm에서 T. viride>T. harzianum>T. aggressivum 순으로 63.2, 59.3, 59.1%의 높은 항균활성을 나타냈다. 그러나 1,000 ppm의 미송추출물과 1,000 ppm의 편백추출물을 각각 9:1, 8:2, 6:4, 2:8 (w/w) 비율의 혼합제 제로 만들어 Trichoderma spp.에 처리하였을 때 미송추출물 1,000 ppm 및 편백추출물 1,000 ppm 각 각의 단일추출물보다 낮은 항균활성을 나타냈다. Trichoderma spp. 5종에 대해 높은 항균활성을 나타 내는 미송추출물에서는 2-Isopropoxy-ethylamine 46.5%, epifluorohydrin 8.6%, trans-2,3-Dimethyloxirane 7.6%, (IR)-(-)-Myrtenal 6.0%, 2-Methoxy-4-Vinylphenol 3.9%, benzaldehyde 2.8%가 함유되어 있었고, 편백추출물에서는 α-Terpinenyl acetate 14.9%, Sabinene 10.9%, dl-Limonene 9.6%, α-Terpinolene 7.5%, α-Pinene 7.1%가 함유된 것이 확인되었다.

The aim of this study was development of natural antifungal compounds from softwood. We investigated antifungal activities of extracts from Pseudotsuga menziesii and Chamaecyparis obtusa against Tricholderma genus which is virus causing green mold disease and analyzed antifungal compounds by Gas chromatography －Mass Spetrometer. Extracts from P. menziesii had inhibition activities against Tricholderma genus on 1,000 ppm and had high antifungal activities against T. viride by 70.1%, T. harzianum by 67.3% and T. aggressivum by 64.7% on 4,000 ppm. And extracts from C. obtusa had antifungal activities against Tricholderma genus on 1,000 ppm and had high antifungal activities against T. viride by 63.2%, T. harzianum by 59.3% and T. aggressivum by 59.1% on 4,000 ppm. But mixing compounds which are made from P. menziesii and C. obtusa extracts by variety ratio had lower antifungal activities than original extracts. Main antifungal active components of P. menziesii extracts against Tricholderma genus were 2-Isopropoxy-ethylamine 46.5%, epifluorohydrin 8.6%, trans-2,3-Di-methyloxirane 7.6%, (IR)-(-)-Myrtenal 6.0%, 2-Methoxy-4-Vinylphenol 3.9% and benzaldehyde 2.8%. In case of C. obtusa extracts, they were α-Terpinenyl acetate 14.9%, Sabinene 10.9%, dl-Limonene 9.6%, α -Terpinolene 7.5% and α-Pinene 7.1%. As mentioned above, these results revealed extracts from P. menziesii and C. obtusa of softwood could be used as potential agents to inhibit Trichoderma genus.

초록
 ABSTRACT
 Ⅰ. 서 론
 Ⅱ. 재료 및 방법
  2.1 공시 재료
  2.2 공시 균주
  2.3 추출물의 분리 및 수율 측정
  2.4 항균활성 측정
  2.5. 휘발성 화합물 분석
  2.6. 통계 분석
 Ⅲ. 결과 및 고찰
  3.1 미송 및 편백 추출물의 수율
  3.2 미송 및 편백 추출물의 항균활성
  3.3 미송 및 편백 추출물 혼합제제의 항균활성
  3.4 미송 및 편백 추출물의 휘발성 화합물
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• 김지운(경상대학교 환경산림과학부(농업생명과학연구원)) | Ji-Woon Kim (Div. of Environ. For. Sci. Gyeongsang National Univ. Insti. of Agric. & Life Sci.)
• 김영숙(경상대학교 농업생명과학연구원) | Yeong-Suk Kim (Gyeongsang National Univ. Insti. of Agric. & Life Sci.)
• 박한민(경상대학교 환경산림과학부(농업생명과학연구원)) | Han-Min Park (Div. of Environ. For. Sci. Gyeongsang National Univ. Insti. of Agric. & Life Sci.)
• 이병현(경상대학교 응용생명과학부(BK 21)) | Byung-Hyun Lee (Div. of Appl. Life Sci. (BK 21), PMBBRC, Gyeongsang National Univ. Insti. of Agric. & Life Sci.)
• 최명석(경상대학교 환경산림과학부(농업생명과학연구원)) | Myung-Suk Choi (Div. of Environ. For. Sci. Gyeongsang National Univ. Insti. of Agric. & Life Sci.)
• 양재경(경상대학교 환경산림과학부(농업생명과학연구원)) | Jae-Kyung Yang (Div. of Appl. Life Sci. (BK 21), PMBBRC, Gyeongsang National Univ. Insti. of Agric. & Life Sci.) Corresponding author