Insecticidal Activities of Bilobalide from Ginkgo biloba Leaves and its Derivatives

은행잎 유래 살충성분 bilobalide와 그 분해물의 살충활성

This study was conducted to investigate insecticidal activities of Ginkgo biloba (L.) leaves-derived bilobalide and its hydrolysis and oxidation products against adults of Nilaparavata lugens Stal. To find out active insecticidal moiety of bilobalide, decomposed intermediates and derivatives of bilobalide were made by hydrolysis, oxidation, and acetylation. The structures of hydrolysis product by base and oxidation product by acid were identified as cyclopentenone analogues and trilactone sesquiterpene from dehydration of bilobalide, respectively. Insecticidal activities of the decomposed intermediates and the derivatives of bilobalide decreased in the order of bilobalide, monoacetate, ginkgolide C, oxidation product, diacetate, and hydrolysis product. Therefore, trilactone structure of bilobalide may be essential for its insecticidal activity.

은행잎함유 살충성분인 bilobalide의 활성부위를 조사하기 위해 bilobalide를 가수분해 및 산화를 시킨 후 구조를 확인하고 살충활성을 검정하였다. 분해물의 분석 결과, 염기에 의한 가수분해물은 cyclopentenone 계열의 화합물로 밝혀졌고, 산화물은 trilactone 형태를 유지한 sesquiterpene 구조로써 dehydration된 형태로 추정되었다. 분해물의 살충활성을 검정한 결과, 살충력의 크기는 bilobalide, monoacetyl 유도체, ginkgolide C, 산화분해물, diacetyl 유도체, 가수분해물의 순으로 감소하여 bilobalide의 살충력을 나타내는데에는 trilactone의 구조를 유지하는 것이 중요한 것으로 나타났다.