• Journal of Sericultural and Entomological Science
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• v.38 no.2
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• pp.186-188
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• 1996

곤충애 있어서 호르몬의 작용기작과 그 이용에 관하여 요야하면 다음과 같다. 곤충호르몬에는중추신경계의 신경분비세포에서 합성, 분비되는 peptide의 neuropeptide hormone (PTTH, bombyxin, diapause hormone등)이 있고, 상피계의 내분비선에서 합성, 분비되는 sesquiterpene의 유약호르몬 ( juvenile hormone)과 steroid의 탈피호르몬 (ecdysone)이 있다. 곤충호르몬은 특정한 표족세포에 있는 수용체와 높은 특이성과 높은 친화성을 가지고 결합해서 세포의 작용을 조절한다. 일반적으로 peptide hormone은 표적세포의의 세포막을 통과할 수 없으므로 표적세포의 막표면에 있는 수용체와 결합하는 것에 의해 세포내 대사제를 활성화시킴으로서 peptide hormone의 특이적인 발현이되는 것으로 알려지고 있다. 한편, ecdysone과 같은 steriod hormone이나 juvenlie hormone은 표적세포의 세포막을 용이하게 통과할수 있으므로 세포내의 세포막을 용이하게 통과할 수 있으므로 세포내로 들어가 수용체와 결합해서 hormone-receptor comlpex는 핵내로 들어가 DNA의 특이적인 영역에 결합하므로서 이들 호르몬 특이적인 기능이 발현되는 것으로 알려져 있다. Ecodysone의 활성이 있는 ecdysteroid가 여러 식물에서 발견되고 있어, 금후 양잠의 상족에 이용이 기대되고 있다. 또한, 향유약호르몬(AJH) 활성물지인 imidazole계 화합물은 양잠에 있어서 세섬도고치 생산에 그 이용이 기대되고 있다.

• Korean journal of applied entomology
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• v.28 no.2
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• pp.82-87
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• 1989

Mass production of Spodoptera litura nuclear polyhedrosis virus (SINPV) was carried out on massively reared host insects. The yield of SINPV was maximal with $6.7{\;}\times{\;}10^9$ PIBs per larva on the 8th day post inoculation, when 5th instar larvae were inoculated with $1.1{\;}{\times}{\;}10^7$ PIBs per ml, and 2 g of artificial diet was sufficient for food consumption of a larva. The moribund larvae were more suitable for handling and mass production of virus than the completely dead larvae. The larvae, when treated with methoprene ($Manta^{\circledR}$), prolonged their larval period and consequently became bigger to result in higher yield(about 15%) of virus.

• The Korean Journal of Pesticide Science
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• v.5 no.4
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• pp.11-19
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• 2001

This review discusses the effects and roles of insect hormones and insect growth regulators (IGRs) on vitellogenesis in adult insects. Insect vitellogenesis is regulated by hormones such as juvenile hormone (JH), ecdysteroids, and neurosecretory hormones (ovaryecdysteroidogenic hormone : OEH) released by neurosecretory cells, diet, and other elements(male specific protein of sperm fluid). In the fat bodies, the vitellogenins are synthesized by the stimulation of JH released by corpus allatum (CA) and ecdysteroids produced by follicle cells with the ovary in most insects. Furthermore, vitellogenins are released into the hemolymph, transported to the ovarioles by carrier protein, and incorporated into oocytes for the developing ovary. Of IGRs, juvenile hormone and its mimics such as methoprene and pyriproxifen appear to have pharmacological effects such as membrane lysis, destruction of salivary grand and midgut epithlial cells, fat body cells, and ovarian tissue, and also anti-juvenile hormone such as precocenes I and II appear to have specific cytotoxicity such as inhibition of corpus allatum and oocytes development. These results suggest that IGRs may be useful as agents for integrated pest management.