• 제목/요약/키워드: Insect hormone

검색결과 28건 처리시간 0.023초

Development of Analytical Methods for Insect Moulting Hormone $({\beta}-Ecdysone)$ by HPLC/UV Using Boronate Derivatization

  • Shim, Jae-Han;Kim, In-Seon;Lim, Kye-Taek
    • Applied Biological Chemistry
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    • 제41권4호
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    • pp.251-256
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    • 1998
  • The analytical method of ${\beta}-ecdysone$, the insect moulting hormone, by high performance liquid chromatograph (HPLC) with UV detector was developed using boronic ester derivatization and applied to the extracts of Ajuga iva, Silene otites and Schistocerca egg. Derivatization of yield with methyl-, butyl-, and phenyl-boronate was completed under mild conditions with 20-hydroxyecdysone. The conversion ratios of boronate were estimated to be 70% in methylboronic acid, 89% in butylboronic acid and 93% in phenylboronic acid. Phenylboronate showed a high sensitivity and demonstrated an effective separation on HPLC. The optimum temperature and reaction time for derivative formation were $25^{\circ}C$ and 20 min. respectively. ${\beta}-Ecdysone$ was effectively identified in extracts of Ajuga iva, Silene otites and Schistocerca egg by the HPLC method.

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곤충의 난황형성에 대한 곤충성장조절제의 작용 (Effects of insect growth regulators(IGRs) on vitellogenesis in insect)

  • 이희권;이종진;김무기;이회선
    • 농약과학회지
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    • 제5권4호
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    • pp.11-19
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    • 2001
  • 곤충의 난황형성에는 각종호르몬들이 먹이 등과 함께 매우 중요하게 작용하고 있으며, 이러한 호르몬들 중에서는 신경분비호르몬, 유약호르몬 및 엑디스테로이드 등이 주작용을 한다. 본 총설에서는 곤충호르몬을 포함한 곤충성장조절제가 곤충의 난황형성에 작용하여 어떤 영향을 주는지에 대하여 살펴보고 종합적 해충관리 인자로서 이용 가능성을 조사하였다. 곤충의 난황형성은 일반적으로 뇌에서 분비하는 신경분비호르몬의 작용과 난소에서 분비되는 엑디스테로이드 및 알라타체에서 분비되는 유약호르몬이 지방체를 자극하여 난황소전구물질을 합성하게 하며, 혈림프로 분비된 난황소 전구물질은 난모세포로 흡수되어 난발육이 이루어진다. 곤충호르몬을 포함한 곤충성장조절제는 이러한 난황형성과정 중에 각종 호르몬분비 기관(알라타체와 난소 등) 및 여러 가지 생리기관(지방체, 중장상피 그리고 침샘 등)에 작용하여 용해, 파괴 및 세포독성을 나타내 정상적인 생식작용을 하지 못하도록 한다. 따라서 곤충의 종류에 따라서는 포유동물에 독성이 낮은 곤충호르몬을 포함한 곤충성장조절제를 종합적 해충관리의 일환으로 사용함으로서 효과적인 해충방제가 가능할 것으로 보인다.

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친환경 살충제로서의 곤충 유충호르몬 길항제 (Insect Juvenile Hormone Antagonists as Eco-friendly Insecticides)

  • 최재영;제연호
    • 한국응용곤충학회지
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    • 제61권1호
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    • pp.101-108
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    • 2022
  • 곤충생장조절제(IGR)은 대상 해충에 대한 특이성이 높고 환경에 대한 독성이 상대적으로 낮다는 장점으로 유기합성 살충제를 효과적으로 대체할 수 있는 유망한 수단으로 여겨진다. 현재 시판되는 곤충생장조절제는 작용 기작에 따라 유충호르몬 작용제(JHA), 탈피호르몬 작용제(EA) 및 키틴 합성 저해제(CSI)의 세 가지로 구분된다. 최근 들어, 이집트숲모기의 Met과 FISC/CYC 유전자를 yeast two-hybrid system에 도입하여 유충호르몬에 의해 매개되는 Met과 FISC/CYC의 결합을 in vitro에서 구현하였으며, yeast two-hybrid β-galactosidase assay를 통하여 식물과 미생물 및 화합물 library로부터 다양한 유충호르몬 길항제(JHAN)가 분리되고 있다. 유충호르몬은 곤충의 발달, 생식, 휴면 등을 포함한 다양한 생리 작용을 조절하기 때문에, 유충호르몬 길항제는 대상 해충의 내분비 신호 전달을 방해하여 비정상적인 발달 및 유충 단계에서의 치사를 초래하며, 이는 유충호르몬 길항제가 넓은 기주 범위를 가진 살충제 개발에 효과적으로 이용될 수 있다는 것을 시사하였다. 따라서 본 논문에서는 유충호르몬 길항제의 작용점인 Met에 의해 매개되는 유충호르몬의 신호 전달 체계와 친환경 살충제로서의 유충호르몬 길항제의 전망에 대해 알아보고자 하였다.

BioRational Approaches for Insect Control

  • Bowers, William-S.
    • 한국응용곤충학회지
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    • 제31권3호
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    • pp.289-303
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    • 1992
  • Investigation of the environmental impact of widespread pesticide use has revealed a virtue/vice relationship. Although many pesticides perform their function and disappear without harm to the environment, others persist beyond their useful purpose and cause direct of indirect hazard to man, domestic animals and wildlife. Concurrently, many pests have rapidly adjusted to chemical control practices through changes in behavior that avoid exposure to pesticides of throuth genetic selection for populations resistant to the toxicants. The prospect of losing control over insect herbivores and desease vectors and returning to the days of global hunger and disease is unthinkable. Fortunately, from basic studies of insect and plant biology many opportunities for the development of safe, selective and environmentally pacific strategies for insect pest management are being realized.

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곤충의 호르몬과 작용 (Insect Hormones and Their Actions)

  • 부경생
    • 한국응용곤충학회지
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    • 제40권2호
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    • pp.155-196
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    • 2001
  • Basically insect hormones include ecdysteroids (molting hormone), juvenile hormones, and neurohormones comprising neuropeptides and biogenic amines. This article reviewed their chemical structures and biological functions. The active molting hormone is 20-hydroxyecdysone in most insects but makisterone A in some other insects including the honey bee and several phytophagous hemipterans. Most insects use JH III, but lepidopterans JH I and II. Dipterans also use a different JH, so-called JH $B_3$(JH III bisepoxide) and we still do not know the exact chemical structure of JH utilized in hemipterans. Some other insects use methyl farnesoate or hydroxylated JH III analogues as their juvenile hormone. Most diverse pictures can be found in neurohormones (NH), especially in neuropeptides, in terms of their number and structure. There are more than 200 neuropeptides (NP), classified into more than 30 families, which structures have been identified, and more of them are expected to be reported in the near future, partly due to rapid development in molecular biological techniques and in analytical techniques. More than half of them are involved in controlling activity of visceral muscles. But function (s) of many NPs are not clarified yet, even though their amino acid sequences have been identified. It is partly due to the fact that a single NP may have multiple functions. Another interesting point is their gene structure, having many number of independent, active peptides in one gene, apparently working for similar or totally different functions. NH also includes amines, such as octopamine, dopamine, serotonin, etc. From now on, investigation will be concentrated on identifying their function (s) and receptors, and on possibilities of their utilization as control agents against pest insects.

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온도 차이에 따른 배추좀나방 유충 지방체에서 발현되는 G 단백질 연관 수용체의 동정 (Identification of G Protein Coupled Receptors Expressed in Fat Body of Plutella Xylostella in Different Temperature Conditions)

  • 김광호;이대원
    • 한국환경농학회지
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    • 제40권1호
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    • pp.1-12
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    • 2021
  • BACKGROUND: G protein-coupled receptors (GPCRs) are widely distributed in various organisms. Insect GPCRs shown as in vertebrate GPCRs are membrane receptors that coordinate or involve in various physiological processes such as learning/memory, development, locomotion, circadian rhythm, reproduction, etc. This study aimed to identify GPCRs expressed in fat body and compare the expression pattern of GPCRs in different temperature conditions. METHODS AND RESULTS: To identify GPCRs genes and compare their expression in different temperature conditions, total RNAs of fat body in Plutella xylostella larva were extracted and the transcriptomes have been analyzed via next generation sequencing method. From the fat body transcriptomes, genes that belong to GPCR Family A, B, and F were identified such as opsin, gonadotropin-releasing hormone receptor, neuropeptide F (NPF) receptor, muthuselah (Mth), diuretic hormone receptor, frizzled, etc. Under low temperature, expressions of GPCRs such as C-C chemokine receptor (CCR), opsin, prolactin-releasing peptide receptor, substance K receptor, Mth-like receptor, diuretic hormone receptor, frizzled and stan were higher than those at 25℃. They are involved in immunity, feeding, movement, odorant recognition, diuresis, and development. In contrast to the control (25℃), at high temperature GPCRs including CCR, gonadotropin-releasing hormone receptor, moody, NPF receptor, neuropeptide B1 receptor, frizzled and stan revealed higher expression whose biological functions are related to immunity, blood-brain barrier formation, feeding, learning, and reproduction. CONCLUSION: Transcriptome of fat body can provide understanding the pools of GPCRs. Identifications of fat body GPCRs may contribute to develop new targets for the control of insect pests.

곤충의 페로몬 생합성 활성화 신경펩타이드(PBAN) (Pheromone Biosynthesis Activating Neuropeptide (PBAN) in Insects)

  • 최만연
    • 한국응용곤충학회지
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    • 제61권1호
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    • pp.15-28
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    • 2022
  • 신경펩타이드(Neuropeptide)는 신경세포에서 분비되는 단백질성 물질로, 곤충 호르몬에서 가장 큰 그룹으로 차지한다. 이들은 곤충의 전 생육단계에 걸쳐 지방체의 항상성, 섭식, 소화, 배설, 순환, 번식, 탈피/변태 등 다양한 생리적 기능과 행동을 조절하는데 관여하고 있다. 신경호르몬 일종인 PRXamide (NH2) 펩타이드 계열 호르몬은 카르복실기 끝에 PRX (X, 다양한 아미노산)라는 공통의 아미노산 서열이 특징적으로 존재하고 있으며, 곤충 전반에 걸쳐 발견된다. 곤충에서PRX 신경호르몬은 다양한 생물학적 기능에 관련하고 있는데 호르몬구조와 기능에 따라 크게 3가지로 분류한다. Pyrokinin (PK)계열의 호르몬은 페로몬 생합성 활성화 신경펩타이드(pheromone biosynthesis activating neuropeptide, PBAN) 및 휴면 호르몬(diapause hormone, DH)이 속하며, 카파(CAPA) 펩타이드 호르몬, 그리고 탈피촉진 호르몬(ecdysis trigging hormone, ETH)이 여기에 속한다. PK 계열의 PBAN 호르몬은 지금으로부터 약 30년전 나방에서 처음 밝혀졌으며, 성페로몬 생합성을 자극하는 신경호르몬으로 확인되었다. 그 이후, PBAN의 연구는 절지동물 전반에 걸쳐 다양한 연구자들에 의하여 광범위하게 이루어졌다. 본 종설은 PBAN의 유전자 구조와 발현, PBAN에 의한 세포신호 전달과 성페로몬 생합성에 관련된 생리적 기작, 그리고 신경호르몬과 PBAN을 이용한 새로운 해충 방제법 개발의 가능성과 예를 소개한다.

Characterization of a novel Cotesia vestalis polydnavirus (CvBV) gene containing a ser-rich motif expressed in Plutella xylostella larvae

  • Shi, Min;Chen, Ya-Feng;Huang, Fang;Zhou, Xue-Ping;Chen, Xue-Xin
    • BMB Reports
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    • 제41권8호
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    • pp.587-592
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    • 2008
  • Cotesia vestalis is an endoparasitoid of Plutella xylostella larvae and injects a polydnavirus (CvBV) into its host during oviposition. In this report we characterize the gene, CvBV3307, and its products. CvBV3307 is located on segment S33 of the CvBV genome, is 517 bp, and encodes a putative protein of 122 amino acids, including a serine-rich region. The expression pattern of CvBV3307 in parasitized larvae and the subcellular localization of CvBV3307 only in granulocytes indicated that it might be involved in early protection of parasitoid eggs from host cellular encapsulation and in manipulating the hormone titer and developmental rhythm of host larvae. Western blot analysis showed that the size of the immunoreactive protein (about 55 kDa) in parasitized hosts at 48 hours post parasitization (h p.p.) is much larger than the predicted molecular weight of 13.6 kDa, which suggests that CvBV3307 undergoes extensive post-translational modification in hosts.

Effects of Insect Hormones on the Replication of Nucleopolyhedrovirus

  • Zhang, Zhi-Fang;Yi, Yong-Zhu;Xiao, Qing-Li;He, Jia-Lu;Zhou, Ya-Jing;Zhang, Yuan-Xing
    • International Journal of Industrial Entomology and Biomaterials
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    • 제4권2호
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    • pp.137-141
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    • 2002
  • An experimental study was undertaken to quantify the effects of insect hormones on the replication of nucleopolyhedrovirus (NPV). The results demonstrated that TCID/ sub 50/ at 72 h post-infection (hpi) rose systematically from 0.55$\times$10$^{8}$ /m1, for untreated cells, up to 1.67$\times$10$^{8}$ / ml at 3$\mu$g/ml, then dropped down to 1.45$\times$10$^{8}$ /m1 at 4 $\mu$g/ml, by adding ecdysone to the culture medium for Bm-N cells infected with a wild-type Bambyx mori. nucleopolyhedrovirus (BmNPV). The optimum enhancement of about 3 times on budded virus (BV) titer at 72 hpi was given at 3 $\mu$g/ml of ecdysone. While the polyhedra number had no obvious variation within the range of concentrations from 0 to 4 $\mu$g/ml. By addition of juvenile hormone analogue (JHA) into the media with this concentration range, the BmNPV TCID/ sub 50/ and polyhedra number at 72 hpi did not show significant changes. Also, the addition of either 3 $\mu$g/ml of ecdysone or 3 $\mu$g/ml of JHA to the culture media did not appear to affect the TCID/ sub 50/ and polyhedra number significantly in infected Sf-21 cells with the autographa californica nucleopolyhedrovirus (AcMNPV).