Pyrethroid resistance in cockroach populations has been a public health challenge since the 1950s. The pyrethroid resistance in the German cockroach, Blattella germanica, is primarily attributed to knockdown resistance (kdr) mutations (E434K, C764R, and L993F) in the voltage-sensitive sodium channel gene (vssc). In this study, the pyrethroid resistance state of the German cockroach in the Republic of Korea (ROK) was assessed by analyzing the frequencies of kdr mutations using one-step PCR with total RNA. The results revealed that among the 25 populations examined, 14 populations exhibited the L993F kdr mutation, while no other mutations were detected. Since other cockroach species are also commonly found in human dwellings in ROK, the vssc genes were cloned from four other species, including Blattella nipponica, Periplaneta americana, Periplaneta japonica, and Periplaneta fuliginosa. Based on the genomic DNA (gDNA) sequences obtained from the vssc cloning, primer sets were designed to amplify the vssc fragment spanning the L993F mutation for each species and used to monitor the development of pyrethroid resistance in cockroach populations in the ROK. The study will facilitate the implementation of a nationwide monitoring program to assess cockroach resistance and select suitable alternatives.
바퀴는 혐오감을 줄 뿐만 아니라 여러 종류의 병원체를 기계적으로 전파하는 주요한 위생곤충이며, 바퀴 방제를 위해 독먹이제를 가장 많이 사용한다. 본 연구에서는 4종류(chlorpyrifos, avermectin, hydramethylnon 및 fipronil)의 살충 주성분이 각각 함유된 국내 유통 독먹이제 3종 (Korea Combat Ultra Slim (K-CUS), Korea Combat Power (K-CP) 및 Korea Zaps Dual Bait (K-ZDB))과 미국 유통 독먹이제 3종(US Combat Source Kill Max (US-CSKM), US Hot Shot MaxAttrax Roach Bait (US-HSM) 및 US Raid Double Control Small Roach Bait (US-RDC))의 독일바퀴(Blattella germanica)에 대한 살충효력을 검증하였다. 6종의 독먹이제 중 fipronil을 살충 주성분으로 사용하는 세 가지의 독먹이제(K-CUS, K-CP 및 US-CSKM)가 속효성 및 높은 살충효과를 나타내었다. K-CUS과 K-CP의 살충효력의 지속성을 검정하기 위해 두 제품을 개봉 후 6개월 및 12개월 이후에 추가로 생물검정을 실시한 결과, 두 제품 모두 시간이 지남에 따라 제품 개봉 직후에 비해 살충효 과가 감소하는 경향을 보였지만, 40시간 이내 독일바퀴에 대한 사충률이 90%에 도달하는 것을 감안하면 적어도 이들 독먹이제의 옥내 설치 후 1 년동안은 살충효과가 유지되는 것으로 판단된다.
Three formula types (gel, cookie, and liquid), six commercial roach bait products containing one of active ingredients among Fipronil, Avermectin, Dinotefuran, and Chlorpyrifos were examined against susceptible strain of German cockroach, Blattella germanica (L.). For the results of killing speed (LT50 values), universal killing speed effects depended on bait formula types. The killing speed of liquid bait formula type was the fastest among three formula types. Followed by gel bait type and cookie bait type. However the control speed (LT90 values) effects depended on the active ingredients that contained in roach baits. The baits contained Fipronil were shown the strongest control performance against German cockroaches. Chlorpyrifos was similar with Fipronil. Followed by Avermectin and Dinotefuran.
The German cockroach, Blatella germanica, is one of the most important household pest that can cause disease on human. Conventional contact insecticides show less efficacy because it is hard to be contacted or digested by cockroach that lives inside small crevice. Ethyl formate(EF), which is a potential fumigant to control various insect pests such as stored grain insects and quarantine pests, can be penetrated wherever air exist and shows toxicity on respiratory system of insect. In this trials, we've demonstrated practical and commercial scale fumigations of EF on German cockroach. Efficacy of EF was described in terms of concentration × time (CT) product. At practical fumigation, EF gave 100% control of German cockroach nymph and adult when the CT product was 43.2g h m-3. When 600m3 scale warehouse fumigation for 15 hours with 5g m-3 of EF, nymph and adult stage of German cockroach were completely controlled. The ventilation time to reduce EF concentration under TLV(Threshold Limit Value, EF=100ppm) was less than 1 hour. These results show that EF can be applied at warehouse or mill house to control German cockroach effectively.
Olfactory sensitivity exhibits daily fluctuations. Several studies have suggested that the olfactory system in insects is modulated by both biogenic amines and neuropeptides. However, molecular and neural mechanisms underlying olfactory modulation in the periphery remain unclear since neuronal circuits regulating olfactory sensitivity have not been identified. Here, we investigated the structure and function of these signaling pathways in the peripheral olfactory system of the American cockroach, Periplaneta americana, utilizing in situ hybridization, qRT-PCR, and electrophysiological approaches. We showed that tachykinin was co-localized with the octopamine receptor in antennal neurons located near the antennal nerves. In addition, the tachykinin receptor was found to be expressed in most of the olfactory receptor neurons in antennae. Functionally, the effects direct injection of tachykinin peptides, dsRNAs of tachykinin, tachykinin receptors, and octopamine receptors provided further support for the view that both octopamine and tachykinin modulate olfactory sensitivity. Taken together, these findings demonstrated that octopamine and tachykinin in antennal neurons are olfactory regulators in the periphery. We propose here the hypothesis that octopamine released from neurons in the brain regulates the release of tachykinin from the octopamine receptor neurons in antennae, which in turn modulates the olfactory sensitivity of olfactory receptor neurons, which house tachykinin receptors.
Fumigant and contact toxicities of 11 Myrtaceae plant essential oils and their constituents against adult male and female Blattella germanica were evaluated. Of 11 Myrtaceae plant essential oils, Eucalyptus polybractea, E. smithii, E. radiata, E. dives, E. globulus, and Melaleuca uncinata, showed 100% fumigant toxicity against adult male German cockroaches at a concentration of 7.5 mg/liter air concentration. In contact toxicity tests, E. polybractea, E. smithii, E. radiata, E. dives, E. globulus, M. dissitiflora, and M. uncinata produced strong insecticidal activity against adult male and female German cockroaches. Of the essential oil constituents, terpinolene, α-terpinene, and terpinen-4-ol demonstrated strong fumigant toxicity against adult male and female B. germanica. Eugenol, isoeugenol, methyl eugenol, and terpinen-4-ol showed strong contact toxicity against adult male B. germanica. The toxicity of the constituent blends identified from M. dissitiflora essential oils indicated that terpinen-4-ol were major contributor to the fumigant activity or contact toxicity of the artificial blend. Only isoeugenol exhibited inhibition activity against male acetylcholinesterase. IC50values of isoeugenol were 0.22 mg/mL against male acetylcholinesterase.
We evaluated insecticidal and acetylcholine esterase inhibition activity of 11 Apiaceae plant essential oils and their constituents against male and female adults of Blattella germanica. Of 11 Apiaceae plant essential oils tested, dill (Anethum graveolens), carvi (Carum carvi), and cumin (Cuminum cyminum) essential oils demonstrated > 90 % fumigant toxicity against male adults of German cockroach at 5 mg/filter paper. In contact toxicity test, dill (Anethum graveolens), carvi (Carum carvi), cumin (Cuminum cyminum), and ajowan (Trachyspermum ammi) essential oils produced strong insecticidal activity against male and female adults of German cockroach. Among test compounds, carvone, 1,8-cineole, trans-dihydrocarvone, cuminaldehyde, trans-anethole, p-cymene, and γ-terpinene demonstrated strong fumigant toxicity against male and female adults of B. germanica. In a contact toxicity test, carveol, cuminaldehyde, (S)-(+)-carvone, trans-anethole, thymol, and p-cymene showed the strong contact toxicity against B. germanica male and female adults. IC50 values of α-pinene, carvacrol, and dihydrocarvone against female acetylcholine esterase were 0.28, 0.17, and 0.78 mg/mL, respectively. The toxicity of blends of constituents identified in 4 active oils indicated that carvone, cuminaldehyde, and thymol were major contributors to the fumigant or contact toxicity of the artificial blend.
Olfaction as an important sensory modality in insects is essential for identification of hosts, mates, oviposition sites, and food resources in nature. In the cockroach, both olfactory sensitivity in the antennae and the formation of shortand long-term olfactory memories exhibit daily fluctuations that are regulated by the circadian system. An important problem is to characterize the signalling systems and molecules that are involved in this regulation of olfactory reception and olfactory behaviour. Recent results suggest that insect olfactory systems are modulated by both biogenic amines and neuropeptides. However, it remains elusive how these molecules modulate olfactory system in the peripheral systems. In the present study, our aim was to characterize the structure and organization of these signalling systems in the peripheral olfactory system of the American cockroach, Periplaneta americana. This work illuminated that tachykinin and its receptors regulate olfactory sensitivity in the antennae of the cockroach. Injections of tachykinin peptides caused decreases in the amplitude of the electroantennoogram (EAG), cells that produce tachykinin were localized in the antennae, and olfactory receptor neurons expressed tachykinin receptors. Interestingly, the tachykinin expressing cells also express receptors for the biogenic amine, octopamine and injections of octopamine also cause reductions in EAG amplitude. These results suggest that both octopaminergic and tachykinin peptide signalling pathways are important regulators of olfactory reception in the cockroach. We propose the hypothesis that octopamine regulates the release of tachykinin from cells in the antennae that, in turn, modulate the sensitivity of olfactory receptor neurons.
This study was carried out to investigate the inhabitation features of cockroaches in Jejusi, Korea. For sampling, fourteen sites were selected from every two sites of seven different habitat categories, including dwelling house, Korean restaurant, Japanese restaurant, Chinese restaurant, tea-room, hotel-inn and hospital. The cockroaches were weekly captured using sticky-traps from March, 2005 to February, 2006. Studies were focused on the temporal fluctuations of the total sample and two developmental stages (nymph and adult), the sex ratio, the positive trap percentage, and the comparative population sizes of the habitats. The positive trap percentage was 16.64%. Three species, Blatella germanica, Periplaneta americana, and Periplaneta fuliginosa, were confirmed to inhabit in Jejusi. The predominant species was P. fuliginosa (89.16%). Meanwhile, P. americana and B. germanica were shown to be much lower population size (6.44 and 4.40%, respectively). The mean sex ratio was 0.75% (males/females): B. germanica, 0.62%, P. americana, 0.29% and P. fuliginosa, 0.87%. The nymphs (82.19%) surpassed the adults (17.81%) in the individual number. Periplaneta fuliginosa also exceeded much more the other two species (P. americana and B. germanica, 5.37% and 1.67%, respectively) in the nymph number/the collected cockroaches. Both curves of the nymph and adult in the seasonal population change of P. fuliginosa made the peaks at September. This result suggested that the life cycle of this species is univoltine. The positive trap percentage and population size in the Japanese restaurant where was shown to be the most heavily polluted habitats by cockroaches were 20.67% and 0.79 (individuals/trap/week), respectively. Also, Chinese restaurant and dwelling house where were shown to be comparatively high polluted were 31.67% and 23.75% in positive trap percentage and 0.76 and 0.40 in population size, respectively. In contrast, hotel-inn, tea-room, hospital and korean restaurant were shown to be quite or very low numbers as 16.50%, 16.00%, 6.20%, and 6.00% in positive trap percentage, and 0.37, 0.18, 0.10, 0.06 in population size, respectively. It was concluded that there were differences in the species composition and the actual living conditions of the cockroach between Jejusi and other cities of Korea.
Two acetylcholinesterases (AChEs; BgAChE1 and BgAChE2) from Blattella germanica were functionally expressed using the baculovirus system. Kinetic analysis demonstrated that BgAChE2 had higher catalytic efficiency but lower substrate specificity than BgAChE1. Except paraoxon, BgAChE1 was generally less sensitive to inhibitors than BgAChE2. Western blot analysis using anti-BgAChE antibodies revealed that BgAChE1 was far more abundant in all examined tissues compared to BgAChE2, which is only present in the central nervous system. Both BgAChEs existed in dimeric form, covalently connected via a disulfide bridge under native conditions. Most fractions of BgAChE1 had a glycophosphatidylinositol (GPI) anchor, but a small fraction comprised a collagenlike tail. BgAChE2 appeared to have a collagen-GPI-fused tail. Based on the kinetic and molecular properties, tissue distribution and abundance, BgAChE1 was confirmed to play a major role in postsynaptic transmission.
An olfactory system is one of the complicatedly-equipped sensory facilities in the insect sensory systems, which is most essential for insect olfactory-driven behaviors relevant to survival such as finding hosts, mates, oviposition sites, and food resources. These behaviors are mostly controlled by circadian rhythm. The american cockroach, Periplaneta americana, has been an ideal model to extensively study olfactory system associated with complex behavioral repertoires and circadian controls of certain behaviors, respectively. Even though it is known that olfactory-related physiology in peripheral and central olfactory systems seems to be highly variable by circadian rhythms, little is known about how these are controlled at the neuronal and molecular levels. It has been reported that the plasticity in the olfactory system is modulated by a set of neuropeptides. However, it remains still elusive how these neuropeptides and neuroendocrine system interact in the peripheral systems to change olfactory responses in cockroaches. Here, current study focuses on the localization of neuropeptides and their receptors by using in situ hybridization and immunostaining methods. Also, expression level of these genes are evaulated by qRT-PCR methods. Circadian fluctuation of these genes seem to be important neurotransmission machineries in the periphery. Our current study suggests that microcircuits of neuronal systems in the peripheral olfactory organ play an important in olfactory modulation by circadian rhythm
시판되고 있는 61종 살충제에 대한 식이법으로 바퀴(Blattella germanica) 수컷성충의 우수 살충제를 탐색하고, 활성이 있는 약제를 이용하여 처리부위와 검정법에 따른 감수성 차이와 발현속도를 비교하였다. 식이법에서 이상의 살충률을 나타낸 세 약제중에서 dichlorvos, fenitrothion, fipronil약제를 선발하여, 식이법과 여지접촉법으로 살충력을 비교한 결과, dichlorvos와 fenitrothion은 여지접촉법에서, fipronil은 식이법에서 더 높은 감수성을 나타내었다. 처리부위(머리, 가슴, 배, 다리)에 따라서는 dichlorvos와 fenitrothion은 머리처리에서, fipronil은 가슴처리에서 감수성이 가장 높았다. Fenitrothion과 fipronil의 (일)은 각각 1.05와 0.98로 속효성이었으며, boric acid와 hydramethylnon은 각각 3.92와 2.26으로 지효성이였다.