Infestación de Musca domestica L. (Díptera, Muscidae) en faenadoras avícolas / Infestation of Musca domestica L. (Diptera, Muscidae) in poultry slaughterhouses

Musca domestica (Diptera, Muscidae) es la mosca más común en todo el mundo. Más de 100 patógenos pueden causar enfermedades en humanos y animales por este tipo de insectos. Estos patógenos incluyen: diarrea infantil, ántrax, cólera, oftalmía, disentería bacilar, fiebre tifoidea y tuberculosis. Además, las moscas domésticas transmiten muchos de los huevos de helmintos como Enterobius vermicularis, Strongyloides stercoralis, Trichuris trichiura, Toxocara canis, y especies de Dipylidium, Diphyllobothriam, Hymenolepis, Taenia y Trichomonas. También puede transmitir quistes de protozoos y trofozoítos como E. histolytica y Giardia lamblia. Se determinó el índice de infestación por Musca domestica L. (Díptera, Muscidae) en una faenadora avícola ubicada en el Perú. Para ello se evaluó no sólo el tratamiento aplicado: protocolo de cola entomológica (T1), monitoreo de insfectación de mosca (T2) o comincación de lámparas LED UV más tabla de pegamento adhesivo (T3), sino también las diferentes zonas de faenadora: zonas sucias de descarga y estabulación (ZDE), preparación (ZP), zonas adicionales de sacrificio sanitario (ZSS), preparación de residuos orgánicos (ZPRO), conservación de los residuos orgánicos (ZCRO) y de conservación de sangre (ZCS). Los resultados demoestraron que, independientemente de la zona de operación, el tratamiento más efectivo para determinar la infestación por la mosca doméstica fue el combinado de lámpara LED junto con tablas de pegamento (T3), seguido del tratamiento de protocolo de cola entomológica (T1) y el tratamiento por Monitoreo de infestación de moscas (T2) independientemente de los días de recolección. Es importante seguir las diferentes normativas a fin de controlar y eliminar la presencia de moscas (y de otros insectos voladores) para evitar la contaminación y, por ende, enfermedades(AU)

Musca domestica (Diptera, Muscidae) is the most common fly in the world. More than 100 pathogens can cause diseases in humans and animals by these types of insects. These pathogens include: infant diarrhea, anthrax, cholera, ophthalmia, bacillary dysentery, typhoid fever, and tuberculosis. In addition, houseflies transmit many of the eggs of helminths such as Enterobius vermicularis, Strongyloides stercoralis, Trichuris trichiura, Toxocara canis, and Dipylidium, Diphyllobothriam, Hymenolepis, Taenia, and Trichomonas species. It can also transmit cysts of protozoa and trophozoites such as E. histolytica and Giardia lamblia. The infestation index by Musca domestica L. (Diptera, Muscidae) was determined in a poultry slaughterhouse located in Peru. For this, not only the applied treatment was evaluated: entomological glue protocol (T1), fly infestation monitoring (T2) or combination of UV LED lamps plus adhesive glue table (T3), but also the different slaughter areas: unloading and holding areas (ZDE), preparation (ZP), additional stamping-out areas (ZSS), preparation of organic waste (ZPRO), conservation of organic waste (ZCRO) and blood conservation (ZCS). The results showed that, regardless of the area of operation, the most effective treatment to determine housefly infestation was the LED lamp combined with glue boards (T3), followed by the entomological glue protocol treatment (T1 ) and the treatment by Monitoring of fly infestation (T2) regardless of the days of collection. It is important to follow the different regulations in order to control and eliminate the presence of flies (and other flying insects) to avoid contamination and, therefore, diseases(AU)

Development of Chrysomya albiceps Wiedemann, 1819 (Diptera: calliphoridae) and Musca domestica Linnaeus, 1758 (Diptera: muscidae) reared together in pig tissues

Chysomya albiceps and Musca domestica are important for forensic entomology, and human and animal health. This study analyzed the effects of the coexistence of C. albiceps and M. domestica reared in four different assays in two pig tissues, brain and intestine: assay 1, interaction between the larvae of the same age; assay 2, interaction between larvae of C. albiceps 24 hours older than larvae of M. domestica; assay 3, interaction between larvae of M. domestica 24 hours older than the larvae of C. albiceps; assay 4, larvae of both species were reared together in flasks with a small supply of food. Weight of larvae, growth time and imago emergence frequency were studied. C. albiceps responded better than M. domestica under most conditions tested. Larvae of C. albiceps responded better in mixed cultures (together with M. domestica) than in pure cultures (larvae of the same species). In contrast, M. domestica responded better when reared in pure cultures. Both species presented shorter growth times when their larvae were reared in intestine tissue with larvae 24 hours younger than the larvae of the concurrent species, compared to their respective growth times in pure cultures. The results confirmed that trophic interactions are relevant to the successful colonization of carrion by C. albiceps. Coexistence of the two species may result in changes in values of their biological components. The results also help to shed light on the biology of the two species in carrion

Synanthropic diptera affecting layer poultry farms: a review / Dípteros sinantrópicos de importância para a avicultura de postura: uma revisão

The poultry farm of posture is an economic activity of great relevance to Brazil. Health aspects of flocks of laying chickens, such as the occurrence of infestations by parasites and poultry pests, influence significantly the productivity indicators. In this context, the control of synanthropic diptera is one of the challenges of the poultry farmers and professionals of this area. In Brazil, the control of flies in poultry environments is based mainly on the use of pesticides, while other alternatives are less frequent. Among the flies' species most regularly found in poultry farms are the Musca domestica, Chrysomya spp., Fannia spp., and others. This review aims at compiling the literature on the occurrence, impact on poultry systems, biology, epidemiology and control of the species of synanthropic flies considered important for the Brazilian poultry industry.(AU)

A avicultura de postura é uma atividade econômica de grande relevância para o Brasil. Aspectos sanitários dos plantéis de galinhas poedeiras, tais como infestações por parasitos e pragas avícolas, influenciam significativamente os indicadores de produtividade desse setor. Nesse contexto, o controle de dípteros sinantrópicos constitui um dos desafios de avicultores e profissionais da área. No Brasil, o controle de moscas em ambientes avícolas é baseado, sobretudo, no uso de pesticidas, ao passo que o uso de outras alternativas é menos recorrente. Entre as espécies de moscas mais frequentes em granjas avícolas de postura, destacam-se Musca domestica, Chrysomya spp., Fannia spp., entre outras. O objetivo desta revisão é realizar a compilação da literatura existente sobre a ocorrência, o impacto nos sistemas avícolas, a biologia, a epidemiologia e o controle das espécies de dípteros sinantrópicos consideradas importantes para a avicultura de postura brasileira.(AU)

Bases moleculares da absorção de nutrientes, tamponamento e fluxos de fluídos no intestino médio de Musca domestica / Molecular bases of nutrient absorption, buffering and fluid fluxes in the midgut of Musca domestica

O intestino dos insetos representa uma interface pouco protegida dos agentes externos. A identificação dos mecanismos moleculares envolvidos nos processos fisiológico-digestivos permite encontrar alvos potenciais para o controle de insetos. As moléculas envolvidas na absorção de nutrientes, tamponamento e geração de fluxos de água no intestino médio do inseto-modelo Musca domestica (Diptera Cyclorrhapha) foram identificadas. Para isso, foi feita uma análise da expressão gênica ao longo do intestino médio, a identificação e anotação de proteínas por bioinformática, a confirmação da localização apical das proteínas por análise proteômica de membranas microvilares purificadas e a determinação do papel de algumas das proteínas através de experimentos in vivo utilizando diferentes dietas, corantes e inibidores. A acidificação da região média é consequência da atividade anidrase carbônica que gera prótons que são bombeados por uma H+ V-ATPase apical acompanhados por cloreto transportado por um simporter K+Cl-. O K+ é recuperado por um canal de K+ e a homeostase dos cátions mantida pela Na+/K+-ATPase basolateral. O bicarbonato é eliminado basolateralmente em troca por cloreto por um antiporter. A acidificação é regulada diretamente por um antiporter Na+/H+ e indiretamente por uma proteína envolvida na homeostase do cobre. O muco protetor da região média é tamponado com bicarbonato gerado por uma anidrase carbônica com âncora de GPI e transportado por um antiporter Na+HCO3-/H+Cl-. O excesso de ácido é eliminado por um antiporter Na+/H+ situado na membrana basolateral. A alcalinização da região posterior ocorre pelo transporte apical de NH3 que sequestra os prótons luminais gerando amônio, junto à remoção de prótons em simporte com aminoácidos e peptídeos. A acidificação intracelular, consequência da entrada de aminoácidos com prótons, é regulada por uma H+ V-ATPase basolateral. A geração de fluxos de água é consequência da atividade conjunta de simporters NKCC e KCC ajudados pelas aquaporinas. A inibição dos simporters com inibidores específicos mostrou que o contrafluxo de água está envolvido na reciclagem da enzima tripsina. Por último, o principal lugar de absorção nutrientes no intestino médio é a região posterior, a exceção do cobre que é absorvido na região média

The gut of insects is a less protected interphase against external agents. The identification of the molecular mechanisms involved in physiological-digestive processes allows one to find potential targets for insect control. The molecules involved in nutrient absorption, buffering and fluid fluxes in the midgut of the insect-model M. domestica (Diptera Cyclorrhapha) were identified. For this, gene expression along the midgut was analyzed; proteins were identified and annotated by bioinformatics; apical localization of proteins was confirmed by proteomics of purified microvillar membranes; the role of proteins was confirmed by in vivo experiments using different diets, dyes and inhibitors. Middle midgut acidification occurs by the action of an apical H+ V-ATPase with protons coming from carbonic anhydrase activity accompanied by chloride transported with potassium by a K+Cl- symporter. Potassium is recovered by a potassium channel, and cation homeostasis maintained by a basolateral Na+/K+-ATPase. Acidification is directly regulated by a Na+/H+ antiporter and indirectly by a copper homeostasis protein. Mucus protecting epithelium is neutralized with bicarbonate generated by a GPI-ancored carbonic anhydrase and transported by a Na+HCO3-/H+Cl- antiporter. Intracellular acidification is avoided by a basolateral Na+/H+ antiporter. Posterior midgut alkalization occurs by the action of an apical ammonia transporter and proton amino acid (and peptide) symporters. Intracellular acid is eliminated by a basolateral H+ V-ATPase. Fluid fluxes are generated by K+Cl- and Na+Cl-Cl- symporters helped by aquaporins. Inhibition of these symporters showed that the countercurrent flux of water allows trypsin recycling. Finally, posterior midgut is the main location of nutrient absorption, except for copper which is absorbed in the middle midgut

Status and preliminary mechanism of resistance to insecticides in a field strain of housefly (Musca domestica, L)

ABSTRACT Resistance profiles of houseflies (Gol-RR) collected from a field in Golmud city, Qinghai province, China, were determined for seven insecticides using topical bioassays. Resistance ratios of >1219.51, 153.17, >35.43, 6.12, 3.24, 1.73, and 0.86-fold were obtained for propoxur, cypermethrin, imidacloprid, indoxacarb, chlorpyrifos, fipronil, and chlorfenapyr, respectively, relative to a laboratory susceptible strain (SS). Synergism experiments showed that piperonyl butoxide (PBO), triphenylphosphate (TPP), and diethyl maleate (DEM) increased propoxur toxicity by >105.71, >7.88, and >5.15-fold in the Gol-RR strain, compared with 5.25, 2.00, and 1.39-fold in the SS strain, indicating the involvement of P450 monooxygenases, esterases, and glutathione-S-transferase in conferring resistance. Although cypermethrin resistance was significantly suppressed with PBO, TPP, and DEM in the Gol-RR strain, the synergistic potential of these agents to cypermethrin was similar in the SS strain, demonstrating that metabolism-mediated detoxification was not important for conferring resistance to cypermethrin in the Gol-RR strain. However, the three agents did not act synergistically with imidacloprid, indicating that other mechanisms may be responsible for the development of resistance to this insecticide. Acetylcholinesterase (AChE) activity was 13.70-fold higher in the Gol-RR than in the SS strain, suggesting the properties of the AChE enzyme were altered in the Gol-RR strain. Thus, rotation of chlorfenapyr insecticide with other agents acting through a different mode with minimal/no resistance could be an effective resistance management strategy for housefly.

Larvicidal, pupicidal and oviposition deterrent activities of essential oils from Umbelliferae plants against house fly Musca domestica

Objective: To evaluate the toxicity against house fly Musca domestica L. (M. domestica)-larvicidal, pupicidal, and oviposition deterrent activities of essential oils (EOs) from five plants: Anethum graveolens L. (A. graveolens), Centratherum anthelminticum L. (C. anthelminticum), Foeniculum vulgare Mill. (F. vulgare), Pimpinella anisum L. (P. anisum), and Trachyspermum ammi L. (T. ammi) Sprague. Methods: Dipping, topical and dual-choice assays were performed by using each EO at three concentrations (1%, 5% and 10%) as well as cypermethrin (positive control) and ethyl alcohol (negative control) in order to determine their larvicidal, pupicidal and oviposition deterrent activities against M. domestica mortality rate and morphogenic abnormality of larvae and pupae were recorded after 3 and 10 days of incubation. Oviposition deterrent activity was recorded for 5 consecutive days from the beginning of the assay. Results: All EOs at the highest concentration (10%) were highly effective in oviposition deterrent with 100% effective repellency and an oviposition activity index of -1.00. Ten percent of F. vulgare oil exhibited the highest efficacy against the larvae with 89.6% mortality rate at 3 days and an LC

Larvicidal, pupicidal and oviposition deterrent activities of essential oils from Umbelliferae plants against house fly Musca domestica

Objective:To evaluate the toxicity against house fly Musca domestica L. (M. domestica)-larvicidal, pupicidal, and oviposition deterrent activities of essential oils (EOs) from five plants: Anethum graveolens L. (A. graveolens), Centratherum anthelminticum L. (C. anthelminticum), Foeniculum vulgare Mill. (F. vulgare), Pimpinella anisum L. (P. anisum), and Trachyspermum ammi L. (T. ammi) Sprague.Methods:Dipping, topical and dual-choice assays were performed by using each EO at three concentrations (1%, 5% and 10%) as well as cypermethrin (positive control) and ethyl alcohol (negative control) in order to determine their larvicidal, pupicidal and oviposition deterrent activities against M. domestica mortality rate and morphogenic abnormality of larvae and pupae were recorded after 3 and 10 days of incubation. Oviposition deterrent activity was recorded for 5 consecutive days from the beginning of the assay.Results:All EOs at the highest concentration (10%) were highly effective in oviposition deterrent with 100% effective repellency and an oviposition activity index of -1.00. Ten percent of F. vulgare oil exhibited the highest efficacy against the larvae with 89.6% mortality rate at 3 days and an LCConclusions:These results indicate that F. vulgare, A. graveolens and T. ammi EOs are effective larvicidal, pupicidal and oviposition deterrent agents against house fly M. domestica.

Bacteria on body surface of Musca domestica adults from different livestock farms / 中国人兽共患病学报

This study aims to isolate and identify the bacteria from the surface of Musca domestica adults in different livestock farms.The adults of Musca domestica were collected with sweep nets,then the surface of adult flies were washed with sterile water,and the eluted bacteria cultured with LB culture medium.The DNA of the bacteria isolated was extracted,16SrDNA fragment was amplified through general PCR,and the 16SrDNA sequence was blasted with bacteria sequence in NC-BI.Results showed that the number of Musca domestica adults and the bacteria from their surface had significant different in different livestock farms.The population density of Musca domestica adults had linear correlation with the number of bacteria from Musca domestica adults and the number of bacteria genus.Among the bacteria isolated from Musca domestica adults,Staphylococcus,Klebsiella,Escherichia and Serratia were the most common genus in the livestock farms.Most of the bacteria isolated from livestock farm house flies were opportunistic human bacterial pathogen,and the risk of bacterial pathogens spread to people was existed.The population density of house flies reflected the management level of different livestock farms.The house flies could mechanical transmit opportunistic human bacterial pathogen from livestock residue to human.So the house flies control and the monitoring of bacteria on body surface of house flies carried should be strengthened.

Antimicrobial activity of Musca domestica cecropin -4 ( mdCec 4 ) against Acinetobacter baumannii / 中华微生物学和免疫学杂志

Objective To study the antimicrobial activity of chemically synthesized Musca domes-tica cecropin-4 (mdCec4) against Acinetobacter baumannii. Methods Minimum inhibitory concentration (MIC) and minimum bactericidal concentration(MBC) of mdCec4 against Acinetobacter baumannii were de-tected by microdilution method. Dynamic time-kill curve was monitored by microplate reader. Effects of dif-ferent influencing factors,such as NaCl,trypsin and pH value,on the antimicrobial activity of mdCec4 were assessed. The ultrastructure of Acinetobacter baumannii exposed to the MIC of mdCec4 was observed under scanning electron microscope (SEM). Results The MIC and MBC of mdCec4 against Acinetobacter bau-mannii were 4 μg/ml and 8 μg/ml,respectively. The dynamic time-kill curve revealed that mdCec4 had a high antimicrobial activity within 24 hours. The antimicrobial activity of mdCec4 was not affected by NaCl concentration ranged from 0 to 200 mmol/L, but could be inhibited by trypsin at a concentration of 1.0 mg/ml. Among Tris-HCl buffers with different pH values (6.5, 7.5, 8.8), the optimum condition for mdCec4 was pH8.8. Results of SEM showed that the degree of bacterial cell injury was positively correlated with exposing time. Conclusion This study shows that the newly discovered mdCec4 has a better antimicro-bial activity against Acinetobacter baumannii as it can eliminate Acinetobacter baumannii within a short period of time and its antimicrobial ability can last more than 24 hours. Moreover,mdCec4 has the characteristic of good stability in conditions of different concentrations of NaCl and Trypsin as well as various pH values. SEM observation shows that the MIC of mdCec4 can destroy the integrity of bacterial membrane resulting in a re-lease of a large number of cell contents, which finally lead to the death of Acinetobacter baumannii. This study provides references for further study of the antimicrobial mechanism of mdCec4 against Acinetobacter baumannii.

Expression of musca domestica β-glucosidase in the organs besides digestive system of Ⅲ instar larvae / 局解手术学杂志

Objective To study whether the organs besides digestive system of musca domestica Ⅲ instar larvae have the capability of produceing musca β-glucosidase.Methods Tissues of malpighian tubules,trachea,epiploon and body wall of musca domestica Ⅲ instar lar-vae were dissected under anatomic microscope,and the expression of β-glucosidase gene in these dissected tissues were detected by reverse transcription PCR.And the tissue localization of β-glucosidase mRNA was further identified by in situ hybridization.Moreover,anti-cellulase was used to determinate the tissue distribution with immunohistochemical staining.The relative mRNA expression levels of musca domesticaβ-glucosidase gene in these organs were tested by real-time quantitative PCR.Results The reverse transcription PCR showed that the ampli-fication products of β-glucosidase gene were observed in tissues of malpighian tubules,trachea and body wall.β-glucosidase mRNA was shown in the epithelium cells of malpighian tubules,trachea and body wall by in situ hybridization,and it was almost the same in the results of im-munohistochemical staining.The real-time quantitative PCR showed that the relative expression quantity of β-glucosidase gene in malpighian tubules and body wall were higher than that in foregut,while it was lower in itrachea than that in foregut.And it was of statistical difference in gene expression level of β-glucosidase among these organs (P <0.05).Conclusion Malpighian tubules,trachea and body wall of musca domestica Ⅲ instar larvae have the function of secreting β-glucosidase.Combining with the characteristics of secreting β-glucosidase in most organs of digestive system,it may provide a new biological method for the prevention and treatment of human diseases transmitted by musca domestica with the use of taget gene β-glucosidase.

Histological Observation and Expression Patterns of antimicrobial peptides during Fungal Infection in Musca domestica (Diptera: Muscidae) Larvae

ABSTRACT Housefly, Musca domestica, has a complicated immune system. However, its underlying operating mechanism remains elusive. Candida albicans is a major pathogen affecting humans by causing deep infection fungous disease, but it is non-symbiotic in houseflies. To investigate the C. albicans infection process in housefly, the changes in morphological and histological and expression patterns of antimicrobial peptide were monitored to indicate the insect's response to fungal infection. The results showed that scattered brown spots were comprising melanized encapsulation and encapsulated fungal cells were initially observed at the inner side of larvae's body wall 3 h post-infection (PI). Between 6 and 36 h PI, the whole body of larvae was densely covered with the brown spots, which then gradually disappeared. The majority had disappeared at 48 h PI. Some fungi colonized in the gaps between the body wall and the muscle layer, as well as among muscle fibers of the muscle layer at 12 h PI and hyphal was observed at 18 h PI. These fungi colonized distribution changed from a continuous line to scattered spots at 24 h PI and virtually disappeared at 48 h. The results of quantitative PCR analysis revealed that in coordination with the variation during the infection, the expression levels of four antimicrobial peptides were up-regulated. In conclusion, C. albicans infection in M. domestica larvae involved the following stages: injection, infection, immune response and elimination of the pathogen. The rapid response of antimicrobial peptides, melanized encapsulation and agglutination played a vital role against the pathogenic invasion.

Proteomic Analysis of the Peritrophic Matrix from the Midgut of Third Instar Larvae, Musca domestica / 生物医学与环境科学（英文）

<p><b>OBJECTIVE</b>To better comprehend the molecular structure and physiological function of the housefly larval peritrophic matrix (PM), a mass spectrometry approach was used to investigate the PM protein composition.</p><p><b>METHODS</b>The PM was dissected from the midgut of the third instar larvae, and protein extracted from the PM was evaluated using SDS-PAGE. A 1D-PAGE lane containing all protein bands was cut from top to bottom, the proteins in-gel trypsinised and analysed via shotgun liquid chromatography- tandem mass spectrometry (LC-MS/MS).</p><p><b>RESULTS</b>In total, 374 proteins, with molecular weights varying from 8.225 kD to 996.065 kD and isoelectric points ranging from 3.83 to 11.24 were successfully identified, most identified proteins were mainly related to immunity, digestion, nutrient metabolism and PM structure. Furthermore, many of these proteins were functionally associated with pattern binding, polysaccharide binding, structural constituent of peritrophic membrane and chitin binding, according to Gene Ontology annotation.</p><p><b>CONCLUSION</b>The PM protein composition, which provides a basis for further functional investigations of the identified proteins, will be useful for understanding the housefly larval gut immune system and may help to identify potential targets and exploit new bioinsecticides.</p>

Insecticidal effect of Cryptocarya alba essential oil on the housefly, Musca domestica L / Efecto insecticida del aceite esencial de Cryptocarya alba en la mosca doméstica, Musca domestica L

The composition of the essential oil (EO) from Cryptocarya alba obtained by hydro distillation of fresh leaves was analyzed using gas chromatography (GC) and gas chromatography/mass spectrosmetry (GC/MS). The insecticidal effect of the oil on the house fly Musca domestica was evaluated by placing flies in a sealed glass jar containing a piece of EO-treated cotton yarn. The dose necessary to kill 50 percent of flies (LC50) in 0.5 and 1 h was determined at 26 +/- 1 °C. The essential oil from Cryptocarya alba showed significant insecticidal properties [33.56 (7.06-159.50) mg/dm3 (0.5 h) and 15.07 (5.29-42.91) mg/dm3 (1 h)]. According to GC and GC/MS analysis a total of 38 compounds were identified. The composition of the Cryptocarya alba essential oil reported in this study is different to that reported in other publications with 4-terpineol (17.48 percent) ; 4- (3,3-dimethyl-but-1-ynyl) -4-hydroxy-2,6,6-trimethylcyclohex-2-enone (12.84 percent); 1,8-cineole (7.90 percent); p-cymene (7.11 percent) and sabinene (6.80 percent), accounting for 52.13 percent of the EO. The EO from Cryptocarya alba appears promising as a natural insecticide against houseflies.

La composición del aceite esencial (AE), obtenido por hidrodestilación de hojas frescas de Cryptocarya alba se analizó mediante cromatografía de gases (CG) y cromatografía de gases/espectrometría de masas (CG/EM). La actividad insecticida del aceite contra la mosca doméstica, Musca domestica se evaluó colocando las moscas en un frasco de vidrio sellado con un trozo de hilo de algodón tratado con diferentes cantidades de AE. La dosis necesaria para matar el 50 por ciento de las moscas (LC50) en 0,5 y 1 hora se determinó a 26 +/- 1 oC. El aceite esencial de Cryptocarya alba mostró un buen efecto insecticida [33,56 (7,06-159,50) mg/dm3 (0,5 h) and 15,07 (5,29-42,91) mg/dm3 (1 h)]. La composición del aceite esencial de Cryptocarya alba encontrada en este trabajo es diferente al informado en otras publicaciones, con 4-terpineol (17,48 por ciento); 4-(3,3-dimetil-but-1-inil)-4-hidroxi-2,6,6-trimetilciclohex-2-enona (12.84 por ciento); 1,8-cineole (7,90 por ciento); p-cimeno (7,11 por ciento) y sabineno (6,80 por ciento), lo que representa el 52.13 por ciento del AE. El AE de Cryptocarya alba parece prometedor como un insecticida natural contra la mosca doméstica.

Molecular detection and antimicrobial resistance of Pseudomonas aeruginosa from houseflies (Musca domestica) in Iran

BackgroundPseudomonas aeruginosa is a common bacterium that can cause disease in humans and other animals. This study was conducted to screen for molecular detection and antimicrobial-resistant P. aeruginosa in Musca domestica in different locations in the Iranian provinces of Shahrekord and Isfahan.MethodsMusca domestica were captured by both manual and sticky trap methods, during the daytime, from household kitchens, cattle farms, animal hospitals, human hospitals, slaughterhouses and chicken farms at random locations in Shahrekord and Isfahan provinces of Iran, and subsequently transported to the laboratory for detection of P. aeruginosa. In the laboratory, flies were identified and killed by refrigeration in a cold chamber at −20 °C, then placed in 5 mL peptone water and left at room temperature for five hours before being processed. Pseudomonas isolates were preliminarily identified to genus level based on colony morphology and gram staining, and their identity was further confirmed by polymerase chain reaction.ResultsOverall blaTEM gene was recovered from 8.8 % (53/600) of the P. aeruginosa isolated from houseflies collected from the two provinces. A slightly higher prevalence (10.7 %; 32/300) was recorded in Shahrekord province than Isfahan province (7.0 %; 21/300). The locations did not differ statistically (p < 0.05) in bacterial prevalence in flies. Seasonal prevalence showed a significantly lower infection frequency during autumn.ConclusionsHouseflies are important in the epidemiology of P. aeruginosa infections.(AU)

Molecular detection and antimicrobial resistance of Pseudomonas aeruginosa from houseflies (Musca domestica) in Iran

Background Pseudomonas aeruginosa is a common bacterium that can cause disease in humans and other animals. This study was conducted to screen for molecular detection and antimicrobial-resistant P. aeruginosa in Musca domestica in different locations in the Iranian provinces of Shahrekord and Isfahan. Methods Musca domestica were captured by both manual and sticky trap methods, during the daytime, from household kitchens, cattle farms, animal hospitals, human hospitals, slaughterhouses and chicken farms at random locations in Shahrekord and Isfahan provinces of Iran, and subsequently transported to the laboratory for detection of P. aeruginosa. In the laboratory, flies were identified and killed by refrigeration in a cold chamber at −20 °C, then placed in 5 mL peptone water and left at room temperature for five hours before being processed. Pseudomonas isolates were preliminarily identified to genus level based on colony morphology and gram staining, and their identity was further confirmed by polymerase chain reaction. Results Overall blaTEM gene was recovered from 8.8 % (53/600) of the P. aeruginosa isolated from houseflies collected from the two provinces. A slightly higher prevalence (10.7 %; 32/300) was recorded in Shahrekord province than Isfahan province (7.0 %; 21/300). The locations did not differ statistically (p < 0.05) in bacterial prevalence in flies. Seasonal prevalence showed a significantly lower infection frequency during autumn. Conclusions Houseflies are important in the epidemiology of P. aeruginosa infections.

An comparative study of the selective killing action of antibacterial protein from the embryonic cells of the musca domestica on human myeloid leukemia cells K562 / 重庆医学

Objective To stimulate the embryonic cells of the musca domestica with lipopolysaccharide(LPS) for production of antibacterial protein and to extract antibacterial protein ,then research the inhibitory action of the antibacterial protein and homohar‐ringtonine on human myeloid leukemia cells K562 and normal human cells .Methods The logarithmic growth phase′s embryonic cells of the musca domestica were stimulated using no serum M3 insect medium which contained 20 mg/L LPS for sixteen hours . The antibacterial protein was extracted from supernatant fluid .The antibacterial protein was prepared in 40 ,80 ,160 ,320 and 640μg/mL five density groups ;the MTT experiments were used to test the inhibition of antibacterial protein on K562 cells and the hu‐man umbilical vein vascular endothelial cells .The K562 cells and human umbilical vein vascular endothelial cells were prepared HTT and antibacterial protein of the embryonic cells of the musca domestica groups ,the normal control group was established by cells itself .Effective killing rate of K562 cells and the human umbilical vein vascular endothelial cells were measured .Results The effective inhibition ratio of homoharringtonine and the antibacterial protein on K562 cells and human umbilical vein vascular endo‐thelial cells on three density groups were detected by flow cytometry .The MTT examination demonstrated that all density antibac‐terial peptides had inhibition activities on K562 cells ,but no inhibition activities on human umbilical vein vascular endothelial cell . The effective killing and wound ratio of the control group ,the homoharringtonine group and of the antibacterial protein group from the embryonic cells of the musca domestica on the K562 cells were(28 .16 ± 2 .14)% ,(81 .41 ± 1 .95)% and (82 .90 ± 3 .03)% ,re‐spectively ;the effective killing rate on human umbilical vein vascular endothelial cells were(41 .13 ± 2 .51)% ,(82 .20 ± 2 .57)% and (36 .68 ± 1 .86)% ,respectively .Conclusion Compared with the common chemotherapeutics medicine ,the merit of the antibacterial protein from the embryonic cells of the musca domestica is that it can kill the tumor cells effectively ,but would not damage the nor‐mal person cells .

Ophthalmomyiasis externa by Musca domestica in a case of orbital metastasis.

bone destruction with extension into surrounding sinuses. Over 200 maggots were manually removed after immobilisation with turpentine oil instillation. Entomological examination showed it to be a case of accidental myiasis caused by the common housefly Musca domestica. The patient was managed conservatively and the ulcer cavities filled up with healthy granulation tissue. This case is presented on account of its rarity.

Insecticidal properties of Heliotropium stenophyllum essentialoil on the House fly, Musca domestica L / Propiedades insecticidas del aceite esencial de Heliotropium stenophyllum en la mosca doméstica, Musca domestica L

The composition of the essential oil (EO) obtained by hydro distillation from dry leaves of Heliotropium stenophyllum (Heliotropiaceae) was analyzed using gas chromatography (GC) and gas chromatography/mass spectrometry (GC/MS). The insecticidal activity of the oil against the house fly Musca domestica was evaluated and the dose necessary to kill 50 percent of flies (LC50) in 2 h was determined at 25 +/- 1 °C. The essential oil from Heliotropium stenophyllum showed potent insecticidal properties (LC50 = 1.09 mg/dm3) in comparison with other essential oils, in which at shorter times, the same bio-assay was used. According to GC and GC/MS analysis, junenol (19.08 percent); longiborneol (9.34 percent); (E, Z)-geranyl linalool (6.81 percent); selina-3,11-dien-6-alpha-ol (6.70 percent); alpha-cedrene epoxide (6.60 percent); heliofolen-12-al D (6.23 percent) and beta-epi-bisabolol (4.83 percent were the principal components of the EO. The Heliotropium stenophyllum essential oil, made up exclusively of sesquiterpenes, showed a composition very different from the EOs of the other species of Heliotropium, studied, and present a great potential as a natural insecticide against houseflies.

La composición del aceite esencial (AE) obtenido por hidrodestilación de hojas secas de Heliotropium stenophyllum (Heliotropiaceae) se analizó mediante cromatografía de gases (CG) y cromatografía de gases/espectrometría de masas (CG/EM). La actividad insecticida del aceite contra la mosca doméstica Musca domestica se evaluó y la dosis necesaria para matar el 50 por ciento de las moscas (LC50) en 2 h se determinó a 25 +/- 1 ºC. El aceite esencial de Heliotropium stenophyllum mostró potentes propiedades insecticidas (LC50 = 1,09 mg/dm3) en comparación con otros aceites esenciales, en el que en tiempos más cortos, se utilizó el mismo bio-ensayo. De acuerdo con los análisis de CG y CG/EM, junenol (19,08 por ciento); longiborneol (9,34 por ciento), (E, Z)-geranil linalool (6,81 por ciento); selina-3,11-dien-6-alfa-ol (6,70 por ciento); epoxido de alfa-cedreno (6,60 por ciento); heliofolen-12-al D (6,23 por ciento) y beta-epi-bisabolol (4,83 por ciento) fueron los componentes principales identificados en el AE. El aceite esencial de Heliotropium stenophyllum, formado exclusivamente por sesquiterpenos, mostró una composición muy diferente al de los AEs de otras especies de Heliotropium, estudiadas, y muestra un gran potencial como insecticida contra la moscas doméstica.

Fungi associated to musca domestica captured with traps containing chemical bait and by direct search / Fungos associados à Musca Domestica capturadas através de armadilhas com isca química e busca direta

This study evaluated the isolation of fungi from Musca domestica captured through direct search and chemical baits and also the influence of chemical bait for the growth of fungi found on these flies. Collection using traps with chemical bait, composed of the insecticide Imidacloprid, and a direct search were carried out. It was verified that 71.73% of the flies collected from the direct search presented fungi growth, whereas only 28.26% of the flies captured using chemical bait showed fungi growth. In the test carried out with the addition of chemical bait to the BDA media culture, fungal growth was not observed. For studies of fungi resident on M. domestica, the use of the insecticide Imidacloprid with chemical bait is not recommended, as this product can inhibit some microorganisms, including potential biocontrols for M. domestica.

Este trabalho avaliou o isolamento de fungos em Musca domestica através da busca direta e por meio de iscas químicas e também a influência desta isca química para o crescimento de fungos encontrados nessas moscas. Foram realizadas coletas usando armadilhas com iscas químicas, compostas do inseticida Imidacloprid e outra por busca direta. Verificou-se que em 71,73% das moscas coletadas por busca direta apresentaram crescimento fúngico, enquanto as moscas capturadas usando iscas químicas apresentaram apenas 28,26% de crescimento fúngico. No teste realizado adicionando a isca química em meio de cultura BDA, não foi observado crescimento fúngico. Para estudos de fungos residentes em M. domestica, o uso do inseticida Imidacloprid como isca química não é recomendado, pois este produto pode inibir determinados microrganismos, inclusive possíveis biocontroladores de M. domestica.

Influence of diets on the rearing of predatory flies of housefly larvae / Influência de dietas na criação de moscas predadoras da mosca doméstica

The purpose of this study was to evaluate the survival, development time and morphological measures of immature Ophyra aenescens and Ophyra albuquerquei on different diets. Different proportions of protein and carbohydrates were offered for each species in 10 vials containing 30 eggs each. The vials were placed in a germination chamber at 30°C, relative humidity above 75 percent and photoperiod of 12 hours. Every day a vial was removed and mortality was evaluated and on the tenth day the length of the cephalic-pharyngeal skeleton (EC) and body size (G) of larvae that survived were evaluated. Survival was higher in diets with more protein (P<0.001). Between the species, mortality was more pronounced in O. albuquerquei in all diets (P<0.001). The EC (P<0.01) and G (P<0.01) showed the same sizes in the diets with higher protein content. For the production of pupae of these species, the diet with more protein and fewer components is more appropriate, and the production is higher in O. aenescens than in O. albuquerquei.

Avaliaram-se a sobrevivência, tempo de desenvolvimento e medidas morfológicas de imaturos de Ophyra aenescens e Ophyra albuquerquei em dietas compostas com diferentes proporções de proteínas e carboidratos. Estas dietas foram oferecidas para cada espécie em 10 frascos contendo 30 ovos cada que foram acondicionados em câmara de germinação a 30ºC, UR entre 75 por cento e 90 por cento, fotoperíodo de 12 horas. Para avaliação do padrão de sobrevivência, um frasco foi retirado da câmara diariamente e foi realizada contagem dos indivíduos vivos. No décimo dia foi avaliado o comprimento do esqueleto céfalo-faríngeo (EC) e o tamanho do corpo (G) das larvas que sobreviveram. O esqueleto céfalo-faríngeo (P<0,01) e o tamanho do corpo (P<0,01) apresentaram os mesmos tamanhos nas dietas com maior teor de proteínas, diferenciando-se nas outras dietas. O padrão de sobrevivência foi mais acentuado em O. albuquerquei do que em O. aenescens (P<0,001), enquanto nas dietas com mais proteínas a mortalidade foi menor que nas dietas com menos (P<0,001).