The isoprenoid methyl farnesoate (MF) has been implicated in the regulation of crustacean development and reproduction in conjunction with eyestalk molt inhibiting hormones and ecdysteroids. Farnesoic acid O-methyltransferase (FAMeT) catalyzes the methylation of farnesoic acid (FA) to produce MF in the terminal step of MF synthesis. We have previously cloned and characterized the shrimp FAMeT. In the present study, recombinant FAMeT (rFAMeT) was produced for bioassay and antiserum generation. FAMeT is widely distributed in shrimp tissues with the highest concentration observed in the ventral nerve cord. Interestingly, an additional larger protein in the eyestalk also showed immunoreactivity to anti-FAMeT serum. FAMeT was localized in the neurosecretory cells of the X-organ-sinus gland complex of the eyestalk. As shown by RT-PCR, FAMeT mRNA is constitutively expressed throughout the molt cycle in the eyestalk and the ventral nerve cord. To show that our cloned gene product had FAMeT activity, we demonstrated that expressed rFAMeT gene product catalyzed the conversion of FA to MF in a radiochemical assay. The ubiquitous distribution of FAMeT suggests that this enzyme is involved in physiological processes in addition to gametogenesis, oocyte maturation and development and metamorphosis of the shrimp. We hypothesize that FAMeT directly or indirectly (through MF) modulates the reproduction and growth of crustaceans by interacting with the eyestalk neuropeptides as a consequence of its presence in the neurosecretory cells of the X-organ-sinus gland.
Constant monitoring of Aedes vector indices such as Aedes mosquito abundance and ovitrap data is important for the control of dengue epidemics. Therefore, the current study attempted to evaluate the effect of larval and climatic factors on the incidence of dengue outbreaks in the Gampaha district. Based on the distribution of previously reported dengue cases, 34 households in Narangodapaluwa PHI area, Ragama, Sri Lanka, were selected randomly, and entomological surveillance was done fortnightly using adult mosquito catches and larval surveillance techniques for a period of two years. Further, weekly ovitrap surveillance was conducted for one year, by maintaining four ovitraps in a single house, two indoors and two outdoors at ground and at a height of 1.5–2 m. Based on the findings, larval indices, namely, Breteau index (BI), House index (HI), and Container index (CI), were calculated, along with the Ovitrap index (OI). The study area was positive for Ae. albopictus with an adult capturing range of 1~15/34 households. BI initially remained < 3%, which subsequently decreased up to 0. No significant difference in OI was found between the ovitraps placed at ground level and at a height of 1.5-2m (p>0.05), 95% level of confidence. The OI varied from 56.9% to 94.7% during the study period of 12 months, indicating two peaks at the monsoons. Statistics of one-way ANOVA revealed a significant difference in the monthly OI during the study period (p≤0.001) with two peaks representing the monsoonal rainfall patterns. Pearson’s correlation analysis revealed that the association between dengue cases and larval indices (BI, CI, HI, and OI) and meteorological parameters was not significant (p<0.05). Migration of mosquitoes and patients could be considered as possible factors affecting the absence of a significant relationship.
Setaria digitata is a filarial parasite that causes fatal cerebrospinal nematodiasis in goats, sheep and horses, resulting in substantial economic losses in animal husbandry in the tropics. Due to its close resemblance to Wuchereria bancrofti, this nematode is also frequently used as a model organism to study human lymphatic filariasis. This review highlights numerous insights into the morphological, histological, biochemical, immunological and genetic aspects of S. digitata that have broadened our understanding towards the control and eradication of filarial diseases.
Dengue viruses (DENV) are the wildest transmitted arbovirus members of the family Flaviviridae, genus Flavivirus. Dengue viruses are composed of four serotypes, DENV1, 2, 3, and 4, and these viruses can cause dengue fever and dengue haemorrhagic fever or dengue shock syndrome, when infecting humans. RNA interference (RNAi) is a self-defence mechanism, which can be used to prevent invasions of RNA viruses to the host. Genetically engineering a host with an RNAi molecule that targets a single virus serotype may develop escape mutants, and can cause unusual dominance over other serotypes. Therefore, the simultaneous targeting of multiple serotypes is necessary to block DENV transmission. Here, we report the development of transgenic Aedes aegypti based on a bioinformatically designed multiple miRshRNA (microRNA-based shRNA) DNA sequence under the control of a blood-meal induced promoter, Carboxypeptidase A, to induce RNAi for DENV in Aedes aegypti, and demonstrate the expression of a synthetic multiple shRNA polycistronic cluster having RNA interference sequences to target DENV genomes. The transgenic mosquitoes have lower rates of infection, dissemination, and transmission for DENV2 and DENV4 compared to wild mosquitoes, with a significant reduction of dengue copy number and antigen levels in the midgut. These levels of DENV were low enough to make transgenic mosquitoes stop the DENV transmission from infected host to a susceptible host and refractory to DENV2 and DENV4 infection. Such multiple resistance in Ae. aegypti has not been documented previously. Laboratory fitness measurement of transgenic Ae. aegypti showed results comparable to other reported transgenic mosquitoes.
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