Passive transfer between experimental animals of hypersensitivity to Aedes aegypti bites

It has been successfully found new herbal mosquito coils called “Morizena” made from Passiflora foetida leaf extract (40%), Chrysantemum cinerariaefolium flowers seed extract (40%), essential oils of leaves-stems of Cymbopogon nardus (20%). The herbal mosquito coils are more effective to kill Aedes aegypti compared to commercial synthetic mosquito coils made from Transfluthrin. Treatment of exposure to herbal mosquito coils “Morizena” on Aedes aegypti for 8 hours/day with concentration 500 ppm (P1), 1000 ppm (P2), 2000 ppm (P3), 3000 ppm (P4), 4000 ppm (P5) and treatment of exposure to synthetic mosquito coils Transfluthrin 2500 ppm (K1) as a positive control, and without treatment of exposure to mosquito coils (K0) as a negative control. Experimental animals used were adult Ae. aegypti mosquito with 25 mosquitoes in each treatment. Experimental design used is one-way Anova test with linear regression to calculate its LC50 and LC90. The results of test to herbal mosquito coils “Morizena” given for 8 hours/day obtained mortality of Ae. aegypti by 92% to a concentration of 3000 ppm (P4) and 100% to a concentration of 4000 ppm (P5) and 100% for test to synthetic mosquito coils transfluthrin 2500 ppm (K1). Ae. aegypti LC50 and LC90 value for treatment of exposure to herbal mosquito coils “Morizena” are 999 ppm and 2977 ppm. Treatment of herbal mosquito coils “Morizena” with graded doses up to 4000 ppm and synthetic mosquito coils Transfluthrin 2500 ppm causing an increase in the enzyme acetylcholinesterase activity of Ae. aegypti. The conclusion is based on the Ae. aegypti LC90 value is 2977 ppm, which means the effective dose of herbal mosquito coils “Morizena” to kill Ae. aegypti is 2977 ppm.

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A DREaMR system to simplify combining mutations with rescue transgenes in Aedes aegypti

Genetics ◽

10.1093/genetics/iyab146 ◽

2021 ◽

Author(s):

Jieyan Chen ◽

Junjie Luo ◽

Adishthi S Gurav ◽

Zijing Chen ◽

Yijin Wang ◽

...

Keyword(s):

Aedes Aegypti ◽

Null Mutation ◽

Insect Vector ◽

Mosquito Vectors ◽

Initial Model ◽

Experimental Animals ◽

Genetic Elements ◽

Rescue System ◽

Single Insertion ◽

Mutant Rescue

Abstract In most experimental animals, it is challenging to combine mutations and rescue transgenes and to use bipartite systems to assess gene expression. To circumvent the difficulties in combining multiple genetic elements, we developed the DREaMR ( Drug-on, REporter, Mutant, Rescue) system. Using Drosophila white as the initial model, we demonstrated that introduction of a single insertion by CRISPR/Cas9 created a null mutation, a tagged rescue construct, which could be induced with doxycycline, and which allowed assessment of protein expression. To create a DREaMR in an organism in which combining multiple genetic elements is more problematic than in Drosophila, we tested the mosquito, Aedes aegypti—the insect vector for dengue, yellow fever, Zika and other viral diseases. We generated a DREaMR allele in the kh gene, which permitted us to induce expression of the rescue construct, and detect expression of Kh. Thus, this system avoids the need to perform genetic crosses to introduce an inducible rescue transgene in a mutant background, or to combine driver and reporter lines to examine expression of the targeted protein. We propose that DREaMR provides a system that can be applied to additional mosquito vectors as well as other organisms in which CRISPR/Cas9 is effective.

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Analytical Electron Microscopy (AEM) of Meningeal Cells Exposed to Particulate Cobalt During Studies of Experimental Epilepsy

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100053590 ◽

1982 ◽

Vol 40 ◽

pp. 186-187

Author(s):

R.G. Frederickson ◽

R.G. Ulrich ◽

J.L. Culberson

Keyword(s):

Electron Microscopy ◽

Analytical Electron Microscopy ◽

Experimental Epilepsy ◽

Metallic Cobalt ◽

Experimental Animals ◽

X Ray ◽

Brain Surface ◽

Meningeal Cells ◽

Analytical Electron ◽

The Brain

Metallic cobalt acts as an epileptogenic agent when placed on the brain surface of some experimental animals. The mechanism by which this substance produces abnormal neuronal discharge is unknown. One potentially useful approach to this problem is to study the cellular and extracellular distribution of elemental cobalt in the meninges and adjacent cerebral cortex. Since it is possible to demonstrate the morphological localization and distribution of heavy metals, such as cobalt, by correlative x-ray analysis and electron microscopy (i.e., by AEM), we are using AEM to locate and identify elemental cobalt in phagocytic meningeal cells of young 80-day postnatal opossums following a subdural injection of cobalt particles.

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Ultrastructure and analytical microprobe analysis of simian lung mite pigments

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100143249 ◽

1986 ◽

Vol 44 ◽

pp. 324-325

Author(s):

R. W. Cole ◽

J. C. Kim

Keyword(s):

Biomedical Research ◽

Tissue Damage ◽

Microprobe Analysis ◽

Old World Monkeys ◽

Old World ◽

Experimental Animals ◽

The Past ◽

Lung Mite ◽

Mite Infestations ◽

Cardiopulmonary System

In recent years, non-human primates have become indispensable as experimental animals in many fields of biomedical research. Pharmaceutical and related industries alone use about 2000,000 primates a year. Respiratory mite infestations in lungs of old world monkeys are of particular concern because the resulting tissue damage can directly effect experimental results, especially in those studies involving the cardiopulmonary system. There has been increasing documentation of primate parasitology in the past twenty years.

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