Your search keyword '"Elizabeth Bandason"' showing total 10 results

1. A dual-target molecular mechanism of pyrethrum repellency against mosquitoes

Author

Feng Liu, Qiang Wang, Peng Xu, Felipe Andreazza, Wilson R. Valbon, Elizabeth Bandason, Mengli Chen, Ru Yan, Bo Feng, Leticia B. Smith, Jeffrey G. Scott, Genki Takamatsu, Makoto Ihara, Kazuhiko Matsuda, James Klimavicz, Joel Coats, Eugenio E. Oliveira, Yuzhe Du, and Ke Dong

Subjects

Science

Abstract

Although pyrethrum is used to repel insects for centuries, the underlying mechanism has been enigmatic. Liu et al. found that specific components of pyrethrum mediate repellency by targeting olfactory receptors and/or voltage-gated sodium channels in Aedes aegypti mosquitoes.

Published

2021

2. Sodium channel activation underlies transfluthrin repellency in Aedes aegypti.

Author

Felipe Andreazza, Wilson R Valbon, Qiang Wang, Feng Liu, Peng Xu, Elizabeth Bandason, Mengli Chen, Shaoying Wu, Leticia B Smith, Jeffrey G Scott, Youfa Jiang, Dingxin Jiang, Aijun Zhang, Eugenio E Oliveira, and Ke Dong

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BackgroundVolatile pyrethroid insecticides, such as transfluthrin, have received increasing attention for their potent repellent activities in recent years for controlling human disease vectors. It has been long understood that pyrethroids kill insects by promoting activation and inhibiting inactivation of voltage-gated sodium channels. However, the mechanism of pyrethroid repellency remains poorly understood and controversial.Methodology/principal findingsHere, we show that transfluthrin repels Aedes aegypti in a hand-in-cage assay at nonlethal concentrations as low as 1 ppm. Contrary to a previous report, transfluthrin does not elicit any electroantennogram (EAG) responses, indicating that it does not activate olfactory receptor neurons (ORNs). The 1S-cis isomer of transfluthrin, which does not activate sodium channels, does not elicit repellency. Mutations in the sodium channel gene that reduce the potency of transfluthrin on sodium channels decrease transfluthrin repellency but do not affect repellency by DEET. Furthermore, transfluthrin enhances DEET repellency.Conclusions/significanceThese results provide a surprising example that sodium channel activation alone is sufficient to potently repel mosquitoes. Our findings of sodium channel activation as the principal mechanism of transfluthrin repellency and potentiation of DEET repellency have broad implications in future development of a new generation of dual-target repellent formulations to more effectively repel a variety of human disease vectors.

Published

2021

3. First report of Ovomermis sinensis (Nematoda: Mermithidae) parasitizing fall armyworm Spodoptera frugiperda (Lepidoptera: Noctuidae) in China

Author

Bingjiao Sun, Fen Li, Xiaorui He, Fengqin Cao, Elizabeth Bandason, David Shapiro-Ilan, Weibin Ruan, and Shaoying Wu

Subjects

Biological control, Monoxenous obligate parasites, Fall armyworm, Mermithidae, Insect parasitism, Biology (General), QH301-705.5

Published

2020

4. Molecular characterization and functional expression of voltage‐gated sodium channel variants inApolygus lucorum(<scp>Meyer‐Dür</scp>)

Author

Wenbo Duan, Qiang Wang, Mengli Chen, Elizabeth Bandason, Shaoying Wu, Denghui Deng, Hao Wang, Kun Zhang, and Fen Li

Subjects

0106 biological sciences, China, Population, Voltage-Gated Sodium Channels, 01 natural sciences, Heteroptera, Exon, Pyrethrins, Animals, Coding region, education, Gene, Apolygus lucorum, Genetics, education.field_of_study, biology, Sodium channel, Sodium, Alternative splicing, General Medicine, biology.organism_classification, 010602 entomology, RNA editing, Insect Science, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

BACKGROUND Apolygus lucorum (Meyer-Dur) is a serious worldwide agricultural pest, especially for Bt cotton in China. Pyrethroids, neonicotinoids and organophosphates are the most effective insecticides to control piercing and sucking insects, including A. lucorum. The voltage-gated sodium channel (Nav ) is major target site of pyrethroids. Extensive alternative splicing and RNA editing, two major post-transcriptional mechanisms, contribute to generate different functional sodium channel variants. In our research, we characterized the sodium channel variants of A. lucorum. RESULTS In this study, we isolated numerous sodium channel variants that cover the entire coding region of the VGSC gene from A. lucorum. All clones could be grouped into 47 splice types based on the presence of nine alternative exons (exons j, n, o, a, p, b, s, q and t). Exons j, b and t were located independently, while exons n, o, a and p were located adjacently, as were exons s and q. We also found 35 nucleotide changes in different positions in individual variants, of which 18 nucleotide changes were A-to-I RNA editing, 11 nucleotide changes were likely due to U-to-C or C-to-U editing, and the others were likely natural sequence polymorphisms in the population. Furthermore, we expressed all of the variants in Xenopus oocytes. Eighteen of them were expressed in oocytes and sensitive to tetrodotoxin. CONCLUSION Our results provide a functional basis for understanding how A. lucorum sodium channel variants work in regulating channel expression, pharmacology and gating properties for agricultural insects. Apolygus lucorum is widely distributed in cotton production. Our results suggest how AlNav (the sodium channel of A.lucorum) variants work in regulating channel expression, pharmacology and sodium channel gating for agricultural insects in the future. © 2020 Society of Chemical Industry.

Published

2020

5. Sodium channel activation underlies transfluthrin repellency in Aedes aegypti

Author

Peng Xu, Feng Liu, Wilson R. Valbon, Eugênio E. Oliveira, Aijun Zhang, Youfa Jiang, Ke Dong, Felipe Andreazza, Jeffrey G. Scott, Mengli Chen, Shaoying Wu, Elizabeth Bandason, Letícia B. Smith, Dingxin Jiang, and Qiang Wang

Subjects

Cyclopropanes, Insecticides, Physiology, Sodium channel gene, RC955-962, Pharmacology, Disease Vectors, Mosquitoes, Biochemistry, Sodium Channels, Ion Channels, DEET, Isomers, chemistry.chemical_compound, 0302 clinical medicine, Human disease, Medical Conditions, Aedes, Stereochemistry, Arctic medicine. Tropical medicine, Principal mechanism, Medicine and Health Sciences, Materials, 0303 health sciences, Pyrethroid, biology, Physics, Eukaryota, Agriculture, Insects, Electrophysiology, Chemistry, Infectious Diseases, Physical Sciences, Insect Proteins, Public aspects of medicine, RA1-1270, Agrochemicals, Research Article, animal structures, Arthropoda, 030231 tropical medicine, Materials Science, Biophysics, Neurophysiology, Aedes aegypti, 03 medical and health sciences, Isomerism, Animals, 030304 developmental biology, Sodium channel, fungi, Public Health, Environmental and Occupational Health, Organisms, Chemical Compounds, Biology and Life Sciences, Proteins, biology.organism_classification, Invertebrates, Insect Vectors, Fluorobenzenes, Species Interactions, chemistry, Transfluthrin, Insect Repellents, Odorants, Zoology, Entomology, Neuroscience

Abstract

Background Volatile pyrethroid insecticides, such as transfluthrin, have received increasing attention for their potent repellent activities in recent years for controlling human disease vectors. It has been long understood that pyrethroids kill insects by promoting activation and inhibiting inactivation of voltage-gated sodium channels. However, the mechanism of pyrethroid repellency remains poorly understood and controversial. Methodology/Principal findings Here, we show that transfluthrin repels Aedes aegypti in a hand-in-cage assay at nonlethal concentrations as low as 1 ppm. Contrary to a previous report, transfluthrin does not elicit any electroantennogram (EAG) responses, indicating that it does not activate olfactory receptor neurons (ORNs). The 1S-cis isomer of transfluthrin, which does not activate sodium channels, does not elicit repellency. Mutations in the sodium channel gene that reduce the potency of transfluthrin on sodium channels decrease transfluthrin repellency but do not affect repellency by DEET. Furthermore, transfluthrin enhances DEET repellency. Conclusions/Significance These results provide a surprising example that sodium channel activation alone is sufficient to potently repel mosquitoes. Our findings of sodium channel activation as the principal mechanism of transfluthrin repellency and potentiation of DEET repellency have broad implications in future development of a new generation of dual-target repellent formulations to more effectively repel a variety of human disease vectors., Author summary Vector-transmitted human diseases, such as dengue fever, represent serious global health burdens. Pyrethroids, including transfluthrin, are widely used as insecticides and repellents due to their low mammalian toxicity and relatively benign environmental impact. Pyrethroids target voltage-gated sodium channels for their insecticidal action. However, the mechanism of pyrethroid repellency remains unclear and controversial. Insect repellency is traditionally thought to be mediated by olfactory receptors. We made two important discoveries in this study, showing that transfluthrin repellency is via activation of sodium channels and transfluthrin enhances DEET repellency. Discovery of sodium channel activation as a major mechanism of pyrethroid repellency has broad significance in insect olfaction study, repellents development, and control of human disease vectors.

Published

2021

6. A dual-target molecular mechanism of pyrethrum repellency against mosquitoes

Author

Wilson R. Valbon, Peng Xu, Ke Dong, Jeffrey G. Scott, Felipe Andreazza, Mengli Chen, Eugênio E. Oliveira, Elizabeth Bandason, Joel R. Coats, Klimavicz James S, Feng Liu, Letícia B. Smith, Bo Feng, Qiang Wang, Ru Yan, Makoto Ihara, Kazuhiko Matsuda, Genki Takamatsu, and Yuzhe Du

Subjects

0301 basic medicine, Dual target, Insecticides, animal structures, Mosquito Control, Physiology, Pyrethrum, Science, 030231 tropical medicine, education, General Physics and Astronomy, Aedes aegypti, Mosquito Vectors, Voltage-Gated Sodium Channels, Receptors, Odorant, General Biochemistry, Genetics and Molecular Biology, Article, Microbiology, 03 medical and health sciences, Gene Knockout Techniques, 0302 clinical medicine, Aedes, Pyrethrins, medicine, Animals, Neurons, Multidisciplinary, Olfactory receptor, Chrysanthemum cinerariifolium, biology, Extramural, fungi, General Chemistry, biology.organism_classification, 030104 developmental biology, medicine.anatomical_structure, Culicidae, Odorant Receptor, Insect Repellents, Molecular mechanism, Neuroscience

Abstract

Pyrethrum extracts from flower heads of Chrysanthemum spp. have been used worldwide in insecticides and repellents. While the molecular mechanisms of its insecticidal action are known, the molecular basis of pyrethrum repellency remains a mystery. In this study, we find that the principal components of pyrethrum, pyrethrins, and a minor component, (E)-β-farnesene (EBF), each activate a specific type of olfactory receptor neurons in Aedes aegypti mosquitoes. We identify Ae. aegypti odorant receptor 31 (AaOr31) as a cognate Or for EBF and find that Or31-mediated repellency is significantly synergized by pyrethrin-induced activation of voltage-gated sodium channels. Thus, pyrethrum exerts spatial repellency through a novel, dual-target mechanism. Elucidation of this two-target mechanism may have potential implications in the design and development of a new generation of synthetic repellents against major mosquito vectors of infectious diseases., Although pyrethrum is used to repel insects for centuries, the underlying mechanism has been enigmatic. Liu et al. found that specific components of pyrethrum mediate repellency by targeting olfactory receptors and/or voltage-gated sodium channels in Aedes aegypti mosquitoes.

Published

2020

7. Back Cover

Author

Kun Zhang, Mengli Chen, Hao Wang, Wenbo Duan, Qiang Wang, Fen Li, Denghui Deng, Elizabeth Bandason, and Shaoying Wu

Subjects

Insect Science, General Medicine, Agronomy and Crop Science

Published

2020

8. First report of Ovomermis sinensis (Nematoda: Mermithidae) parasitizing fall armyworm Spodoptera frugiperda (Lepidoptera: Noctuidae) in China

Author

Shaoying Wu, Fen Li, Xiaorui He, Elizabeth Bandason, Weibin Ruan, Fengqin Cao, Bingjiao Sun, and David I. Shapiro-Ilan

Subjects

0106 biological sciences, Integrated pest management, biology, viruses, fungi, 010607 zoology, Biological pest control, Zoology, Spodoptera, biology.organism_classification, Fall armyworm, 01 natural sciences, Monoxenous obligate parasites, Lepidoptera genitalia, Mermithidae, Nematode, lcsh:Biology (General), Biological control, parasitic diseases, Noctuidae, Insect parasitism, lcsh:QH301-705.5, 010606 plant biology & botany

Abstract

Spodoptera frugiperda invaded China in the end of 2018 and has caused severe damage to maize and other crops. Several S. frugiperda naturally parasitized by nematodes were observed in Hainan Province, China. The morphological characteristics based on the results of scanning electron microscopy indicated that the nematode belongs to the family Mermithidae. Additionally, coding sequences for the 18 S and 28 S rDNA were amplified from the nematode genome, and phylogenetic analysis revealed that the nematode belongs to Ovomermis sinensis, a known entomoparasitic nematode. Our finding is the first record that S. frugiperda was naturally parasitized by O. sinensis. The results of this study are of great significance for potential biological control of S. frugiperda by indigenous natural beneficial organisms, i.e. O. sinensis within an integrated pest management system. Spodoptera frugiperda invaded China in the end of 2018 and has caused severe damage to maize and other crops. Several S. frugiperda naturally parasitized by nematodes were observed in Hainan Province, China. The morphological characteristics based on the results of scanning electron microscopy indicated that the nematode belongs to the family Mermithidae. Additionally, coding sequences for the 18 S and 28 S rDNA were amplified from the nematode genome, and phylogenetic analysis revealed that the nematode belongs to Ovomermis sinensis, a known entomoparasitic nematode. Our finding is the first record that S. frugiperda was naturally parasitized by O. sinensis. The results of this study are of great significance for potential biological control of S. frugiperda by indigenous natural beneficial organisms, i.e. O. sinensis within an integrated pest management system.

Published

2020

9. First report of

Author

Bingjiao, Sun, Fen, Li, Xiaorui, He, Fengqin, Cao, Elizabeth, Bandason, David, Shapiro-Ilan, Weibin, Ruan, and Shaoying, Wu

Subjects

viruses, Biological control, parasitic diseases, fungi, Arts & Humanities, Insect parasitism, Fall armyworm, Monoxenous obligate parasites, Mermithidae

Abstract

Spodoptera frugiperda invaded China in the end of 2018 and has caused severe damage to maize and other crops. Several S. frugiperda naturally parasitized by nematodes were observed in Hainan Province, China. The morphological characteristics based on the results of scanning electron microscopy indicated that the nematode belongs to the family Mermithidae. Additionally, coding sequences for the 18 S and 28 S rDNA were amplified from the nematode genome, and phylogenetic analysis revealed that the nematode belongs to Ovomermis sinensis, a known entomoparasitic nematode. Our finding is the first record that S. frugiperda was naturally parasitized by O. sinensis. The results of this study are of great significance for potential biological control of S. frugiperda by indigenous natural beneficial organisms, i.e. O. sinensis within an integrated pest management system.

Published

2019

10. Comparison of deltamethrin as indoor residual spray or on insecticide treated nets for mosquito control in Lake Chilwa

Author

Jimmy Namangale, Elizabeth Bandason, and Dylo Pemba

Subjects

Insecticides, Pyrethroid, Mosquito Control, Cost-Benefit Analysis, Protective Devices, Central africa, Bedding and Linens, General Medicine, Original Articles, Biology, Insect Vectors, Malaria, Toxicology, chemistry.chemical_compound, Mosquito control, Deltamethrin, chemistry, Residence Characteristics, parasitic diseases, Nitriles, Pyrethrins, Animals, Humans, Malaria prevention, Insecticide treated nets

Abstract

We conducted a study on the control of mosquitos on Chisi Island in Lake Chilwa from August to November, 2006. The aim was to compare the cost and efficacy of deltamethrin, a pyrethroid based insecticide, when used in insecticide treated nets (ITN) and when used in indoor residual spray (IRS). Thirty village huts were enrolled in the study. Fifteen were systematically selected in a stratified manner and sprayed with deltamethrin following manufacturers' standard application procedures of 0.02g/m2. The remaining fifteen were provided with ITNs. In both groups deltamethrin KO tabs were used. Pyrethroid knockdown (PKD) spray was used for indoor rest captures in the houses monthly for three months. Houses treated with IRS had significantly reduced number of mosquitoes resting indoors than houses provided with nets (p

Published

2008