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MOLECULAR CORRELATES OF SWARMING BEHAVIOUR IN AEDES AEGYPTI MALES
Devilliers, Julien et al. | Date Issued: 2024
Author
Devilliers, Julien
Marshall, Hollie
Warren, Ben
Kyriacou, Charalambos P.
Araripe, Luciana Ordunha
Bruno, Rafaela Vieira
Rosato, Ezio
Feuda, Roberto
Affilliation
University of Leicester. Neurogenetics Group. Leicester, UK / University of Leicester. College of Life Sciences. Department of Genetics, Genomics & Cancer Sciences. Leicester, UK.
University of Leicester. Neurogenetics Group. Leicester, UK / University of Leicester. College of Life Sciences. Department of Genetics, Genomics & Cancer Sciences. Leicester, UK.
University of Leicester. Neurogenetics Group. Leicester, UK / University of Leicester. College of Life Sciences. Department of Genetics, Genomics & Cancer Sciences. Leicester, UK.
University of Leicester. Neurogenetics Group. Leicester, UK / University of Leicester. College of Life Sciences. Department of Genetics, Genomics & Cancer Sciences. Leicester, UK.
Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Laboratório de Biologia Molecular de Insetos. Rio de Janeiro, RJ, Brasil.
Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Laboratório de Biologia Molecular de Insetos. Rio de Janeiro, RJ, Brasil.
University of Leicester. Neurogenetics Group. Leicester, UK / University of Leicester. College of Life Sciences. Department of Genetics, Genomics & Cancer Sciences. Leicester, UK.
University of Leicester. Neurogenetics Group. Leicester, UK / University of Leicester. College of Life Sciences. Department of Genetics, Genomics & Cancer Sciences. Leicester, UK.
Abstract
Mosquitoes are the deadliest vectors of diseases. They impose a huge health burden on human populations spreading parasites as disparate as protozoans (malaria), viruses (yellow fever and more) and nematodes (filariasis) that cause life-threatening conditions. In recent years, mating has been proposed as a putative target for population control. Mosquitoes mate mid-air, in swarms initiated by males and triggered by a combination of internal and external stimuli. As the number of females in a swarm is limited, there is intense competition among males, and they ‘retune’ their physiology for this demanding behaviour. There is limited knowledge on the ‘genetic reprogramming’ required to enable swarming. Interestingly, recent evidence indicates that the upregulation of circadian clock genes may be involved in the swarming of malaria mosquitoes of the genus Anopheles. Here, we use whole-head RNA-seq to identify gene expression changes in Aedes aegypti males that are engaged in swarming in a laboratory setting. Our results suggest that in preparation to swarming, males tend to lower some housekeeping functions while increasing remodelling of the cytoskeleton and neuronal connectivity; the transcription of circadian clock genes is unaffected.
Keywords
Aedes aegypti
Swarming
Transcriptomics
Circadian clock
 
Publisher
The Royal Society
Citation
DEVILLIERS, Julien et al. Molecular correlates of swarming behaviour in Aedes aegypti males. Biology Letters, v. 20, n. 10, p. 1-8, 30 Oct. 2024.
DOI
10.1098/rsbl.2024.0245
ISSN
1744-9561
Notes
Produção científica do Laboratório de Biologia Molecular de Insetos.