Modelling the ecological dynamics of mosquito populations with multiple co-circulating Wolbachia strains

Modelling the ecological dynamics of mosquito populations with multiple co-circulating Wolbachia strains

Abstract Wolbachia intracellular bacteria successfully reduce the transmissibility of arthropod-borne viruses (arboviruses) when introduced into virus-carrying vectors such as mosquitoes. Despite the progress made by introducing Wolbachia bacteria into the Aedes aegypti wild-type population to contr...

Full description

Bibliographic Details
Main Authors:	Samson T. Ogunlade, Adeshina I. Adekunle, Emma S. McBryde, Michael T. Meehan
Format:	Article
Language:	English
Published:	Nature Portfolio 2022-12-01
Series:	Scientific Reports
Online Access:	https://doi.org/10.1038/s41598-022-25242-x

Similar Items

Quantifying the impact of Wolbachia releases on dengue infection in Townsville, Australia
by: Samson T. Ogunlade, et al.
Published: (2023-09-01)

A Review: <i>Aedes</i>-Borne Arboviral Infections, Controls and <i>Wolbachia</i>-Based Strategies
by: Samson T. Ogunlade, et al.
Published: (2021-01-01)

A Systematic Review of Mathematical Models of Dengue Transmission and Vector Control: 2010–2020
by: Samson T. Ogunlade, et al.
Published: (2023-01-01)

Delaying the COVID‐19 epidemic in Australia: evaluating the effectiveness of international travel bans
by: Adeshina Adekunle, et al.
Published: (2020-08-01)

Modeling drug-resistant tuberculosis amplification rates and intervention strategies in Bangladesh.
by: Md Abdul Kuddus, et al.
Published: (2020-01-01)

Mathematical analysis of a two-strain disease model with amplification
by: Kuddus, MA, et al.
Published: (2020)

Distribution and phylogeny of Wolbachia strains in wild mosquito populations in Sri Lanka
by: N. W. Nalaka P. Nugapola, et al.
Published: (2017-05-01)

Identification of Wolbachia strains in mosquito disease vectors.
by: Jewelna Osei-Poku, et al.
Published: (2012-01-01)

Wolbachia as a tool for mosquito population manipulation
by: Sinkins, S, et al.
Published: (2006)

Replicating superspreader dynamics with compartmental models
by: Michael T. Meehan, et al.
Published: (2023-09-01)

Wolbachia and cytoplasmic incompatibility in mosquitoes.
by: Sinkins, S
Published: (2004)

Wolbachia and cytoplasmic incompatibility in mosquitoes.
by: Sinkins, S
Published: (2004)

Wolbachia Inter-Strain Competition and Inhibition of Expression of Cytoplasmic Incompatibility in Mosquito
by: Xiao Liang, et al.
Published: (2020-07-01)

Population differentiation and Wolbachia phylogeny in mosquitoes of the Aedes scutellaris group.
by: Behbahani, A, et al.
Published: (2005)

Qualitative Behavioral Analysis in Mosquito Dynamics Model with Wolbachia
by: Dani Suandi, et al.
Published: (2023-07-01)

The impact of predators of mosquito larvae on Wolbachia spreading dynamics
by: Zhongcai Zhu, et al.
Published: (2023-12-01)

Biological comparative study between Wolbachia-infected Aedes aegypti mosquito and Wolbachia-uninfected strain, Jeddah city, Saudi Arabia
by: Abdullah G. Algamdi, et al.
Published: (2023-03-01)

Discrete dynamical models on Wolbachia infection frequency in mosquito populations with biased release ratios
by: Yantao Shi, et al.
Published: (2021-09-01)

Modeling drug-resistant tuberculosis amplification rates and intervention strategies in Bangladesh
by: Kuddus, MA, et al.
Published: (2020)

Heterogeneous infectiousness in mathematical models of tuberculosis: A systematic review
by: Yayehirad A. Melsew, et al.
Published: (2020-03-01)

Two-sex mosquito model for the persistence of Wolbachia
by: Ling Xue, et al.
Published: (2017-03-01)

Modelling the Wolbachia incompatible insect technique: strategies for effective mosquito population elimination
by: D. E. Pagendam, et al.
Published: (2020-11-01)

Wolbachia infection enhancing and decaying domains in mosquito population based on discrete models
by: Yantao Shi, et al.
Published: (2020-01-01)

Wolbachia strain wAlbB blocks replication of flaviviruses and alphaviruses in mosquito cell culture
by: O’mezie Ekwudu, et al.
Published: (2020-02-01)

Monotonicity properties arising in a simple model of Wolbachia invasion for wild mosquito populations
by: Diego Vicencio, et al.
Published: (2023-01-01)

The impact of mating competitiveness and incomplete cytoplasmic incompatibility on Wolbachia-driven mosquito population suppressio
by: Mugen Huang, et al.
Published: (2019-05-01)

Wolbachia in the Culex pipiens group mosquitoes: introgression and superinfection.
by: Walker, T, et al.
Published: (2009)

Filarial susceptibility and effects of Wolbachia in Aedes pseudoscutellaris mosquitoes.
by: Dutton, T, et al.
Published: (2005)

Wolbachia-infected mosquitoes: The answer to the dengue endemic in Pakistan?
by: Qazi Syed Muhammad Ali, et al.
Published: (2021-01-01)

Wolbachia in mosquitoes from the Central Valley of California, USA
by: Ryan Torres, et al.
Published: (2020-11-01)

Infection of anopheline mosquitoes with Wolbachia: Implications for malaria control.
by: Fabio M Gomes, et al.
Published: (2018-11-01)

Wolbachia-associated bacterial protection in the mosquito Aedes aegypti.
by: Yixin H Ye, et al.
Published: (2013-01-01)

The risk of global epidemic replacement with drug-resistant Mycobacterium tuberculosis strains
by: Emma S. McBryde, et al.
Published: (2017-03-01)

Identification of Wolbachia new strains from Aedes aegypti mosquitoes, the vector of dengue fever in Jeddah Province
by: E. Sharawi Somia, et al.
Published: (2023-10-01)

Scenario analysis for programmatic tuberculosis control in Bangladesh: a mathematical modelling study
by: Md Abdul Kuddus, et al.
Published: (2021-02-01)

Can Australia eliminate TB? Modelling immigration strategies for reaching MDG targets in a low‐transmission setting
by: Justin T. Denholm, et al.
Published: (2014-02-01)

Modeling Wolbachia infection frequency in mosquito populations via a continuous periodic switching model
by: Shi Yantao, et al.
Published: (2023-03-01)

Optimally capturing latency dynamics in models of tuberculosis transmission
by: Romain Ragonnet, et al.
Published: (2017-12-01)

Differences in proteome perturbations caused by the Wolbachia strain wAu suggest multiple mechanisms of Wolbachia-mediated antiviral activity
by: Stephanie M. Rainey, et al.
Published: (2023-07-01)

Economic Consequences of the COVID-19 Outbreak: the Need for Epidemic Preparedness
by: Anton Pak, et al.
Published: (2020-05-01)