Anopheles (Genus)

Asaia sp. W12 possesses two complete operons (cyoABCD-1 and cyoABCD-2) encoding cytochrome bo3-type ubiquinol terminal oxidases, allowing flexible re…

Spiroplasma may have reproductive interactions with mosquito hosts, either by providing an indirect fitness advantage to females by inducing male kil…

Spiroplasma may have reproductive interactions with mosquito hosts, either by providing an indirect fitness advantage to females by inducing male kil…

Pseudomonas is the most prevalent microbiota in Plasmodium-negative Anopheles sinensis groups and protects mosquitoes from the invasion of malaria pa…

Acinetobacter increases the resistance of Anopheles sinensis (by analogy to An. gambiae) to Plasmodium development, partly by inducing anti-Plasmodiu…

Serratia ureilytica Su_YN1 mediates mosquito resistance to Plasmodium by using quorum sensing to activate phenylalanine metabolism, which drives OMV …

Bacillus sp. (midgut flora) is necessary for normal larval development in Anopheles barbirostris; its absence causes delayed development to become ad…

Serratia might block the sporogonic development of P. vivax parasites (by analogy to S. marcescens in An. albimanus), conferring pathogen resistance …

Wolbachia strain wAlbB induces high levels of cytoplasmic incompatibility and conferred resistance in the mosquito to the human malaria parasite Plas…

Wolbachia wAnga may influence or interact with the Anopheles microbiota, contributing to the impact of wAnga on host biology and vectorial capacity.

The fungus Leptosphaerulina persists in Anopheles gambiae and induces a distinctive melanotic phenotype across the mosquito's developmental stages.

Rhodocyclacea may be related to mediating adaptation to different ecological niches or in shaping specific adult behaviors, including mating.

Rhodocyclacea may be related to mediating adaptation to different ecological niches or in shaping specific adult behaviors, including mating.

Pseudomonas may be related to mediating adaptation to different ecological niches or in shaping specific adult behaviors, including mating.

Pseudomonas may be related to mediating adaptation to different ecological niches or in shaping specific adult behaviors, including mating.

Shewanella may be related to mediating adaptation to different ecological niches or in shaping specific adult behaviors, including mating.

Shewanella may be related to mediating adaptation to different ecological niches or in shaping specific adult behaviors, including mating.

Azospira may be related to mediating adaptation to different ecological niches or in shaping specific adult behaviors, including mating.

Azospira may be related to mediating adaptation to different ecological niches or in shaping specific adult behaviors, including mating.

Serratia sp. produces lipodepsipeptides, stephensiolides A-K, that have antibiotic activity and facilitate bacterial surface motility.

Asaia sp. effectively lodges in the female gut and salivary glands, sites crucial for Plasmodium sp. development and transmission.

Enterobacteriaceae has a potential role to interact with malaria parasites and confer pathogen resistance in Anopheles sinensis.

Staphylococcus has a potential role to interact with malaria parasites and confer pathogen resistance in Anopheles sinensis.

Microsporidia sp. MB is a microsporidian symbiont that confers malaria-blocking ability to its host, Anopheles arabiensis.

Erwinia has a potential role to interact with malaria parasites and confer pathogen resistance in Anopheles sinensis.

Pantoea has a potential role to interact with malaria parasites and confer pathogen resistance in Anopheles sinensis.

Asaia bacteria play a beneficial role in the normal development of Anopheles stephensi larvae.

Chryseobacterium sp. KC003-AaL is essential for development, as axenic larvae cannot develop.

Acinetobacter sp. KC061-AaNBF is essential for development, as axenic larvae cannot develop.

Microbacterium sp. KC038-AaL is essential for development, as axenic larvae cannot develop.

Serratia Y1 inhibits Plasmodium development by stimulating the mosquito's immune responses.

Serratia Y1 inhibits Plasmodium development by stimulating the mosquito's immune responses.

Paenibacillus sp. KC016-AaL is essential for development, as axenic larvae cannot develop.

Aeromonas sp. KC010-AaL is essential for development, as axenic larvae cannot develop.

Aquitalea sp. KC002-AaL is essential for development, as axenic larvae cannot develop.

Microsporidia MB impairs Plasmodium transmission in Anopheles arabiensis mosquitoes.

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