Functional Symbionts

332 records

Records of insect symbionts with verified function from literatures.

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Host Insect Classification Localization Function Function Tags Year Edit

Muscidae

Brazil, USA, Singap…

Bacteria
Extracellular

2017

Calliphoridae

Brazil, USA, Singap…

Bacteria
Extracellular

Psychrobacter sp. PRwf-1 shows physiological adaptation to survival in warmer temperatures and has been previously associated with food spoilage.
Temparature Adaptation

2017

Muscidae

Brazil, USA, Singap…

Bacteria
Extracellular

Psychrobacter sp. PRwf-1 shows physiological adaptation to survival in warmer temperatures and has been previously associated with food spoilage.
Temparature Adaptation

2017
Wolbachiaspp.

Pseudomonadota

Calliphoridae

Brazil, USA, Singap…

Bacteria
Intracellular

Wolbachia spp. plays important roles in manipulating invertebrate reproductive biology by causing male killing, feminization, parthenogenesis, or cytoplasmic incompatibility.
Male Killing Feminization Parthenogenesis Cytoplasmic Incompatibility

2017
Wolbachiaspp.

Pseudomonadota

Muscidae

Brazil, USA, Singap…

Bacteria
Intracellular

Wolbachia spp. plays important roles in manipulating invertebrate reproductive biology by causing male killing, feminization, parthenogenesis, or cytoplasmic incompatibility.
Male Killing Feminization Parthenogenesis Cytoplasmic Incompatibility

2017
Fungi
Extracellular

2016
Bacteria
Extracellular

2016
Bacteria
Intracellular and Extracellular

The microbiome (amplicon) can influence chemical communication by altering the production of pheromones.
Semiochemical Biosynthesis

2016
Achromobacter

Pseudomonadota
Bacteria

Achromobacter contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Acinetobacter

Pseudomonadota
Bacteria

Acinetobacter contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Alcaligenes

Pseudomonadota
Bacteria

Alcaligenes contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Bacteria

Bacillus cereus contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Bacteria

Chromobacterium aquaticum contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Chryseobacterium

Bacteroidota
Bacteria

Chryseobacterium contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Bacteria

Comamonas testosteroni contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Leucobacter

Actinomycetota
Bacteria

Leucobacter contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Bacteria

Bacillus simplex contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Bacteria

Pseudomonas protegens contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Serratia marcescens

Pseudomonadota
Bacteria

Serratia marcescens contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
Sphingobium

Pseudomonadota
Bacteria

Sphingobium contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins.
Other

2016
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