Functional Symbionts
2682 recordsRecords of insect symbionts with verified function from literatures.
Search by:
- • Host species (e.g., "Drosophila")
- • Symbiont name (e.g., "Wolbachia")
- • Function (e.g., "B vitamins")
- • Function Tag (e.g., "Nitrogen fixation")
- • Phylum (e.g., "Proteobacteria")
| Host Insect | Classification | Localization | Function | Function Tags | Year | Edit | |
|---|---|---|---|---|---|---|---|
|
Yarrowia yeasts
Ascomycota |
Nicrophorus vespilloidesGermany |
Fungi
|
Extracellular
|
Yarrowia yeasts provide defense against competing microbes. |
2017 |
||
|
Acetobacter oryzifermentans
Pseudomonadota |
Bacteria
|
Intracellular
|
2017 |
||||
|
Lactiplantibacillus plantarum
Bacillota |
Bacteria
|
Intracellular
|
2017 |
||||
|
Wolbachia
Pseudomonadota |
Bacteria
|
Intracellular
|
Wolbachia strain wMel changes the composition of gut commensal bacteria in the fruit fly. |
2017 |
|||
|
Citrobacter
Pseudomonadota |
Bacteria
|
Extracellular
|
Citrobacter can degrade plant polysaccharides and confer host optimal adaptation to its environment by modulating its metabolism. |
2017 |
|||
|
Enterobacter
Pseudomonadota |
Bacteria
|
Extracellular
|
Enterobacter can degrade plant polysaccharides and confer host optimal adaptation to its environment by modulating its metabolism. |
2017 |
|||
|
Klebsiella
Pseudomonadota |
Bacteria
|
Extracellular
|
Klebsiella can degrade plant polysaccharides and confer host optimal adaptation to its environment by modulating its metabolism. |
2017 |
|||
|
Enterobacteriaceae
Pseudomonadota |
Bacteria
|
Extracellular
|
2017 |
||||
|
Lactobacillaceae
Bacillota |
Bacteria
|
Extracellular
|
2017 |
||||
|
Entomoplasmataceae
Mycoplasmatota |
Bacteria
|
Extracellular
|
2017 |
||||
|
Streptococcaceae
Bacillota |
Bacteria
|
Extracellular
|
2017 |
||||
|
Serratia
Pseudomonadota |
Bacteria
|
Extracellular
|
Serratia can degrade plant polysaccharides and confer optimal host adaptation to its environment by modulating its metabolism. |
2017 |
|||
|
Arthrobacter nicotinovorans
Actinomycetota |
Spodoptera frugiperdaBrasil |
Bacteria
|
Arthrobacter nicotinovorans is involved in the degradation of lambda-cyhalothrin, deltamethrin, chlorpyrifos ethyl, lufenuron, and spinosyn. |
2017 |
|||
|
Delftia lacustris
Pseudomonadota |
Spodoptera frugiperdaBrasil |
Bacteria
|
Intracellular
|
Delftia lacustris may influence the metabolization of pesticides in insects. |
2017 |
||
|
Enterococcus casseliflavus
Bacillota |
Spodoptera frugiperdaBrasil |
Bacteria
|
Intracellular
|
Enterococcus casseliflavus may influence the metabolization of pesticides in insects. |
2017 |
||
|
Enterococcus mundtii
Bacillota |
Spodoptera frugiperdaBrasil |
Bacteria
|
Intracellular
|
Enterococcus mundtii may influence the metabolization of pesticides in insects. |
2017 |
||
|
Leclercia adecarboxylata
Pseudomonadota |
Spodoptera frugiperdaBrasil |
Bacteria
|
Leclercia adecarboxylata is involved in the degradation of lambda-cyhalothrin, deltamethrin, chlorpyrifos ethyl, lufenuron, and spinosyn. |
2017 |
|||
|
Leclercia adecarboxylata
Pseudomonadota |
Spodoptera frugiperdaBrasil |
Bacteria
|
Intracellular
|
Leclercia adecarboxylata may influence the metabolization of pesticides in insects. |
2017 |
||
|
Microbacterium arborescens
Actinomycetota |
Spodoptera frugiperdaBrasil |
Bacteria
|
Microbacterium arborescens is involved in the degradation of lambda-cyhalothrin, deltamethrin, chlorpyrifos ethyl, lufenuron, and spinosyn. |
2017 |
|||
|
Microbacterium paraoxydan
Actinomycetota |
Spodoptera frugiperdaBrasil |
Bacteria
|
Intracellular
|
Microbacterium paraoxydan may influence the metabolization of pesticides in insects. |
2017 |