Functional Symbionts
2417 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 | |
|---|---|---|---|---|---|---|---|
|
Enterobacter
Pseudomonadota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
2023 |
|||
|
Enterococcus
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
2023 |
|||
|
Providencia
Pseudomonadota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
2023 |
|||
|
Ralstonia
Pseudomonadota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
2023 |
|||
|
Sediminibacterium
Bacteroidota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
2023 |
|||
|
Convivina intestini strain DSM 28795
Bacillota |
Vespa velutinaHymenoptera |
Bacteria
|
Extracellular
|
adapt towards amino acid metabolism |
2023 |
||
|
Convivina praedatoris
Bacillota |
Vespa velutinaHymenoptera |
Bacteria
|
Extracellular
|
adapt towards carbohydrate metabolism |
2023 |
||
|
Cronobacter
Pseudomonadota |
Tenebrio molitorColeoptera |
Bacteria
|
Extracellular
|
may be indirectly involved in the digestion of PE |
2023 |
||
|
Enterococcus
Bacillota |
Tenebrio molitorColeoptera |
Bacteria
|
Extracellular
|
associated with PE biodegradation |
2023 |
||
|
Lactococcus
Bacillota |
Tenebrio molitorColeoptera |
Bacteria
|
Extracellular
|
associated with PE biodegradation |
2023 |
||
|
Spiroplasma
Mycoplasmatota |
Tenebrio molitorColeoptera |
Bacteria
|
Extracellular
|
associated with PE biodegradation |
2023 |
||
|
Sodalis pierantonius
Pseudomonadota |
Sitophilus oryzaeColeoptera |
Bacteria
|
may infulence immunity, metabolism, metal control, apoptosis, and bacterial stress response |
2023 |
|||
|
Bostrichicola ureolyticus
Bacteroidota |
BostrichidaeColeoptera |
Bacteria
|
complement the function of Shikimatogenerans by recycling urea and provisioning the essential amino acid lysine, thereby providing additional benefits on nitrogen-poor diets |
2023 |
|||
|
Shikimatogenerans bostrichidophilus
Bacteroidota |
BostrichidaeColeoptera |
Bacteria
|
encodes the shikimate pathway to produce tyrosine precursors in its severely reduced genome, likely supplementing the beetles’ cuticle biosynthesis, sclerotisation, and melanisation. |
2023 |
|||
|
Candidatus Blochmanniella pennsylvanica
Pseudomonadota |
Camponotus pennalicusHymenoptera |
Bacteria
|
2023 |
||||
|
Wolbachia pipientis
Pseudomonadota |
Camponotus pennalicusHymenoptera |
Bacteria
|
2023 |
||||
|
Bacteroides
Bacteroidota |
Leptocybe invasaHymenoptera |
Bacteria
|
Differences in Male-Killing Rickettsia Bacteria between Lineages of the Invasive Gall-Causing Pest Leptocybe invasa |
2023 |
|||
|
Rickettsia
Pseudomonadota |
Leptocybe invasaHymenoptera |
Bacteria
|
Intracellular
|
Differences in Male-Killing Rickettsia Bacteria between Lineages of the Invasive Gall-Causing Pest Leptocybe invasa |
2023 |
||
|
Bacillus
Bacillota |
Bactrocera dorsalisDiptera |
Bacteria
|
produce TMP or TTMP |
2023 |
|||
|
Bacillus
Bacillota |
Bactrocera cucurbitaeDiptera |
Bacteria
|
produce TMP or TTMP |
2023 |