Functional Symbionts
101 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 | |
|---|---|---|---|---|---|---|---|
|
Enterococcus entomosocium IIL-ClNone5
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
metabolize different pesticides |
2023 |
||
|
Enterococcus entomosocium IIL-DmNone1
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
metabolize different pesticides |
2023 |
||
|
Enterococcus entomosocium IIL-SusEc
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
metabolize different pesticides |
2023 |
||
|
Enterococcus entomosocium IIL-Lc32
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
metabolize different pesticides |
2023 |
||
|
Enterococcus entomosocium IIL-SpNone6
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
metabolize different pesticides |
2023 |
||
|
Enterococcus spodopteracolus IIL-Luf18
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
metabolize different pesticides |
2023 |
||
|
Enterococcus spodopteracolus IIL-SusEm
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
metabolize different pesticides |
2023 |
||
|
Enterococcus spodopteracolus IIL-Cl25
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
metabolize different pesticides |
2023 |
||
|
Enterococcus spodopteracolus IIL-Sp24
Bacillota |
Spodoptera frugiperdaLepidoptera |
Bacteria
|
Extracellular
|
metabolize different pesticides |
2023 |
||
|
Burkholderia
Pseudomonadota |
Endoclita signiferLepidoptera |
Bacteria
|
detoxification and metabolic pesticides |
2023 |
|||
|
Microbacillus
Actinomycetota |
Endoclita signiferLepidoptera |
Bacteria
|
detoxification and metabolic pesticides |
2023 |
|||
|
Serratia marcescens
Pseudomonadota |
Riptortus pedestrisHemiptera |
Bacteria
|
Extracellular
|
symbiont contained organophosphorus-degrading MBL-fold metallo-hydrolase gene. Additionally, the bacterium could colonize the insect midgut stably and enhance the host survivorship when exposed to dimethoate |
2023 |
||
|
Sphingomonas
Pseudomonadota |
Aphis gossypiiHemiptera |
Bacteria
|
Sphingomonas could mediate A. gossypii resistance to imidacloprid by hydroxylation and nitroreduction |
2023 |
|||
|
Wolbachia
Pseudomonadota |
Culex quinquefasciatusDiptera |
Bacteria
|
Intracellular
|
Wolbachia can inhibit the presence of Thorsellia and Serratia |
2023 |
||
|
Apilactobacillus kunkeei
Bacillota |
Apis melliferaHymenoptera |
Bacteria
|
A. kunkeei alleviated acetamiprid-induced symbiotic microbiota dysregulation and mortality in honeybees |
2022 |
|||
|
Wolbachia
Pseudomonadota |
Cimex hemipterusHemiptera |
Bacteria
|
Intracellular
|
the disruption of the abundant Wolbachia could be related to the enhanced susceptibility towards the insecticides |
2022 |
||
|
Yersinia
Pseudomonadota |
Cimex hemipterusHemiptera |
Bacteria
|
the disruption of the abundant Yersinia possibly could be related to the enhanced susceptibility towards the insecticides |
2022 |
|||
|
Bacillus flexus
Bacillota |
Sitophilus oryzaeColeoptera |
Bacteria
|
Extracellular
|
bacteria can degrade malathion, pirimiphos-methyl, and deltamethrin and utilize these insecticides as the carbon source in vitro. |
2022 |
||
|
Bacillus subtilis
Bacillota |
Sitophilus oryzaeColeoptera |
Bacteria
|
Extracellular
|
bacteria can degrade malathion, pirimiphos-methyl, and deltamethrin and utilize these insecticides as the carbon source in vitro. |
2022 |
||
|
Bacillus licheniformis
Bacillota |
Rhyzopertha dominicaColeoptera |
Bacteria
|
Extracellular
|
bacteria can degrade malathion, pirimiphos-methyl, and deltamethrin and utilize these insecticides as the carbon source in vitro. |
2022 |