SRR5643124 - Solenopsis substituta
Basic Information
Run: SRR5643124
Assay Type: WGS
Bioproject: PRJNA384876
Biosample: SAMN06830549
Bytes: 453970012
Center Name: EMBRAPA
Sequencing Information
Instrument: Illumina HiSeq 2500
Library Layout: PAIRED
Library Selection: PCR
Platform: ILLUMINA
Geographic Information
Country: Brazil
Continent: South America
Location Name: Brazil: Mato Grosso
Latitude/Longitude: 11.8602 S 55.6222 W
Sample Information
Host: Solenopsis substituta
Isolation: soil
Biosample Model: Metagenome or environmental
Collection Date: 2015
Taxonomic Classification
Potential Symbionts
About Potential Symbionts
This table shows potential symbiont identified in the metagenome sample. Matches are scored based on:
- Relative abundance in the sample
- Species-level matches with known symbionts
- Host insect order matches with reference records
- Completeness and richness of functional records
Based on our current records database, this section aims to identify potential functional symbionts in this metagenome sample, with scoring based on:
- Relative abundance in sample
- Species-level matches with known symbionts
- Host insect order matches
- Functional record completeness
Note: Showing top 3 highest scoring records for each species/genus
| Symbiont Name | Record | Host Species | Function | Abundance |
Score
Score Composition:
Higher scores indicate stronger symbiotic relationship potential |
|---|---|---|---|---|---|
|
Apibacter
Host Order Match
|
RISB0603 |
Apis cerana
Order: Hymenoptera
|
The acquisition of genes for the degradation of the toxic monosaccharides potentiates Apibacter with the ability to utilize the pollen hydrolysis products, at the same time enabling monosaccharide detoxification for the host
|
13.10% |
27.6
|
|
Apibacter
Host Order Match
|
RISB0604 |
Apis cerana
Order: Hymenoptera
|
None
|
13.10% |
23.1
|
|
Gilliamella
Host Order Match
|
RISB0102 |
Apis mellifera
Order: Hymenoptera
|
Gilliamella apicola carries the gene for the desaturase FADS2, which is able to metabolize polyunsaturated fatty acids from pollen and synthesize endocannabinoid, a lipogenic neuroactive substance, thereby modulating reward learning and memory in honeybees.
|
4.31% |
19.3
|
|
Gilliamella
Host Order Match
|
RISB1945 |
Apis cerana
Order: Hymenoptera
|
None
|
4.31% |
14.3
|
|
Apibacter
|
RISB1138 |
Musca domestica
Order: Diptera
|
None
|
13.10% |
13.1
|
|
Bacteroides
Host Order Match
|
RISB0256 |
Leptocybe invasa
Order: Hymenoptera
|
Differences in Male-Killing Rickettsia Bacteria between Lineages of the Invasive Gall-Causing Pest Leptocybe invasa
|
0.51% |
12.8
|
|
Bacteroides
Host Order Match
|
RISB2590 |
Encarsia pergandiella
Order: Hymenoptera
|
associated with thelytokous parthenogenetic reproduction in Encarsia, a genus of parasitoid wasps
|
0.51% |
12.5
|
|
Arsenophonus
Host Order Match
|
RISB0982 |
Vespula penalica
Order: Hymenoptera
|
Arsenophonus sp. has been negatively associated with honeybee hive health
|
0.20% |
11.7
|
|
Buchnera aphidicola
Species-level Match
|
RISB0236 |
Acyrthosiphon pisum
Order: Hemiptera
|
Buchnera the nutritional endosymbiont of A. pisum is located inside of bacteriocytes and requires aspartate from the aphid host, because it cannot make it de novo. Further Buchnera needs aspartate for the biosynthesis of the essential amino acids lysine and threonine, which the aphid and Buchnera require for survival
|
1.07% |
11.1
|
|
Buchnera aphidicola
Species-level Match
|
RISB2485 |
Macrosiphum euphorbiae
Order: Hemiptera
|
symbiont expression patterns differ between aphid clones with differing levels of virulence, and are influenced by the aphids' host plant. Potentially, symbionts may contribute to differential adaptation of aphids to host plant resistance
|
1.07% |
10.8
|
|
Arsenophonus
Host Order Match
|
RISB0428 |
Nasonia vitripennis
Order: Hymenoptera
|
male killing
|
0.20% |
10.4
|
|
Arsenophonus
Host Order Match
|
RISB0366 |
Pachycrepoideus vindemmiae
Order: Hymenoptera
|
None
|
0.20% |
10.2
|
|
Buchnera aphidicola
Species-level Match
|
RISB0685 |
Acyrthosiphon pisum
Order: Hemiptera
|
It supplies the host with vitamins and essential amino acids, such as arginine and methionine that aphids cannot synthesize or derive insufficiently from their diet, the phloem sap of plants
|
1.07% |
9.9
|
|
Clostridium
|
RISB2301 |
Pyrrhocoris apterus
Order: Hemiptera
|
could play an important role for the insect by degrading complex dietary components, providing nutrient supplementation, or detoxifying noxious chemicals (e.g. cyclopropenoic fatty acids or gossypol) in the diet
|
0.58% |
4.8
|
|
Gilliamella
|
RISB0620 |
Spodoptera frugiperda
Order: Lepidoptera
|
degrade amygdalin
|
4.31% |
4.7
|
|
Bacteroides
|
RISB0090 |
Hyphantria cunea
Order: Lepidoptera
|
enhance the compatibility of invasive pests to new hosts and enable more rapid adaptation to new habitats.
|
0.51% |
2.6
|
|
Chryseobacterium
|
RISB2092 |
Aedes aegypti
Order: Diptera
|
axenic larvae cannot develop
|
1.29% |
1.9
|
|
Clostridium
|
RISB0028 |
Sesamia inferens
Order: Lepidoptera
|
degrade Chlorpyrifos and Chlorantraniliprole in vitro
|
0.58% |
1.6
|
|
Chryseobacterium
|
RISB1874 |
Aedes aegypti
Order: Diptera
|
gut microbiome
|
1.29% |
1.6
|
|
Chryseobacterium
|
RISB0015 |
Aedes aegypti
Order: Diptera
|
None
|
1.29% |
1.3
|
|
Clostridium
|
RISB1959 |
Pyrrhocoridae
Order: Hemiptera
|
None
|
0.58% |
0.6
|
Download Files
Taxonomic Analysis Files
Assembly & Gene Prediction
Raw Sequencing Files
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