SRR5342674 - Cycloneda sanguinea
Basic Information
Run: SRR5342674
Assay Type: WGS
Bioproject: PRJNA377641
Biosample: SAMN25047037
Bytes: 713924391
Center Name: EMBRAPA
Sequencing Information
Instrument: Illumina HiSeq 2500
Library Layout: PAIRED
Library Selection: RANDOM
Platform: ILLUMINA
Geographic Information
Country: Brazil
Continent: South America
Location Name: Brazil: Distrito Federal
Latitude/Longitude: 15.73 S 47.9002 W
Sample Information
Host: Cycloneda sanguinea
Isolation: -
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 |
|---|---|---|---|---|---|
|
Staphylococcus
Host Order Match
|
RISB0945 |
Callosobruchus maculatus
Order: Coleoptera
|
The strain encodes complete biosynthetic pathways for the production of B vitamins and amino acids, including tyrosine; A carbohydrate-active enzyme search revealed that the genome codes for a number of digestive enzymes, reflecting the nutritional ecology of C. maculatus
|
23.08% |
38.1
|
|
Staphylococcus
Host Order Match
|
RISB0946 |
Callosobruchus maculatus
Order: Coleoptera
|
The strain encodes complete biosynthetic pathways for the production of B vitamins and amino acids, including tyrosine
|
23.08% |
35.4
|
|
Staphylococcus
Host Order Match
|
RISB1070 |
Oryctes rhinoceros
Order: Coleoptera
|
gut microbe
|
23.08% |
33.3
|
|
Vibrio
Host Order Match
|
RISB1810 |
Monochamus galloprovincialis
Order: Coleoptera
|
Have the ability for degradation of cellulose, proteins and starch
|
21.54% |
32.9
|
|
Escherichia coli
Species-level Match
Host Order Match
|
RISB0128 |
Tribolium castaneum
Order: Coleoptera
|
may produce 4,8-dimethyldecanal (DMD) production that is strongly associated with attraction to females and host pheromone communication
|
5.84% |
23.6
|
|
Bacillus cereus
Species-level Match
Host Order Match
|
RISB1056 |
Oryctes rhinoceros
Order: Coleoptera
|
provide symbiotic digestive functions to Oryctes
|
7.29% |
23.3
|
|
Bacillus cereus
Species-level Match
Host Order Match
|
RISB1778 |
Lissorhoptrus oryzophilus
Order: Coleoptera
|
might be promising paratransgenesis candidates
|
7.29% |
23.2
|
|
Pseudomonas sp. CIP-10
Species-level Match
Host Order Match
|
RISB1622 |
Dendroctonus valens
Order: Coleoptera
|
volatiles from predominant bacteria regulate the consumption sequence of carbon sources d-pinitol and d-glucose in the fungal symbiont Leptographium procerum, and appear to alleviate the antagonistic effect from the fungus against RTB larvae
|
1.34% |
21.2
|
|
Pseudomonas sp. CIP-10
Species-level Match
Host Order Match
|
RISB2224 |
Leptinotarsa decemlineata
Order: Coleoptera
|
Colorado potato beetle (Leptinotarsa decemlineata) larvae exploit bacteria in their oral secretions to suppress antiherbivore defenses in tomato (Solanum lycopersicum)
|
1.34% |
19.7
|
|
Pseudomonas sp. CIP-10
Species-level Match
Host Order Match
|
RISB0815 |
Hypothenemus hampei
Order: Coleoptera
|
might contribute to caffeine breakdown using the C-15 oxidation pathway
|
1.34% |
17.8
|
|
Bacillus cereus
Species-level Match
|
RISB2161 |
Termitidae
Order: Blattodea
|
The ability of these arthropods to feed on wood, foliage and detritus is likely to involve catalysis by different types of cellulases/hemicellulases that are secreted by gut microbiota to digest the structural and recalcitrant lignocellulosic residues in their foods.
|
7.29% |
17.3
|
|
Streptomyces sp. T12
Species-level Match
Host Order Match
|
RISB0777 |
Copris tripartitus
Order: Coleoptera
|
contribute brood ball hygiene by inhibiting fungal parasites in the environment
|
0.67% |
17.3
|
|
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
|
7.01% |
17.0
|
|
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
|
7.01% |
16.8
|
|
Stenotrophomonas maltophilia
Species-level Match
Host Order Match
|
RISB0139 |
Tenebrio molitor
Order: Coleoptera
|
correlated with polyvinyl chloride PVC degradation
|
0.76% |
16.8
|
|
Acinetobacter
Host Order Match
|
RISB0730 |
Curculio chinensis
Order: Coleoptera
|
Acinetobacter sp. in C. chinensis enriched after treating with saponin, and when incubating bacteria with saponin for 72 h, saponin content significantly decreased from 4.054 to 1.867 mg/mL (by 16S rRNA metagenome sequencing and HPLC)
|
1.82% |
16.5
|
|
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
|
7.01% |
15.8
|
|
Wolbachia
Host Order Match
|
RISB1452 |
Octodonta nipae
Order: Coleoptera
|
Wolbachia harbored dominantly in a female than the male adult, while, no significant differences were observed between male and female body parts and tissues
|
2.53% |
15.7
|
|
Acinetobacter
Host Order Match
|
RISB1356 |
Callosobruchus maculatus
Order: Coleoptera
|
These bacterial phyla may allow the adults C. maculatus to survive on DDVP treated grains, thereby making it inappropriate to control the beetle populations in the field.
|
1.82% |
15.2
|
|
Escherichia coli
Species-level Match
|
RISB1339 |
Manduca sexta
Order: Lepidoptera
|
modulate immunity-related gene expression in the infected F0 larvae, and also in their offspring, triggered immune responses in the infected host associated with shifts in both DNA methylation and histone acetylation
|
5.84% |
15.2
|
|
Wolbachia
Host Order Match
|
RISB2107 |
Sitophilus zeamais
Order: Coleoptera
|
Wolbachia directly favored weevil fertility and exhibited only mild indirect effects, usually enhancing the SZPE effect
|
2.53% |
14.9
|
|
Wolbachia
Host Order Match
|
RISB1282 |
Ips sp.
Order: Coleoptera
|
inducing cytoplasmic incompatibility, resulting in reproductive distortions and hence
|
2.53% |
14.2
|
|
Acinetobacter
Host Order Match
|
RISB0520 |
Leptinotarsa decemlineata
Order: Coleoptera
|
inhibited the expression of genes associated with the JA-mediated defense signaling pathway and SGA biosynthesis
|
1.82% |
14.1
|
|
Spiroplasma
Host Order Match
|
RISB0343 |
Harmonia axyridis
Order: Coleoptera
|
female ladybirds co-infected with Hesperomyces harmoniae and Spiroplasma had a significantly lower fecundity and hatchability compared to females with only one or no symbiont
|
0.22% |
13.7
|
|
Bacteroides
Host Order Match
|
RISB1183 |
Oryzaephilus surinamensis
Order: Coleoptera
|
supplement precursors for the cuticle synthesis and thereby enhance desiccation resistance of its host
|
0.60% |
12.6
|
|
Spiroplasma
Host Order Match
|
RISB1483 |
Brachinus elongatulus
Order: Coleoptera
|
may manipulate host reproduction (e.g., cause male-killing) or provide resistance to nematodes and/or parasitoid wasps
|
0.22% |
12.6
|
|
Escherichia coli
Species-level Match
|
RISB2120 |
Galleria mellonella
Order: Lepidoptera
|
mediate trans-generational immune priming
|
5.84% |
11.7
|
|
Spiroplasma
Host Order Match
|
RISB0250 |
Tenebrio molitor
Order: Coleoptera
|
associated with PE biodegradation
|
0.22% |
10.9
|
|
Mycobacterium
Host Order Match
|
RISB1156 |
Nicrophorus concolor
Order: Coleoptera
|
produces Antimicrobial compounds
|
0.17% |
10.8
|
|
Stenotrophomonas maltophilia
Species-level Match
|
RISB1122 |
Bombyx mori
Order: Lepidoptera
|
facilitate host resistance against organophosphate insecticides, provides essential amino acids that increase host fitness and allow the larvae to better tolerate the toxic effects of the insecticide.
|
0.76% |
9.8
|
|
Streptomyces sp. T12
Species-level Match
|
RISB0943 |
Polybia plebeja
Order: Hymenoptera
|
this bacterium produces antimicrobial compounds that are active against Hirsutella citriformis, a natural fungal enemy of its host, and the human pathogens Staphylococcus aureus and Candida albicans
|
0.67% |
9.6
|
|
Streptomyces sp. T12
Species-level Match
|
RISB2334 |
Sirex noctilio
Order: Hymenoptera
|
degrading woody substrates and that such degradation may assist in nutrient acquisition by S. noctilio, thus contributing to its ability to be established in forested habitats worldwide
|
0.67% |
9.4
|
|
Clostridium sp. 'deep sea'
Species-level Match
|
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
|
0.10% |
9.3
|
|
Mammaliicoccus sciuri
Species-level Match
|
RISB0075 |
Bombyx mori
Order: Lepidoptera
|
could produce a secreted chitinolytic lysozyme (termed Msp1) to damage fungal cell walls,completely inhibit the spore germination of fungal entomopathogens Metarhizium robertsii and Beauveria bassiana
|
0.15% |
9.2
|
|
Stenotrophomonas maltophilia
Species-level Match
|
RISB1227 |
Delia antiqua
Order: Diptera
|
six bacteria protect larvae from infection with the entomopathogen Beauveria bassiana through symbiotic bacterium-derived organic acids
|
0.76% |
8.5
|
|
Blattabacterium cuenoti
Species-level Match
|
RISB0133 |
Panesthiinae
Order: Blattodea
|
enables hosts to subsist on a nutrient-poor diet; endosymbiont genome erosions are associated with repeated host transitions to an underground life
|
0.38% |
8.3
|
|
Blattabacterium cuenoti
Species-level Match
|
RISB0518 |
Cryptocercus punctulatus
Order: Blattodea
|
collaborative arginine biosynthesis
|
0.38% |
6.1
|
|
Blattabacterium cuenoti
Species-level Match
|
RISB0093 |
Blattella germanica
Order: Blattodea
|
obligate endosymbiont
|
0.38% |
5.8
|
|
Cupriavidus
|
RISB0694 |
Alydus tomentosus
Order: Hemiptera
|
None
|
3.45% |
3.5
|
|
Bacteroides
|
RISB0256 |
Leptocybe invasa
Order: Hymenoptera
|
Differences in Male-Killing Rickettsia Bacteria between Lineages of the Invasive Gall-Causing Pest Leptocybe invasa
|
0.60% |
2.9
|
|
Bacteroides
|
RISB0090 |
Hyphantria cunea
Order: Lepidoptera
|
enhance the compatibility of invasive pests to new hosts and enable more rapid adaptation to new habitats.
|
0.60% |
2.7
|
|
Chryseobacterium
|
RISB2092 |
Aedes aegypti
Order: Diptera
|
axenic larvae cannot develop
|
0.38% |
0.9
|
|
Priestia
|
RISB0839 |
Helicoverpa armigera
Order: Lepidoptera
|
producing amylase
|
0.40% |
0.7
|
|
Chryseobacterium
|
RISB1874 |
Aedes aegypti
Order: Diptera
|
gut microbiome
|
0.38% |
0.7
|
|
Chryseobacterium
|
RISB0015 |
Aedes aegypti
Order: Diptera
|
None
|
0.38% |
0.4
|
|
Legionella
|
RISB1687 |
Polyplax serrata
Order: Phthiraptera
|
None
|
0.34% |
0.3
|
|
Helicobacter
|
RISB0662 |
Melanaphis bambusae
Order: Hemiptera
|
None
|
0.10% |
0.1
|
Download Files
Taxonomic Analysis Files
Assembly & Gene Prediction
Raw Sequencing Files
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Run ID
File Size
SRR5342674
680.9 MB
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