SRR5342633 - Chrysoperla externa

Basic Information

Run: SRR5342633

Assay Type: WGS

Bioproject: PRJNA377661

Biosample: SAMN25047073

Bytes: 1851045382

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: Chrysoperla externa

Isolation: -

Biosample Model: Metagenome or environmental

Collection Date: 2015

Taxonomic Classification

Potential Symbionts

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
Bacillus cereus
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.
3.10%
13.1
Pseudomonas sp. CIP-10
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
3.02%
12.8
Bacillus cereus
RISB2489
Anticarsia gemmatalis
Order: Lepidoptera
allow the adaptation of this insect to plants rich in protease inhibitors, minimizing the potentially harmful consequences of protease inhibitors from some of this insect host plants, such as soybean
3.10%
12.1
Rickettsia bellii
RISB1897
Bemisia tabaci
Order: Hemiptera
None
6.98%
12.0
Bacillus thuringiensis
RISB2177
Armadillidae
Order: Isopoda
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.
1.41%
11.4
Pseudomonas sp. CIP-10
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)
3.02%
11.4
Enterobacter sp. T2
RISB0893
Bactrocera dorsalis
Order: Diptera
be beneficial, with some quality control indices, such as adult size, pupal weight, survival rate under stress and nutritionally rich conditions, and mating competitiveness, being significantly increased, while slight nonsignificant increases in emergence rate and flight ability were observed
0.58%
10.6
Escherichia coli
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
1.22%
10.5
Buchnera aphidicola
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
0.43%
10.4
Candidatus Hamiltonella defensa
RISB1049
Aphis gossypii
Order: Hemiptera
secondary symbiont reduction led to reduction of the total life span and intrinsic rate of natural increase as well as appearance of the deformed dead offspring. H. defensa and Arsenophonus contributed to the fitness of A. gossypii by enhancing its performance, but not through parasitoid resistance.
0.37%
10.4
Klebsiella pneumoniae
RISB2185
Scirpophaga incertulas
Order: Lepidoptera
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.
0.33%
10.3
Buchnera aphidicola
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
0.43%
10.2
Lactococcus lactis
RISB0131
Ceratitis capitata
Order: Diptera
The intestinal microbiota structure was significantly influenced by the probiotic treatment while still maintaining a stable core dominant community of Enterobacteriacea. The  colony with these microbiome had the most improved potential functions in terms of gut microbes as well as the carbohydrates active enzymes most improved potential functions.
0.19%
10.2
Listeria monocytogenes
RISB2308
Drosophila melanogaster
Order: Diptera
L. monocytogenes infection disrupts host energy metabolism by depleting energy stores (triglycerides and glycogen) and reducing metabolic pathway activity (beta-oxidation and glycolysis). The infection affects antioxidant defense by reducing uric acid levels and alters amino acid metabolism. These metabolic changes are accompanied by melanization, potentially linked to decreased tyrosine levels.
0.11%
10.1
Paenibacillus polymyxa
RISB2195
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.
0.10%
10.1
Gilliamella apicola
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.
0.05%
10.1
Francisella tularensis
RISB1907
Bombyx mori
Order: Lepidoptera
After infection with F. tularensis, the induction of melanization and nodulation, which are immune responses to bacterial infection, were inhibited in silkworms. Pre-inoculation of silkworms with F. tularensis enhanced the expression of antimicrobial peptides and resistance to infection by pathogenic bacteria.
0.03%
10.0
Staphylococcus gallinarum
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
0.01%
10.0
Candidatus Hamiltonella defensa
RISB1296
Sitobion miscanthi
Order: Hemiptera
Increase the reproductive capacity of wheat aphids, increase the number of offspring and reduce the age of first breeding, suppressed the salicylic acid (SA)- and jasmonic acid (JA)-related defense pathways and SA/JA accumulation
0.37%
10.0
Enterobacter sp. T2
RISB1338
Ceratitis capitata
Order: Diptera
Enterobacter sp. AA26 dry biomass can fully replace the brewer’s yeast as a protein source in medfly larval diet without any effect on the productivity and the biological quality of reared medfly of VIENNA 8 GSS
0.58%
9.8
Stenotrophomonas maltophilia
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.
0.75%
9.8
Streptomyces sp. T12
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
0.73%
9.7
Pseudomonas sp. CIP-10
RISB0700
Nilaparvata lugens
Order: Hemiptera
Pseudomonas sp. composition and abundance correlated with BPH survivability
3.02%
9.5
Candidatus Hamiltonella defensa
RISB0630
Acyrthosiphon pisum
Order: Hemiptera
In response to ladybirds, symbiont-infected pea aphids exhibited proportionately fewer evasive defences (dropping and walking away) than non-infected (cured) pea aphids, but more frequent aggressive kicking
0.37%
9.5
Streptomyces sp. T12
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
0.73%
9.4
Rickettsia conorii
RISB1901
Bemisia tabaci
Order: Hemiptera
None
4.41%
9.4
Rickettsia sp. MEAM1 (Bemisia tabaci)
RISB0704
Aphis craccivora
Order: Hemiptera
facultative symbiont
3.94%
9.3
Clostridium sp. DL-VIII
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
0.04%
9.3
Clostridium sp. OS1-26
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
0.03%
9.3
Clostridium sp. MB40-C1
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
0.02%
9.2
Buchnera aphidicola
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
0.43%
9.2
Staphylococcus xylosus
RISB2497
Anticarsia gemmatalis
Order: Lepidoptera
allow the adaptation of this insect to plants rich in protease inhibitors, minimizing the potentially harmful consequences of protease inhibitors from some of this insect host plants, such as soybean
0.12%
9.1
Mammaliicoccus sciuri
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
0.07%
9.1
Streptomyces sp. NBC_00354
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
0.04%
9.0
Escherichia coli
RISB0128
Tribolium castaneum
Order: Coleoptera
may produce 4,8-dimethyldecanal (DMD) production that is strongly associated with attraction to females and host pheromone communication
1.22%
8.9
Enterobacter sp. T2
RISB2221
Leptinotarsa decemlineata
Order: Coleoptera
Colorado potato beetle (Leptinotarsa decemlineata) larvae exploit bacteria in their oral secretions to suppress antiherbivore defenses in tomato (Solanum lycopersicum)
0.58%
8.9
Acinetobacter pittii
RISB1977
Blattella germanica
Order: Blattodea
gut microbiota contributes to production of VCAs that act as fecal aggregation agents and that cockroaches discriminate among the complex odors that emanate from a diverse microbial community
0.09%
8.9
Lactococcus lactis
RISB0967
Oulema melanopus
Order: Coleoptera
contribute to the decomposition of complex carbohydrates, fatty acids, or polysaccharides in the insect gut. It might also contribute to the improvement of nutrient availability.
0.19%
8.8
Paenibacillus sp. Y412MC10
RISB0774
Delia antiqua
Order: Diptera
showed significant contact inhibition activity against fungal entomopathogen Fusarium moniliforme, Botryosphaeria dothidea and both Fusarium oxysporum respectively
0.20%
8.5
Stenotrophomonas maltophilia
RISB1227
Delia antiqua
Order: Diptera
six bacteria protect larvae from infection with the entomopathogen Beauveria bassiana through symbiotic bacterium-derived organic acids
0.75%
8.5
Sphingobacterium sp. UDSM-2020
RISB2227
Leptinotarsa decemlineata
Order: Coleoptera
Colorado potato beetle (Leptinotarsa decemlineata) larvae exploit bacteria in their oral secretions to suppress antiherbivore defenses in tomato (Solanum lycopersicum)
0.02%
8.4
Sphingobacterium sp. SRCM116780
RISB2227
Leptinotarsa decemlineata
Order: Coleoptera
Colorado potato beetle (Leptinotarsa decemlineata) larvae exploit bacteria in their oral secretions to suppress antiherbivore defenses in tomato (Solanum lycopersicum)
0.01%
8.4
Candidatus Gullanella endobia
RISB1885
Ferrisia virgata
Order: Hemiptera
a nested symbiotic arrangement, where one bacterium lives inside another bacterium,occurred in building the mosaic metabolic pathways seen in mitochondria and plastids
0.01%
8.4
Spiroplasma sp. SV19
RISB1353
Cephus cinctus
Order: Hymenoptera
The bacterium also encoded biosynthetic pathways for essential vitamins B2, B3, and B9. We identified putative Spiroplasma virulence genes: cardiolipin and chitinase.
0.02%
8.3
Morganella morganii
RISB0772
Delia antiqua
Order: Diptera
showed significant volatile inhibition activity against fungal entomopathogen Fusarium moniliforme, Botryosphaeria dothidea and both Fusarium oxysporum respectively
0.04%
8.3
Lactococcus lactis
RISB0113
Bactrocera dorsalis
Order: Diptera
increase the resistance of B. dorsalis to β-cypermethrin by regulating cytochrome P450 (P450) enzymes and α-glutathione S-transferase (GST) activities
0.19%
8.2
Blattabacterium cuenoti
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
0.25%
8.2
Spiroplasma poulsonii
RISB1346
Drosophila melanogaster
Order: Diptera
S. poulsonii protects its host against parasitoid wasps and nematodes by the action of toxins from the family of Ribosome Inactivating Proteins
0.20%
8.1
Morganella morganii
RISB0008
Phormia regina
Order: Diptera
deterred oviposition by female stable flies; The flies' oviposition decisions appear to be guided by bacteria-derived semiochemicals as the bacteria
0.04%
8.0
Citrobacter freundii
RISB0517
Leptinotarsa decemlineata
Order: Coleoptera
affect the cellular and humoral immunity of the insect, increasing its susceptibility to Bacillus thuringiensis var. tenebrionis (morrisoni) (Bt)
0.06%
8.0
Morganella morganii
RISB1867
Costelytra zealandica
Order: Coleoptera
Female beetles were previously shown to use phenol as their sex pheromone produced by symbiotic bacteria in the accessory or colleterial gland
0.04%
7.9
Spiroplasma ixodetis
RISB0842
Dactylopius coccus
Order: Hemiptera
use the T4SS to interact with the Dactylopius cells, which show a strong interaction and molecular signaling in the symbiosis
0.29%
7.8
Citrobacter freundii
RISB0127
Tribolium castaneum
Order: Coleoptera
may produce 4,8-dimethyldecanal (DMD) production that is strongly associated with attraction to females and host pheromone communication
0.06%
7.8
Citrobacter freundii
RISB1221
Delia antiqua
Order: Diptera
six bacteria protect larvae from infection with the entomopathogen Beauveria bassiana through symbiotic bacterium-derived organic acids
0.06%
7.8
Proteus vulgaris
RISB0001
Leptinotarsa decemlineata
Order: Coleoptera
produces toxic hydrogen cyanide (HCN) and a mandelonitrile-producing cyanoglucoside, amygdalin, which protect the insect from predation
0.04%
7.7
Enterococcus faecalis
RISB0497
Cryptolestes ferrugineus
Order: Coleoptera
bacteria can degrade malathion, pirimiphos-methyl, and deltamethrin and utilize these insecticides as the carbon source in vitro.
0.10%
7.7
Enterococcus faecalis
RISB1411
Bactrocera dorsalis
Order: Diptera
female Bactrocera dorsalis fed Enterococcus faecalis and Klebsiella oxytoca enriched diets lived longer but had lower fecundity
0.10%
7.6
Stenotrophomonas maltophilia
RISB1141
Hermetia illucens
Order: Diptera
enhance the insect growth performance when reared on an unbalanced nutritionally poor diet
0.75%
7.6
Carnobacterium maltaromaticum
RISB1693
Plutella xylostella
Order: Lepidoptera
play an important role in the breakdown of plant cell walls, detoxification of plant phenolics, and synthesis of amino acids.
0.03%
7.5
Enterococcus faecalis
RISB2042
Harpalus pensylvanicus
Order: Coleoptera
E. faecalis facilitate seed consumption by H. pensylvanicus, possibly by contributing digestive enzymes to their host
0.10%
7.4
Staphylococcus gallinarum
RISB0946
Callosobruchus maculatus
Order: Coleoptera
The strain encodes complete biosynthetic pathways for the production of B vitamins and amino acids, including tyrosine
0.01%
7.4
Escherichia coli
RISB2120
Galleria mellonella
Order: Lepidoptera
mediate trans-generational immune priming
1.22%
7.0
Carnobacterium maltaromaticum
RISB1692
Plutella xylostella
Order: Lepidoptera
participate in the synthesis of host lacking amino acids histidine and threonine
0.03%
6.6
Paenibacillus sp. Y412MC10
RISB0813
Hypothenemus hampei
Order: Coleoptera
might contribute to caffeine breakdown using the C-9 oxidation pathway
0.20%
6.6
Klebsiella pneumoniae
RISB2459
Bombyx mori
Order: Lepidoptera
degradation of cellulose, xylan, pectin and starch
0.33%
6.3
Salmonella enterica
RISB0413
Melanaphis sacchari
Order: Hemiptera
None
1.24%
6.2
Lactiplantibacillus plantarum
RISB0674
Drosophila melanogaster
Order: Diptera
could effectively inhibit fungal spore germinations
0.06%
6.1
Acinetobacter calcoaceticus
RISB0017
Scirpophaga incertulas
Order: Lepidoptera
degrade Chlorpyrifos and Chlorantraniliprole in vitro
0.01%
6.1
Klebsiella pneumoniae
RISB1994
Diatraea saccharalis
Order: Lepidoptera
possess cellulose degrading activity
0.33%
6.1
Proteus vulgaris
RISB2460
Bombyx mori
Order: Lepidoptera
degradation of cellulose, xylan, pectin and starch
0.04%
6.0
Lysinibacillus fusiformis
RISB1417
Psammotermes hypostoma
Order: Blattodea
isolates showed significant cellulolytic activity
0.02%
6.0
Wolbachia
RISB0190
Encarsia formosa
Order: Hymenoptera
Wolbachia's parthenogenesis-induction feminization factor (piff) gene modulates sex determination in Encarsia formosa by regulating doublesex (dsx) expression. When Wolbachia is removed, female-specific dsx decreases while male-specific dsx increases, resulting in haploid male offspring
0.99%
6.0
Providencia rettgeri
RISB1001
Anastrepha obliqua
Order: Diptera
improve the sexual competitiveness of males
0.10%
6.0
Blattabacterium cuenoti
RISB0518
Cryptocercus punctulatus
Order: Blattodea
collaborative arginine biosynthesis
0.25%
6.0
Carnobacterium maltaromaticum
RISB1691
Plutella xylostella
Order: Lepidoptera
activity of cellulose and hemicellulose
0.03%
5.8
Wolbachia
RISB1584
Nasonia vitripennis
Order: Hymenoptera
there were few significant changes in immune or reproductive proteins between samples with and without Wolbachia infection. Differentially expressed proteins were involved in the binding process, catalytic activity, and the metabolic process
0.99%
5.8
Wolbachia
RISB0779
Drosophila melanogaster
Order: Diptera
Wolbachia infection affects differential gene expression in Drosophila testis.Genes involved in carbohydrate metabolism, lysosomal degradation, proteolysis, lipid metabolism, and immune response were upregulated in the presence of Wolbachia
0.99%
5.8
Blattabacterium cuenoti
RISB0093
Blattella germanica
Order: Blattodea
obligate endosymbiont
0.25%
5.7
Providencia rettgeri
RISB1169
Bactrocera dorsalis
Order: Diptera
Promote the growth of larvae
0.10%
5.7
Providencia alcalifaciens
RISB1168
Bactrocera dorsalis
Order: Diptera
Promote the growth of larvae
0.06%
5.6
Chryseobacterium sp. IHB B 17019
RISB2092
Aedes aegypti
Order: Diptera
axenic larvae cannot develop
0.02%
5.6
Arsenophonus nasoniae
RISB0428
Nasonia vitripennis
Order: Hymenoptera
male killing
0.02%
5.3
Lysinibacillus fusiformis
RISB1066
Oryctes rhinoceros
Order: Coleoptera
gut microbe
0.02%
5.2
Candidatus Megaera polyxenophila
RISB0587
Multiple species
Order: None
None
0.16%
5.2
Lactobacillus
RISB1866
Drosophila melanogaster
Order: Diptera
The bacterial cells may thus be able to ameliorate the pH of the acidic region, by the release of weak bases.Additionally, the bacteria have a complex relationship with physiological processes which may affect ionic homeostasis in the gut, such as nutrition and immune function
0.11%
5.1
Candidatus Legionella polyplacis
RISB1687
Polyplax serrata
Order: Phthiraptera
None
0.10%
5.1
Candidatus Erwinia haradaeae
RISB1632
Lachninae
Order: Hemiptera
None
0.08%
5.1
Flavobacterium johnsoniae
RISB0659
Melanaphis bambusae
Order: Hemiptera
None
0.07%
5.1
Lactiplantibacillus plantarum
RISB0608
Drosophila melanogaster
Order: Diptera
None
0.06%
5.1
Gilliamella apicola
RISB1945
Apis cerana
Order: Hymenoptera
None
0.05%
5.1
Pectobacterium carotovorum
RISB1772
Muscidae
Order: Diptera
None
0.03%
5.0
Candidatus Karelsulcia muelleri
RISB1591
Philaenus spumarius
Order: Hemiptera
None
0.03%
5.0
Arsenophonus nasoniae
RISB0366
Pachycrepoideus vindemmiae
Order: Hymenoptera
None
0.02%
5.0
Treponema
RISB2377
termite
Order: Blattodea
when grown together, two termite-gut Treponema species influence each other's gene expression in a far more comprehensive and nuanced manner than might have been predicted based on the results of previous studies on the respective pure cultures
0.05%
4.9
Apibacter
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
0.02%
4.5
Xanthomonas
RISB0498
Xylocopa appendiculata
Order: Hymenoptera
Xanthomonas strain from Japanese carpenter bee is effective PU-degradable bacterium and is able to use polyacryl-based PU as a nutritional source, as well as other types of PS-PU and PE-PU
0.07%
3.8
Photorhabdus
RISB2532
Manduca sexta
Order: Lepidoptera
produces a small-molecule antibiotic (E)-1,3-dihydroxy-2-(isopropyl)-5-(2-phenylethenyl)benzene (ST) that also acts as an inhibitor of phenoloxidase (PO) in the insect host Manduca sexta.
0.01%
3.8
Lactobacillus
RISB0292
Lymantria dispar asiatica
Order: Lepidoptera
Beauveria bassiana infection-based assays showed that the mortality of non-axenic L. dispar asiatica larvae was significantly higher than that of axenic larvae at 72 h.
0.11%
3.5
Candidatus Blochmanniella
RISB2542
Camponotus
Order: Hymenoptera
Blochmannia provide essential amino acids to its host,Camponotus floridanus, and that it may also play a role in nitrogen recycling via its functional urease
0.06%
3.2
Candidatus Blochmanniella
RISB1827
Camponotus floridanus
Order: Hymenoptera
a modulation of immune gene expression which may facilitate tolerance towards the endosymbionts and thus may contribute to their transovarial transmission
0.06%
3.1
Vibrio
RISB1810
Monochamus galloprovincialis
Order: Coleoptera
Have the ability for degradation of cellulose, proteins and starch
1.73%
3.1
Lactobacillus
RISB0715
Spodoptera frugiperda
Order: Lepidoptera
Have the function of nutrient absorption, energy metabolism, the plant’s secondary metabolites degradation, insect immunity regulation, and so on
0.11%
3.0
Candidatus Blochmanniella
RISB2448
Camponotus floridanus
Order: Hymenoptera
nutritional contribution of the bacteria to host metabolism by production of essential amino acids and urease-mediated nitrogen recycling
0.06%
2.8
Photorhabdus
RISB2573
Manduca sexta
Order: Lepidoptera
the bacteria are symbiotic with entomopathogenic nematodes but become pathogenic on release from the nematode into the insect blood system
0.01%
2.8
Bartonella
RISB1673
Apis mellifera
Order: Hymenoptera
a gut symbiont of insects and that the adaptation to blood-feeding insects facilitated colonization of the mammalian bloodstream
0.02%
2.6
Bacteroides
RISB0256
Leptocybe invasa
Order: Hymenoptera
Differences in Male-Killing Rickettsia Bacteria between Lineages of the Invasive Gall-Causing Pest Leptocybe invasa
0.23%
2.5
Yersinia
RISB0492
Cimex hemipterus
Order: Hemiptera
the disruption of the abundant Yersinia possibly could be related to the enhanced susceptibility towards the insecticides
0.03%
2.5
Bacteroides
RISB0090
Hyphantria cunea
Order: Lepidoptera
enhance the compatibility of invasive pests to new hosts and enable more rapid adaptation to new habitats.
0.23%
2.4
Bacteroides
RISB1183
Oryzaephilus surinamensis
Order: Coleoptera
supplement precursors for the cuticle synthesis and thereby enhance desiccation resistance of its host
0.23%
2.3
Streptococcus
RISB2625
Galleria mellonella
Order: Lepidoptera
suppress bacteria ingested with food by producing bacteriocin and by releasing a lysozyme like enzyme
0.16%
2.2
Xanthomonas
RISB0217
Xylocopa appendiculata
Order: Hymenoptera
strains biodegraded polyethylene terephthalate PET powder, broke it into its degradation products
0.07%
2.0
Xenorhabdus
RISB1372
Spodoptera frugiperda
Order: Lepidoptera
the products of the symbiont gene cluster inhibit Spodoptera frugiperda phenoloxidase activity
0.03%
1.9
Streptococcus
RISB2624
Reticulitermes flavipes
Order: Blattodea
can be broken down into substances such as carbon dioxide, ammonia and acetic acid
0.16%
1.8
Rhizobium
RISB0135
Coccinella septempunctata
Order: Coleoptera
be commonly found in plant roots and they all have nitrogen fixation abilities
0.15%
1.7
Nostoc
RISB0812
Hypothenemus hampei
Order: Coleoptera
might contribute to caffeine breakdown using the C-18 oxidation pathway
0.12%
1.5
Xenorhabdus
RISB2270
Acyrthosiphon pisum
Order: Hemiptera
have the gene PIN1 encoding the protease inhibitor protein against aphids
0.03%
1.5
Streptococcus
RISB2604
Homona magnanima
Order: Lepidoptera
influence the growth of Bacillus thuringiensis in the larvae
0.16%
1.4
Photorhabdus
RISB0532
Drosophila melanogaster
Order: Diptera
produces toxin complex (Tc) toxins as major virulence factors
0.01%
1.2
Paraclostridium
RISB0028
Sesamia inferens
Order: Lepidoptera
degrade Chlorpyrifos and Chlorantraniliprole in vitro
0.13%
1.2
Aeromonas
RISB2456
Bombyx mori
Order: Lepidoptera
able to utilize the CMcellulose and xylan
0.02%
0.8
Mycobacterium
RISB1156
Nicrophorus concolor
Order: Coleoptera
produces Antimicrobial compounds
0.02%
0.7
Aeromonas
RISB2086
Aedes aegypti
Order: Diptera
axenic larvae cannot develop
0.02%
0.6
Priestia
RISB0839
Helicoverpa armigera
Order: Lepidoptera
producing amylase
0.19%
0.5
Peribacillus
RISB1877
Aedes aegypti
Order: Diptera
gut microbiome
0.23%
0.5
Aeromonas
RISB1145
Tenebrio molitor
Order: Coleoptera
degrading plastics
0.02%
0.4
Cupriavidus
RISB0694
Alydus tomentosus
Order: Hemiptera
None
0.28%
0.3
Helicobacter
RISB0662
Melanaphis bambusae
Order: Hemiptera
None
0.15%
0.2
Myroides
RISB0626
Musca altica
Order: Diptera
None
0.11%
0.1
Vagococcus
RISB0042
Aldrichina grahami
Order: Diptera
None
0.08%
0.1
Treponema
RISB0169
Reticulitermes flaviceps
Order: Blattodea
None
0.05%
0.1
Yersinia
RISB0407
Anaphes nitens
Order: Hymenoptera
None
0.03%
0.0
Metabacillus
RISB0902
Myzus persicae
Order: Hemiptera
None
0.03%
0.0
Candidatus Arthromitus
RISB2613
Multiple species
Order: None
None
0.03%
0.0
Candidatus Phytoplasma
RISB1620
Cacopsylla pyricola
Order: Hemiptera
None
0.03%
0.0
Apibacter
RISB0604
Apis cerana
Order: Hymenoptera
None
0.02%
0.0
Candidatus Profftia
RISB1664
Adelgidae
Order: Hemiptera
None
0.01%
0.0

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Taxonomic Analysis Files

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Detailed taxonomic classification

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Bracken Results

Species abundance estimation

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Assembly & Gene Prediction

Assembled Contigs

MEGAHIT assembly results

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Predicted Genes

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Gene Annotation

GFF format annotation

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Genome Binning

MetaBAT2 Bins

Compressed genome bins

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Raw Sequencing Files

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Run ID File Size
SRR5342633
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