SRR15166923 - Acheta domesticus

Basic Information

Run: SRR15166923

Assay Type: WGS

Bioproject: PRJNA742181

Biosample: SAMN20207120

Bytes: 339396007

Center Name: SWEDISH UNIVERSITY OF AGRICULTURAL SCIENCES

Sequencing Information

Instrument: Ion Torrent S5 XL

Library Layout: SINGLE

Library Selection: RANDOM PCR

Platform: ION_TORRENT

Geographic Information

Country: Sweden

Continent: Europe

Location Name: Sweden

Latitude/Longitude: -

Sample Information

Host: Acheta domesticus

Isolation: -

Biosample Model: Metagenome or environmental

Collection Date: 2018-04-13

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
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
22.31%
31.6
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
22.31%
30.0
Escherichia coli
RISB2120
Galleria mellonella
Order: Lepidoptera
mediate trans-generational immune priming
22.31%
28.1
Salmonella enterica
RISB0413
Melanaphis sacchari
Order: Hemiptera
None
16.38%
21.4
Klebsiella pneumoniae
RISB2052
Locusta migratoria
Order: Orthoptera
associated with cellulolytic enzymes
4.28%
20.0
Pantoea agglomerans
RISB2579
Schistocerca gregaria
Order: Orthoptera
produces an antifungal and antibacterial molecule serving as antimicrobial defense against gut pathogens
0.77%
17.9
Bacillus subtilis
RISB0481
Bombyx mori
Order: Lepidoptera
B. subtilis can generate a variety of primary and secondary metabolites, such as B vitamins and antimicrobial compounds, to provide micronutrients and enhance the pathogen resistance of their insect host; The antimicrobial compounds secreted by B. subtilis were the primary driving force for the reconstruction of intestinal microbiota
4.95%
15.0
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.
4.28%
14.3
Bacillus subtilis
RISB2488
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
4.95%
13.9
Bacillus subtilis
RISB1205
Zeuzera pyrina
Order: Lepidoptera
process alkalophilic cellulase which hydrolyzed cellulose, avicel and carboxymethyl cellulose (CMC) and the final product of CMC hydrolysis was cellobiose using thin-layer chromatography analysis
4.95%
13.9
Wolbachia
RISB0534
Velarifictorus micado
Order: Orthoptera
None
3.19%
13.2
Citrobacter sp. RHB21-C01
RISB1503
Bactrocera dorsalis
Order: Diptera
Pesticide-degrading bacteria were frequently detected from pesticide-resistant insects. Susceptible insects became resistant after inoculation of the pesticide-degrading symbiont
3.25%
11.8
Pantoea agglomerans
RISB2197
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.
0.77%
10.8
Klebsiella oxytoca
RISB0130
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.
0.57%
10.6
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.
0.45%
10.5
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.
0.45%
10.5
Serratia symbiotica
RISB0576
Acyrthosiphon pisum
Order: Hemiptera
process of regression from winged to wingless morph was inhibited by Serratia symbiotica. The existence of the symbiont did not affect the body mass and fecundity of adult aphids, but it increased the body weight of nymphs and temporally increased the quantity of a primary symbiont, Buchnera aphidicola
0.25%
10.3
Serratia marcescens
RISB0120
Nezara viridula
Order: Hemiptera
plays an important role in interactions between insects and plants and could therefore be considered a valuable target for the development of sustainable pest control strategies;transmitted bacteria impacted plant chemical defenses and were able to degrade toxic plant metabolites, aiding the shield bug in its nutrition
0.21%
10.2
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
0.06%
10.1
Serratia marcescens
RISB0477
Spodoptera litura
Order: Lepidoptera
The ingestion of bacteria negatively affected the development and nutritional physiology of insect. The bacteria after successful establishment started degrading the gut wall and invaded the haemocoel thereby causing the death of the host.
0.21%
10.0
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
0.06%
9.8
Streptomyces sp. NBC_01324
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
0.23%
9.2
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
0.13%
9.1
Streptomyces sp. SJL17-4
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
0.11%
9.1
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.
0.05%
9.1
Citrobacter sp. RHB21-C01
RISB1571
Bactrocera tau
Order: Diptera
could attract male and female B. tau
3.25%
9.0
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
0.06%
8.9
Enterobacter ludwigii
RISB1543
Helicoverpa zea
Order: Lepidoptera
two immunity-related genes glucose oxidase (GOX) and lysozyme (LYZ) were more highly expressed in both salivary glands and midguts compared with MgCl2 solution-treated caterpillars
0.10%
8.7
Morganella morganii
RISB0772
Delia antiqua
Order: Diptera
showed significant volatile inhibition activity against fungal entomopathogen Fusarium moniliforme, Botryosphaeria dothidea and both Fusarium oxysporum respectively
0.34%
8.6
Citrobacter amalonaticus
RISB0192
Hermetia illucens
Order: Diptera
can directly promote the expression of two gene families related to intestinal protein metabolism: Hitryp serine protease trypsin family and Himtp metallopeptidase family
0.11%
8.5
Candidatus Sodalis pierantonius
RISB2035
Sitophilus oryzae
Order: Coleoptera
endosymbiont dynamics parallels numerous transcriptional changes in weevil developing adults and affects several biological processes, including metabolism and development
0.04%
8.5
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
0.34%
8.3
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
3.19%
8.2
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
0.34%
8.2
Enterococcus casseliflavus
RISB0112
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
0.10%
8.1
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
3.19%
8.0
Enterobacter ludwigii
RISB1223
Delia antiqua
Order: Diptera
six bacteria protect larvae from infection with the entomopathogen Beauveria bassiana through symbiotic bacterium-derived organic acids
0.10%
7.8
Stenotrophomonas maltophilia
RISB1227
Delia antiqua
Order: Diptera
six bacteria protect larvae from infection with the entomopathogen Beauveria bassiana through symbiotic bacterium-derived organic acids
0.05%
7.8
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.
0.16%
7.7
Enterobacter cloacae
RISB1699
Plutella xylostella
Order: Lepidoptera
play an important role in the breakdown of plant cell walls, detoxification of plant phenolics, and synthesis of amino acids.
0.20%
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
0.16%
7.7
Candidatus Sodalis pierantonius
RISB0972
Sitophilus oryzae
Order: Coleoptera
produce vitamins and essential amino acids required for insect development and cuticle biosynthesis
0.04%
7.0
Candidatus Sodalis pierantonius
RISB0251
Sitophilus oryzae
Order: Coleoptera
may infulence immunity, metabolism, metal control, apoptosis, and bacterial stress response
0.04%
6.9
Stenotrophomonas maltophilia
RISB1141
Hermetia illucens
Order: Diptera
enhance the insect growth performance when reared on an unbalanced nutritionally poor diet
0.05%
6.9
Pseudomonas aeruginosa
RISB0364
Pagiophloeus tsushimanus
Order: Coleoptera
terpenoid-degrading: the highest degradation rates of D-camphor, linalool, and eucalyptol
0.07%
6.9
Pantoea agglomerans
RISB0379
Frankliniella occidentalis
Order: Thysanoptera
gut symbionts are required for their development
0.77%
6.7
Pseudomonas chlororaphis
RISB1003
Melolontha melolontha
Order: Coleoptera
Against Bacterial Symbionts of Entomopathogenic Nematodes
0.12%
6.3
Staphylococcus epidermidis
RISB1070
Oryctes rhinoceros
Order: Coleoptera
gut microbe
0.05%
5.3
Erwinia aphidicola
RISB1705
Phlebotomus papatasi
Order: Diptera
None
0.24%
5.2
Erwinia amylovora
RISB0403
Anaphes nitens
Order: Hymenoptera
None
0.05%
5.1
Francisella
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.
0.05%
5.1
Acinetobacter
RISB0140
Nilaparvata lugens
Order: Hemiptera
Acinetobacter can effectively degrade cellulose and harmful substances such as polystyrene and phenol.It can help the short-winged BPH to improve its detoxification ability in harsh environments and adapt to environmental changes at any time.
0.12%
5.0
Rahnella
RISB1623
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
0.05%
4.9
Acinetobacter
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)
0.12%
4.8
Yersinia
RISB0492
Cimex hemipterus
Order: Hemiptera
the disruption of the abundant Yersinia possibly could be related to the enhanced susceptibility towards the insecticides
1.54%
4.0
Acinetobacter
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
0.12%
3.9
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
0.10%
3.9
Bacteroides
RISB0256
Leptocybe invasa
Order: Hymenoptera
Differences in Male-Killing Rickettsia Bacteria between Lineages of the Invasive Gall-Causing Pest Leptocybe invasa
1.23%
3.5
Pectobacterium
RISB1889
Pseudococcus longispinus
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
0.06%
3.4
Bacteroides
RISB0090
Hyphantria cunea
Order: Lepidoptera
enhance the compatibility of invasive pests to new hosts and enable more rapid adaptation to new habitats.
1.23%
3.4
Bacteroides
RISB1183
Oryzaephilus surinamensis
Order: Coleoptera
supplement precursors for the cuticle synthesis and thereby enhance desiccation resistance of its host
1.23%
3.3
Rahnella
RISB1800
Dendroctonus valens
Order: Coleoptera
could alleviate or compromise the antagonistic effects of fungi O. minus and L. procerum on RTB larval growth
0.05%
2.2
Vibrio
RISB1810
Monochamus galloprovincialis
Order: Coleoptera
Have the ability for degradation of cellulose, proteins and starch
0.87%
2.2
Rahnella
RISB0741
Dendroctonus ponderosae
Order: Coleoptera
R. aquatilis decreased (−)-α-pinene (38%) and (+)-α-pinene (46%) by 40% and 45% (by GC-MS), respectively
0.05%
2.1
Xanthomonas
RISB0217
Xylocopa appendiculata
Order: Hymenoptera
strains biodegraded polyethylene terephthalate PET powder, broke it into its degradation products
0.10%
2.0
Nostoc
RISB0812
Hypothenemus hampei
Order: Coleoptera
might contribute to caffeine breakdown using the C-18 oxidation pathway
0.20%
1.6
Yersinia
RISB0407
Anaphes nitens
Order: Hymenoptera
None
1.54%
1.5
Halomonas
RISB1808
Monochamus galloprovincialis
Order: Coleoptera
Have the ability for degradation of cellulose, proteins and starch
0.08%
1.4
Pectobacterium
RISB0798
Pseudoregma bambucicola
Order: Hemiptera
may help P. bambucicola feed on the stalks of bamboo
0.06%
1.1
Cronobacter
RISB0247
Tenebrio molitor
Order: Coleoptera
may be indirectly involved in the digestion of PE
0.06%
1.0
Turicibacter
RISB0451
Odontotaenius disjunctus
Order: Coleoptera
degrading  ellulose and xylan
0.05%
0.6
Priestia
RISB0839
Helicoverpa armigera
Order: Lepidoptera
producing amylase
0.24%
0.6
Halomonas
RISB1374
Bemisia tabaci
Order: Hemiptera
None
0.08%
0.1
Pectobacterium
RISB1772
Muscidae
Order: Diptera
None
0.06%
0.1

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SRR15166923
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