Drosophila (Genus)
Species List
9 species in genus Drosophila
Related Symbionts
80 recordsSymbiont records associated with Drosophila genus
Classification | Host | Function | Function Tags | Reference | |
---|---|---|---|---|---|
Listeria monocytogenes
Bacillota |
Bacteria
|
L. monocytogenes infection disrupts host energy metabolism by depleting energy stores (triglycerides and glycogen) and reducing metabolic pathway act… |
Immune priming
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
be reported both to extend and shorten longevity. The main molecular pathways underlying the lifespan-modulating effects of Wolbachia remain unclear,… |
- | ||
Spiroplasma
Mycoplasmatota |
Bacteria
|
when parasitized by the nematode Howardula aoronymphium, Spiroplasma encodes a ribosome-inactivating protein (RIP) related to Shiga-like toxins from … |
- | ||
Acetobacter
Pseudomonadota |
Bacteria
|
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 comple… |
Fertility
|
||
Lactobacillus
Bacillota |
Bacteria
|
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 comple… |
Fertility
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
Wolbachia infection affects differential gene expression in Drosophila testis.Genes involved in carbohydrate metabolism, lysosomal degradation, prote… |
Immune priming
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
Upregulate expression of Pale and Ddc, mediates the expression of dopamine related genes, increase total sleep time in both male and female Drosophil… |
- | ||
Wolbachia
Pseudomonadota |
Bacteria
|
Wolbachia infection changes the expression of several genes putatively associated with spermatogenesis including JH induced protein-26 and Mst84Db, o… |
Immune priming
|
||
Spiroplasma
Mycoplasmatota |
Bacteria
|
Spiroplasma protect their host against parasitoid attack. The Spiroplasma-conferred protection is partial and flies surviving a wasp attack have redu… |
Natural enemy resistance
Fertility
|
||
Acetobacter
Pseudomonadota |
Bacteria
|
The exist of Acetobacter had a balancing effect on food ingestion when carbohydrate levels were high in the warmer months, stabilizing fitness compon… |
Nutrient provision
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
A specific strain of Wolbachia was observed to reduce the initiation of aggressive encounters in Drosophila males, which may achieved by influencing … |
- | ||
Wolbachia popcorn
Pseudomonadota |
Bacteria
|
begins massive proliferation in the adult, causing widespread degeneration of tissues, including brain, retina, and muscle, culminating in early death |
- | ||
Spiroplasma poulsonii
Mycoplasmatota |
Bacteria
|
S. poulsonii protects its host against parasitoid wasps and nematodes by the action of toxins from the family of Ribosome Inactivating Proteins |
- | ||
Beauveria bassiana
Ascomycota |
Fungi
|
B. bassiana evolved a defensin-like BbAMP1 to battle the insect surface microbiotas to facilitate fungal infection of insect hosts |
Antimicrobials
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
enhance nanos expression via the bacterial TomO protein in order to fuel germ stem cell maintenance in infected Drosophila females |
Fertility
|
||
Spiroplasma poulsonii
Mycoplasmatota |
Bacteria
|
Spiroplasma coopts the yolk transport and uptake machinery to colonize the germ line and ensure efficient vertical transmission |
- | ||
Wolbachia pipientis
Pseudomonadota |
Bacteria
|
increases the recombination rate observed across two genomic intervals and increases the efficacy of natural selection in hosts |
- | ||
Spiroplasma poulsonii
Mycoplasmatota |
Bacteria
|
supporting the hypothesis that competition for host lipids underlies S. poulsonii-mediated protection against parasitoid wasps |
Natural enemy resistance
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
Wolbachia can protect insects against the La Jolla virus (LJV; Iflaviridae) and Newfield virus (NFV; Permutotetraviridae) |
Pathogen interaction
|
||
Acetobacter
Pseudomonadota |
Bacteria
|
enhancing the brain levels of tyrosine decarboxylase 2 (Tdc2), which is an enzyme that synthesizes octopamine (OA) |
- | ||
Lactobacillus
Bacillota |
Bacteria
|
enhancing the brain levels of tyrosine decarboxylase 2 (Tdc2), which is an enzyme that synthesizes octopamine (OA) |
- | ||
Spiroplasma
Mycoplasmatota |
Bacteria
|
in old flies, display neurodegenerative phenotypes and have a reduced life span compared to uninfected controls |
Growth and Development
|
||
Spiroplasma
Mycoplasmatota |
Bacteria
|
the presence of Wolbachia and Spiroplasma in D. melanogaster up-regulated certain immune-related genes |
Immune priming
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
Wolbach regulates the host's transcriptional response to viral infection and affects viral replication |
Pathogen interaction
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
the presence of Wolbachia and Spiroplasma in D. melanogaster up-regulated certain immune-related genes |
Immune priming
|
||
Wolbachia pipientis
Pseudomonadota |
Bacteria
|
Wolbachia influence octopamine metabolism in the Drosophila females, which is by the symbiont genotype |
- | ||
Klebsiella oxytoca
Pseudomonadota |
Bacteria
|
promotes host fitness in special ecological niche by affecting sugar metabolism in Drosophila suzukii |
Sugar metabolism
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
increase olfactory response of flies by regulating the expression of olfaction-related genes in hosts |
- | ||
Acetobacter malorum
Pseudomonadota |
Bacteria
|
resulted in the development of larger ovaries and in increased egg numbers in an oviposition assay. |
Fertility
|
||
Saccharomyces cerevisiae
Ascomycota |
Fungi
|
resulted in the development of larger ovaries and in increased egg numbers in an oviposition assay. |
Fertility
|
||
Spiroplasma poulsonii
Mycoplasmatota |
Bacteria
|
manipulates the reproduction of its host by killing its male progeny at the embryonic stage |
Reproductive manipulation
|
||
Spiroplasma
Mycoplasmatota |
Bacteria
|
enhance survival of Drosophila hydei attacked by the parasitic wasp Leptopilina heterotoma |
Natural enemy resistance
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
Wolbachia strain wMel changes the composition of gut commensal bacteria in the fruit fly |
- | ||
Wolbachia wRi
Pseudomonadota |
Bacteria
|
induces very strong cytoplasmic incompatibility in its natural host Drosophila simulans |
Reproductive manipulation
|
||
Wolbachia
Pseudomonadota |
Bacteria
|
Wolbachia positively affected female fecundity and offspring mass after a diet shift |
Fertility
Growth and Development
|
||
Lactobacillus plantarum FlyG11.1.2
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG11.1.6
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG11.2.6
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG1None.1.5
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG1None.1.9
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG2.1.8
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG2None.1.2
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG2None.1.4
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG2None.2.2
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG2None.2.6
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG3.1.8
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG7.1.6
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG8.1.1
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG8.1.2
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG9.1.4
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Lactobacillus plantarum FlyG9.2.5
Bacillota |
Bacteria
|
L. plantarum increases its growth-promotion ability by adapting to Drosophila diet |
Growth and Development
|
||
Spiroplasma poulsonii MSRO-H99
Mycoplasmatota |
Bacteria
|
an S. poulsonii protein, designated Spaid, whose expression induces male killing |
Reproductive manipulation
|
||
Spiroplasma poulsonii MSRO-SE
Mycoplasmatota |
Bacteria
|
an S. poulsonii protein, designated Spaid, whose expression induces male killing |
Reproductive manipulation
|
||
Wolbachia wMelPop
Pseudomonadota |
Bacteria
|
The virulent wMelPop can improve the learning and memory capacity of Drosophila. |
Fertility
Growth and Development
|
||
Accharomyces cerevisiae
Ascomycota |
Fungi
|
mediate Drosophila melanogaster attraction, oviposition and development |
Growth and Development
|
||
Lactobacillus plantarum
Bacillota |
Bacteria
|
It has the potential to reduce IMI-induced susceptibility to infection. |
Nutrient provision
|
||
Bacteria
|
Surface bacteria can defend flies against fungal parasitic infections |
Antimicrobials
|
|||
Lactobacillus plantarum
Bacillota |
Bacteria
|
may be beneficial in reducing in vivo Chlorpyrifos (CP) toxicity |
Pesticide metabolization
|
||
Photorhabdus luminescens
Pseudomonadota |
Bacteria
|
produces toxin complex (Tc) toxins as major virulence factors |
Chemical biosynthesis
|
||
Wolbachia pipientis
Pseudomonadota |
Bacteria
|
Increasing Heat Stress Resistance of Drosophila melanogaster |
- | ||
Bacteria
|
gut microbiota of a host for nutritional needs and survival |
Nutrient provision
|
|||
Bacteria
|
gut microbiota of a host for nutritional needs and survival |
Nutrient provision
|
|||
Gluconobacter
Pseudomonadota |
Bacteria
|
produce volatile substances that attract female D. suzukii |
Chemical biosynthesis
|
||
Komagataeibacter
Pseudomonadota |
Bacteria
|
produce volatile substances that attract female D. suzukii |
Chemical biosynthesis
|
||
Lactiplantibacillus plantarum
Bacillota |
Bacteria
|
could effectively inhibit fungal spore germinations |
Antimicrobials
|
||
Bacteria
|
Increase chemotaxis response to odorants |
- | |||
Bacteria
|
Reduce memory of olfactory appetitive |
- | |||
Wolbachia pipientis
Pseudomonadota |
Bacteria
|
induces cytoplasmic incompatibility |
Reproductive manipulation
|
||
Wolbachia pipientis
Pseudomonadota |
Bacteria
|
induces cytoplasmic incompatibility |
Reproductive manipulation
|
||
Spiroplasma poulsonii MSRO
Mycoplasmatota |
Bacteria
|
male-killing Spiroplasma bacterium |
Reproductive manipulation
|
||
Spiroplasma poulsonii MSRO_BK
Mycoplasmatota |
Bacteria
|
male-killing Spiroplasma bacterium |
Reproductive manipulation
|
||
Wolbachia pipientis
Pseudomonadota |
Bacteria
|
causes cytoplasmic incompatibility |
Reproductive manipulation
|
||
Erwinia carotovora carotovora 15
Pseudomonadota |
Bacteria
|
Decrease olfactory discrimination |
- | ||
Acetobacter indonesiensis
Pseudomonadota |
Bacteria
|
- |
- | ||
Acetobacter oryzifermentans
Pseudomonadota |
Bacteria
|
- |
- | ||
bacteria
- |
Bacteria
|
- |
- | ||
Gluconobacter cerinus
Pseudomonadota |
Bacteria
|
- |
- | ||
Lactiplantibacillus plantarum
Bacillota |
Bacteria
|
- |
- | ||
Lactiplantibacillus plantarum
Bacillota |
Bacteria
|
- |
- | ||
Streptomyces
Actinomycetota |
Bacteria
|
- |
- |
Metagenome Information
40 recordsMetagenome sequencing data associated with Drosophila species
Run | Platform | Host | Location | Date | BioProject |
---|---|---|---|---|---|
DRR493893
WGS |
DNBSEQ
DNBSEQ-G400 |
Japan
|
2022-11-01
|
PRJDB16258 | |
DRR493892
WGS |
OXFORD_NANOPORE
MinION |
Japan
|
2022-11-01
|
PRJDB16258 | |
DRR493891
WGS |
OXFORD_NANOPORE
MinION |
Japan
|
2022-11-01
|
PRJDB16258 | |
DRR493894
WGS |
DNBSEQ
DNBSEQ-G400 |
Japan
|
2022-11-01
|
PRJDB16258 | |
SRR6130762
WGS |
ILLUMINA
Illumina MiSeq |
USA
38.54 N 121.75 W |
2016-12
|
PRJNA412893 | |
SRR6130731
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.87 N 77.00 W |
2016-12
|
PRJNA412893 | |
SRR6130758
WGS |
ILLUMINA
Illumina MiSeq |
USA
38.54 N 121.75 W |
2016-12
|
PRJNA412893 | |
SRR6130746
WGS |
ILLUMINA
Illumina MiSeq |
USA
38.54 N 121.75 W |
2016-12
|
PRJNA412893 | |
SRR6130753
WGS |
ILLUMINA
Illumina MiSeq |
USA
38.54 N 121.75 W |
2016-12
|
PRJNA412893 | |
SRR6130751
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.87 N 77.00 W |
2016-12
|
PRJNA412893 | |
SRR6130738
WGS |
ILLUMINA
Illumina MiSeq |
USA
38.54 N 121.75 W |
2016-12
|
PRJNA412893 | |
SRR6130739
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.87 N 77.00 W |
2016-12
|
PRJNA412893 | |
SRR6130754
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.87 N 77.00 W |
2016-12
|
PRJNA412893 | |
SRR6130729
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.87 N 77.00 W |
2016-12
|
PRJNA412893 | |
SRR6130743
WGS |
ILLUMINA
Illumina MiSeq |
USA
38.54 N 121.75 W |
2016-12
|
PRJNA412893 | |
SRR6130744
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.87 N 77.00 W |
2016-12
|
PRJNA412893 | |
SRR6130745
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-11
|
PRJNA412893 | |
SRR6130735
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-11
|
PRJNA412893 | |
SRR6130737
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-11
|
PRJNA412893 | |
SRR6130740
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-11
|
PRJNA412893 | |
SRR6130742
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-11
|
PRJNA412893 | |
SRR6130747
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-11
|
PRJNA412893 | |
SRR6130750
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-11
|
PRJNA412893 | |
SRR6130752
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-11
|
PRJNA412893 | |
SRR6130757
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-11
|
PRJNA412893 | |
SRR6130759
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-11
|
PRJNA412893 | |
SRR6130761
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-11
|
PRJNA412893 | |
SRR6130763
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-11
|
PRJNA412893 | |
SRR6130734
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-09
|
PRJNA412893 | |
SRR6130733
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-09
|
PRJNA412893 | |
SRR6130755
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-09
|
PRJNA412893 | |
SRR6130756
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-09
|
PRJNA412893 | |
SRR6130764
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-09
|
PRJNA412893 | |
SRR6130741
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-09
|
PRJNA412893 | |
SRR6130732
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-09
|
PRJNA412893 | |
SRR6130748
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-09
|
PRJNA412893 | |
SRR6130749
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-09
|
PRJNA412893 | |
SRR6130730
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-09
|
PRJNA412893 | |
SRR6130736
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.52 N 77.00 W |
2016-09
|
PRJNA412893 | |
SRR6130760
WGS |
ILLUMINA
Illumina MiSeq |
USA
42.47 N 76.59 W |
2016-09
|
PRJNA412893 |
Amplicon Information
188 recordsAmplicon sequencing data associated with Drosophila species
Run | Classification | Host | Platform | Location | Environment |
---|---|---|---|---|---|
SRR5682893
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
DRR358051
AMPLICON |
16S
|
-
|
uncalculated
missing |
missing
missing |
|
SRR5682875
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682876
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682877
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682878
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682879
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682880
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682881
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682882
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682883
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682884
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682885
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682886
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682887
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682888
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682889
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682890
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682891
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682892
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682894
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
SRR5682895
AMPLICON |
16S
|
-
|
Australia
|
-
|
|
DRR358050
AMPLICON |
16S
|
-
|
uncalculated
missing |
missing
missing |
|
SRR5575889
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575890
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575850
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575884
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575885
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575886
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575887
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575888
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575904
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575905
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575906
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575907
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575908
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575909
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575910
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575911
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575912
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575913
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575891
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575892
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575893
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575849
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575847
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575848
AMPLICON |
16S
|
-
|
Mexico
28.49516 N 111.48036 W |
-
|
|
SRR5575896
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575824
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575825
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575826
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575827
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575828
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575829
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575830
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575831
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575832
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575853
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575854
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575855
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575856
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575857
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575858
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575859
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575860
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575861
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575862
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575863
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575864
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575865
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575866
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575867
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575868
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575869
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575870
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575871
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575872
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575894
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575895
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575897
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575898
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575899
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575900
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575901
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575902
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575903
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR5575823
AMPLICON |
16S
|
-
|
Mexico
28.50216 N 111.47418 W |
-
|
|
SRR15332033
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Six days post eclosion |
|
SRR15331989
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Six days post eclosion |
|
SRR15332011
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Two days post eclosion |
|
SRR15332009
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Two days post eclosion |
|
SRR15332007
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Two days post eclosion |
|
SRR15332005
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Two days post eclosion |
|
SRR15332003
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Two days post eclosion |
|
SRR15332001
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Six days post eclosion |
|
SRR15331999
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Six days post eclosion |
|
SRR15331997
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Two days post eclosion |
|
SRR15331995
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Two days post eclosion |
|
SRR15331993
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Six days post eclosion |
|
SRR15331991
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Six days post eclosion |
|
SRR15332035
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Six days post eclosion |
|
SRR15332031
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Six days post eclosion |
|
SRR15332029
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Six days post eclosion |
|
SRR15332027
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Ten days post eclosion |
|
SRR15332025
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Ten days post eclosion |
|
SRR15332023
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Ten days post eclosion |
|
SRR15332021
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Two days post eclosion |
|
SRR15332019
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Ten days post eclosion |
|
SRR15332017
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Ten days post eclosion |
|
SRR15332015
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Ten days post eclosion |
|
SRR15332013
AMPLICON |
16S
|
-
|
China
31.2 N 121.4 E |
Fruit fly body surface
Ten days post eclosion |
|
SRR14350756
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350755
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350754
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350753
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350752
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350751
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350750
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350749
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350748
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350747
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350746
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR14350745
AMPLICON |
16S
|
-
|
Canada
68.87 N 93.13 W |
-
|
|
SRR13089526
AMPLICON |
16S
|
-
|
China
30.3 N 120.2 E |
-
|
|
SRR13089525
AMPLICON |
16S
|
-
|
China
30.3 N 120.2 E |
-
|
|
SRR22839836
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839838
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839839
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839840
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839841
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839842
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839843
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839844
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839845
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839846
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839847
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839848
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839849
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839850
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839851
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839852
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839853
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839854
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839855
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839856
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839857
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839858
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839859
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839860
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839861
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839862
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839835
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839834
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839833
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839832
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839831
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839830
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839829
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839828
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839827
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839826
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839825
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839824
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839823
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839822
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839821
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839820
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839819
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839818
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839817
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839816
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839815
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839814
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839813
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839812
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839811
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839810
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839809
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839808
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839807
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839806
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839805
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839804
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839803
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839802
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR22839837
AMPLICON |
16S
|
-
|
uncalculated
not applicable |
Insect Gut Microbiota
digestive tract |
|
SRR9587989
AMPLICON |
16S
|
-
|
China
30.3 N 120.2 E |
-
|
|
SRR9587990
AMPLICON |
16S
|
-
|
China
30.3 N 120.2 E |
-
|