Aedes aegypti
yellow fever mosquito
Aedes aegypti is a mosquito that can spread dengue fever, chikungunya, Zika fever, Mayaro and yellow fever viruses, and other disease agents. The mosquito can be recognized by white markings on its legs and a marking in the form of a lyre on the upper surface of its thorax. This mosquito originated in Africa, but is now found in tropical, subtropical and temperate regions throughout the world.
Host Genome
Chromosome| Genome ID | Level | BUSCO Assessment |
|---|---|---|
| GCA_002204515.1 | Chromosome |
C:98.4%[S:93.1%,D:5.3%],F:0.9%,M:0.7%,n:1367
|
Download Genome Files
Related Symbionts
36 recordsSymbiont records associated with Aedes aegypti
| Classification | Function | Function Tags | Reference | |
|---|---|---|---|---|
|
Zancudomyces culisetae
Zoopagomycota |
Fungi
|
Zancudomyces culisetae exposure significantly decreases the overall microbial community diversity, alters the microbiome composition and structure, a… |
other
|
|
|
Serratia marcescens
Pseudomonadota |
Bacteria
|
Serratia marcescens facilitates arboviral infection by secreting SmEnhancin, which digests membrane-bound mucins on the mosquito gut epithelia, there… |
virus interaction
|
|
|
Zancudomyces culisetae
Zoopagomycota |
Fungi
|
Zancudomyces culisetae reduces microbial community variation across individuals and differentially impacts the outcomes of transstadial transmission … |
other
|
|
|
Wolbachia strain wAlbB
Pseudomonadota |
Bacteria
|
Wolbachia strain wAlbB sharply decreases dengue incidence in disease hotspots, with dengue reduction predicted to reach 75.8\% at 100\% Wolbachia fre… |
antiviral activity
|
|
|
Chryseobacterium
Bacteroidota |
Bacteria
|
Chryseobacterium is part of the mosquito midgut community, but its specific function related to CHIKV infection in Aedes aegypti requires investigati… |
||
|
Wolbachia strain wMel
Pseudomonadota |
Bacteria
|
Wolbachia strain wMel induces cytoplasmic incompatibility and is used to control the spread of arboviruses through blockage of viral transmission. |
cytoplasmic incompatibility
|
|
|
Asaia
Pseudomonadota |
Bacteria
|
Asaia is a promising candidate for arboviral control and may play a role in inhibiting Chikungunya virus (CHIKV) within the Aedes aegypti host. |
antiviral activity
|
|
|
Beauveria bassiana
Ascomycota |
Fungi
|
Beauveria bassiana (Fungi) stimulates the expression of Toll and JAK-STAT-associated effectors to suppress DENV infection of Aedes aegypti. |
antiviral activity
immune priming
|
|
|
Wolbachia
Pseudomonadota |
Bacteria
|
Wolbachia (in Aedes aegypti) induces reactive oxygen species (ROS)-dependent activation of the Toll pathway to control dengue virus. |
antiviral activity
|
|
|
Chromobacterium sp.
Pseudomonadota |
Bacteria
|
Aminopeptidase secreted by Chromobacterium sp. Panama suppresses DENV infection by directly degrading the DENV envelope protein. |
antiviral activity
protein degradation
|
|
|
Proteus sp.
Pseudomonadota |
Bacteria
|
Proteus sp. upregulates AMP gene expression, resulting in the suppression of DENV infection in the mosquito gut epithelium. |
antiviral activity
|
|
|
Wolbachia
Pseudomonadota |
Bacteria
|
Wolbachia limits infection with dengue, Chikungunya, and Plasmodium in Aedes aegypti but also halves the adult lifespan. |
pathogen resistance
lifespan modulation
|
|
|
Chromobacterium aquaticum
Pseudomonadota |
Bacteria
|
Chromobacterium aquaticum contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Comamonas testosteroni
Pseudomonadota |
Bacteria
|
Comamonas testosteroni contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Staphylococcus hominis
Bacillota |
Bacteria
|
Staphylococcus hominis contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Pseudomonas protegens
Pseudomonadota |
Bacteria
|
Pseudomonas protegens contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Gluconobacter
Pseudomonadota |
Bacteria
|
Gluconobacter might increase the susceptibility of Aedes aegypti to Chikungunya virus (CHIKV) infection. |
virus interaction
|
|
|
Serratia marcescens
Pseudomonadota |
Bacteria
|
Serratia marcescens contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Klebsiella sp. MC1F
Pseudomonadota |
Bacteria
|
Klebsiella sp. MC1F could impact the larval development of Aedes aegypti (e.g., spermidine production). |
developmental modulation
|
|
|
Bacillus simplex
Bacillota |
Bacteria
|
Bacillus simplex contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Chryseobacterium
Bacteroidota |
Bacteria
|
Chryseobacterium contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Bacillus cereus
Bacillota |
Bacteria
|
Bacillus cereus contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Achromobacter
Pseudomonadota |
Bacteria
|
Achromobacter contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Acinetobacter
Pseudomonadota |
Bacteria
|
Acinetobacter contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Alcaligenes
Pseudomonadota |
Bacteria
|
Alcaligenes contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Leucobacter
Actinomycetota |
Bacteria
|
Leucobacter contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Sphingobium
Pseudomonadota |
Bacteria
|
Sphingobium contributes to the gut microbiome homeostasis maintained by mosquito C-type lectins. |
other
|
|
|
Chryseobacterium sp. KCNoneNone3-AaL
Bacteroidota |
Bacteria
|
Chryseobacterium sp. KC003-AaL is essential for development, as axenic larvae cannot develop. |
developmental modulation
|
|
|
Acinetobacter sp. KCNone61-AaNBF
Pseudomonadota |
Bacteria
|
Acinetobacter sp. KC061-AaNBF is essential for development, as axenic larvae cannot develop. |
developmental modulation
|
|
|
Microbacterium sp. KCNone38-AaL
Actinomycetota |
Bacteria
|
Microbacterium sp. KC038-AaL is essential for development, as axenic larvae cannot develop. |
developmental modulation
|
|
|
Paenibacillus sp. KCNone16-AaL
Bacillota |
Bacteria
|
Paenibacillus sp. KC016-AaL is essential for development, as axenic larvae cannot develop. |
developmental modulation
|
|
|
Aeromonas sp. KCNone1None-AaL
Pseudomonadota |
Bacteria
|
Aeromonas sp. KC010-AaL is essential for development, as axenic larvae cannot develop. |
developmental modulation
|
|
|
Aquitalea sp. KCNoneNone2-AaL
Pseudomonadota |
Bacteria
|
Aquitalea sp. KC002-AaL is essential for development, as axenic larvae cannot develop. |
developmental modulation
|
|
|
Wolbachia
Pseudomonadota |
Bacteria
|
Wolbachia increases the dopamine levels in its Aedes aegypti host. |
other
|
|
|
Smittium culisetae
Zoopagomycota |
Fungi
|
- |
||
|
Wolbachia
Pseudomonadota |
Bacteria
|
- |
Metagenome Information
0 recordsMetagenome sequencing data associated with Aedes aegypti
| Run | Platform | Location | Date | BioProject |
|---|---|---|---|---|
No metagenomes foundNo metagenome records associated with this host species. |
||||
Amplicon Information
144 recordsAmplicon sequencing data associated with Aedes aegypti
| Run | Classification | Platform | Location | Environment |
|---|---|---|---|---|
|
SRR15305563
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305562
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305561
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305560
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305535
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305555
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
not applicable
not applicable |
|
SRR15305554
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
not applicable
not applicable |
|
SRR15305553
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305512
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305513
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305514
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305515
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305516
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305517
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305518
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305519
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305520
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305521
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305522
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305523
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305524
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305525
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305526
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305527
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305528
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305529
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305530
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305531
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305532
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305533
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305534
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305552
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305551
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305550
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305549
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305548
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305547
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305546
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305545
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305544
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305543
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305539
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305538
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305537
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305536
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305586
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305585
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305584
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305583
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305582
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305581
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305580
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305579
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305578
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305577
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305576
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305575
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305574
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
laboratory water
tap water |
|
SRR15305573
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305572
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305571
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305570
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305569
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305568
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305567
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305566
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305565
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15305564
AMPLICON |
16S
|
-
|
USA
38.55519976 N 121.72640651 W |
environmental water
cemetery water |
|
SRR15304784
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304756
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304757
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304758
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304759
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304760
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304761
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304762
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304763
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304764
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304765
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304766
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304767
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304768
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304769
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304770
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304771
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304772
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304773
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304774
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304775
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304776
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304777
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304778
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304779
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304780
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304782
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304783
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304785
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304786
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR15304787
AMPLICON |
16S
|
-
|
USA
38.52786856 N 121.75629510 W |
environmental water
cemetery water |
|
SRR17221666
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221671
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221664
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221663
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221662
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221661
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221660
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221659
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221658
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221657
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221656
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221655
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221670
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221669
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221668
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221667
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221673
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221672
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221665
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221654
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221652
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221651
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221650
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221649
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221688
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221687
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221686
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221685
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221684
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221683
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221682
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221681
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221680
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221679
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221678
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221677
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221676
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221675
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221674
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR17221648
AMPLICON |
16S
|
-
|
USA
41.33132151 N 72.91913370 W |
animal associated
midgut |
|
SRR7890297
AMPLICON |
16S
|
-
|
USA
missing |
-
|
|
SRR7890320
AMPLICON |
16S
|
-
|
USA
missing |
-
|
|
SRR7890319
AMPLICON |
16S
|
-
|
USA
missing |
-
|
|
SRR7890298
AMPLICON |
16S
|
-
|
USA
missing |
-
|
|
SRR7890279
AMPLICON |
16S
|
-
|
USA
missing |
-
|
Related Articles
16 recordsResearch articles related to Aedes aegypti
| Title | Authors | Journal | Year | DOI |
|---|---|---|---|---|
|
Siriyasatien, P; Intayot, P; Chitcharoen, S ... Schmidt-Chanasit, J; Phumee, A
|
SCIENTIFIC REPORTS
|
2024
|
10.1038/s41598-024-61027-0 | |
|
Hoffmann, AA; Ahmad, NW; Keong, WM ... Aris, T; Sinkins, SP
|
ISCIENCE
|
2024
|
10.1016/j.isci.2024.108942 | |
|
Wijegunawardana, NDAD; Gunawardene, YINS; Abeyewickreme, W ... Thayanukul, P; Kittayapong, P
|
SCIENTIFIC REPORTS
|
2024
|
10.1038/s41598-024-62476-3 | |
|
Mosquera, KD; Villegas, LEM; Pidot, SJ ... Tobias, NJ; Lorenzo, MG
|
FRONTIERS IN MICROBIOLOGY
|
2021
|
10.3389/fmicb.2021.703711 | |
|
Frankel-Bricker, J; Buerki, S; Feris, KP; White, MM
|
APPLIED AND ENVIRONMENTAL MICROBIOLOGY
|
2020
|
10.1128/AEM.02334-19 | |
|
Bi, J; Wang, YF
|
INSECT SCIENCE
|
2020
|
10.1111/1744-7917.12731 | |
|
Frankel-Bricker, J
|
SCIENTIFIC REPORTS
|
2020
|
10.1038/s41598-020-69828-9 | |
|
Wu, Pa; Sun, Peng; Nie, Kaixiao ... Wang, Penghua; Cheng, Gong
|
Cell Host & Microbe
|
2019
|
10.1016/j.chom.2018.11.004 | |
|
Saraiva, Raúl G.; Fang, Jingru; Kang, Seokyoung ... Dong, Yuemei; Dimopoulos, George
|
PLoS neglected tropical diseases
|
2018
|
10.1371/journal.pntd.0006443 | |
|
Ross, PA; Hoffmann, AA
|
Insects
|
2018
|
10.3390/insects9030078 | |
|
Pang, XJ; Xiao, XP; Liu, Y ... Wang, PH; Cheng, G
|
NATURE MICROBIOLOGY
|
2016
|
10.1038/NMICROBIOL.2016.23 | |
|
Coon, KL; Vogel, KJ; Brown, MR; Strand, MR
|
MOLECULAR ECOLOGY
|
2014
|
10.1111/mec.12771 | |
|
Ramirez, Jose Luis; Souza-Neto, Jayme; Torres Cosme, Rolando ... Pascale, Juan M.; Dimopoulos, George
|
PLoS neglected tropical diseases
|
2012
|
10.1371/journal.pntd.0001561 | |
|
Dong, Yuemei; Morton, James C.; Ramirez, Jose Luis; Souza-Neto, Jayme A.; Dimopoulos, George
|
Insect Biochemistry and Molecular Biology
|
2012
|
10.1016/j.ibmb.2011.11.005 | |
|
Pan, XL; Zhou, GL; Wu, JH ... Raikhel, AS; Xi, ZY
|
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
|
2012
|
10.1073/pnas.1116932108 | |
|
Moreira, LA; Iturbe-Ormaetxe, I; Jeffery, JA ... Ryan, PA; O'Neill, SL
|
CELL
|
2009
|
10.1016/j.cell.2009.11.042 |
Core Microbiome Composition
Core microbiome composition is derived from available metagenomic and amplicon sequencing data, calculated based on the relative abundance and coverage of symbionts across different samples. The representativeness of this analysis may vary depending on the number of available samples and should be considered as a reference guide. See calculation details in Help documentation