Aphis gossypii

Order

Hemiptera

Family

Aphididae

Genus

Aphis

Image source: Jesse Rorabaugh@CC0

Aphis gossypii is a tiny insect, an aphid (greenfly) in the superfamily Aphidoidea in the order Hemiptera. It is a true bug and sucks sap from plants. It is a widely distributed pest of a variety of agricultural crops in the families Cucurbitaceae, Rutaceae and Malvaceae.[2] Common names include cotton aphid, melon aphid and melon and cotton aphid.

Host Genome

Scaffold

Genome ID	Level	BUSCO Assessment
GCA_004010815.1	Scaffold	C:93.2%[S:89.0%,D:4.2%],F:2.0%,M:4.8%,n:1367

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Related Symbionts

26 records

Symbiont records associated with Aphis gossypii

	Classification	Function	Function Tags
Arsenophonus sp. Pseudomonadota	Bacteria	secondary symbiont reduction led to reduction of the total life span and intrinsic rate of natural increase as well as appearance of the deformed dea…	Natural enemy resistance
Hamiltonella defensa Pseudomonadota	Bacteria	secondary symbiont reduction led to reduction of the total life span and intrinsic rate of natural increase as well as appearance of the deformed dea…	Natural enemy resistance
Arsenophonus sp. Pseudomonadota	Bacteria	Arsenophonus sp. can have different effects on its hosts, including obligate mutualism in blood-sucking insects, improving the performance of whitefl…	Nutrient provision
Arsenophonus Pseudomonadota	Bacteria	plant mediation and parasitism might be involved in the dispersal of Arsenophonus. Moreover, Arsenophonus was reported to be involved in host plant s…	Pathogen interaction
Buchnera aphidicola Pseudomonadota	Bacteria	aphids are dependent on this microorganism for the production of the essential amino acids, vitamins and sterols that are necessary for their normal …	Nutrient provision Growth and Development
Candidatus Hamiltonella Pseudomonadota	Bacteria	Hamiltonella retarded the growth and development of cotton aphids accompanied by the downregulation of genes related to energy synthesis and nutrient…	Growth and Development
Arsenophonus sp. Pseudomonadota	Bacteria	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	Growth and Development
Candidatus Hamiltonella defensa Pseudomonadota	Bacteria	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	Growth and Development
Buchnera Pseudomonadota	Bacteria	To utilize phloem sap as their sole dietary component, most aphids are critically dependent on symbiosis with the bacteria B. aphidicola	Nutrient provision
Pseudomonas fulva Pseudomonadota	Bacteria	By using caffeine from plants to produce nitrogen, this bacterium allows the coffee borer beetle to survive in coffee plants	Nitrogen fixation
Arsenophonus Pseudomonadota	Bacteria	infections with Arsenophonus facultative endosymbionts alter performance of aphids on an amino-acid-deficient diet	Nutrient provision
Buchnera aphidicola Pseudomonadota	Bacteria	increased density of endosymbiotic Buchnera related to pesticide resistance in yellow morph of melon aphid	Pesticide metabolization
Sphingomonas Pseudomonadota	Bacteria	Sphingomonas could mediate A. gossypii resistance to imidacloprid by hydroxylation and nitroreduction	Pesticide metabolization
Sphingomonas Pseudomonadota	Bacteria	have been previously described in associations with phloem-feeding insects, in low abundances	Immune priming
Arsenophonus Pseudomonadota	Bacteria	Arsenophonus ameliorated growth performance of A. gossypii on an amino acid-deficient diet	Nutrient provision
Hamiltonella Pseudomonadota	Bacteria	Hamiltonella is known to protect aphids against parasitism.	Natural enemy resistance
Serratia symbiotica Pseudomonadota	Bacteria	gut pathogens in aphid hosts
Buchnera aphidicola Pseudomonadota	Bacteria	nutrient-provisioning	Nutrient provision
Achromobacter Pseudomonadota	Bacteria	-
Arsenophonus Pseudomonadota	Bacteria	-
gut bacteria -	Bacteria	-
Pseudomonas Pseudomonadota	Bacteria	-
Rhodococcus Pseudomonadota	Bacteria	-
Rickettsia in the B biotype Pseudomonadota	Bacteria	-
Selenomonas Bacillota	Bacteria	-
Serratia Pseudomonadota	Bacteria	-

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Metagenome Information

0 records

Metagenome sequencing data associated with Aphis gossypii

Run	Platform	Location	Date	BioProject
No metagenomes found No metagenome records associated with this host species.

Amplicon Information

61 records

Amplicon sequencing data associated with Aphis gossypii

Run	Classification	Platform	Location	Environment
SRR23285875 AMPLICON	16S	-	China 34.105 N 10.15 W	cotton biome temperature
SRR23285876 AMPLICON	16S	-	China 34.104 N 10.15 W	cotton biome temperature
SRR23285878 AMPLICON	16S	-	China 34.103 N 10.15 W	cotton biome temperature
SRR23285900 AMPLICON	16S	-	China 34.83 N 10.15 W	cotton biome temperature
SRR23285901 AMPLICON	16S	-	China 34.82 N 10.15 W	cotton biome temperature
SRR23285879 AMPLICON	16S	-	China 34.102 N 10.15 W	cotton biome temperature
SRR23285902 AMPLICON	16S	-	China 34.81 N 10.15 W	cotton biome temperature
SRR23285880 AMPLICON	16S	-	China 34.101 N 10.15 W	cotton biome temperature
SRR23285881 AMPLICON	16S	-	China 34.100 N 10.15 W	cotton biome temperature
SRR23285903 AMPLICON	16S	-	China 34.80 N 10.15 W	cotton biome temperature
SRR23285904 AMPLICON	16S	-	China 34.79 N 10.15 W	cotton biome temperature
SRR23285882 AMPLICON	16S	-	China 34.99 N 10.15 W	cotton biome temperature
SRR23285883 AMPLICON	16S	-	China 34.98 N 10.15 W	cotton biome temperature
SRR23285905 AMPLICON	16S	-	China 34.78 N 10.15 W	cotton biome temperature
SRR23285884 AMPLICON	16S	-	China 34.97 N 10.15 W	cotton biome temperature
SRR23285906 AMPLICON	16S	-	China 34.77 N 10.15 W	cotton biome temperature
SRR23285907 AMPLICON	16S	-	China 34.76 N 10.15 W	cotton biome temperature
SRR23285885 AMPLICON	16S	-	China 34.96 N 10.15 W	cotton biome temperature
SRR23285886 AMPLICON	16S	-	China 34.95 N 10.15 W	cotton biome temperature
SRR23285908 AMPLICON	16S	-	China 34.75 N 10.15 W	cotton biome temperature
SRR23285909 AMPLICON	16S	-	China 34.74 N 10.15 W	cotton biome temperature
SRR23285887 AMPLICON	16S	-	China 34.94 N 10.15 W	cotton biome temperature
SRR23285889 AMPLICON	16S	-	China 34.93 N 10.15 W	cotton biome temperature
SRR23285870 AMPLICON	16S	-	China 34.73 N 10.15 W	cotton biome temperature
SRR23285871 AMPLICON	16S	-	China 34.72 N 10.15 W	cotton biome temperature
SRR23285890 AMPLICON	16S	-	China 34.92 N 10.15 W	cotton biome temperature
SRR23285891 AMPLICON	16S	-	China 34.91 N 10.15 W	cotton biome temperature
SRR23285872 AMPLICON	16S	-	China 34.71 N 10.15 W	cotton biome temperature
SRR23285873 AMPLICON	16S	-	China 34.70 N 10.15 W	cotton biome temperature
SRR23285892 AMPLICON	16S	-	China 34.90 N 10.15 W	cotton biome temperature
SRR23285874 AMPLICON	16S	-	China 34.69 N 10.15 W	cotton biome temperature
SRR23285893 AMPLICON	16S	-	China 34.89 N 10.15 W	cotton biome temperature
SRR23285894 AMPLICON	16S	-	China 34.88 N 10.15 W	cotton biome temperature
SRR23285877 AMPLICON	16S	-	China 34.68 N 10.15 W	cotton biome temperature
SRR23285888 AMPLICON	16S	-	China 34.67 N 10.15 W	cotton biome temperature
SRR23285895 AMPLICON	16S	-	China 34.87 N 10.15 W	cotton biome temperature
SRR23285896 AMPLICON	16S	-	China 34.86 N 10.15 W	cotton biome temperature
SRR23285899 AMPLICON	16S	-	China 34.66 N 10.15 W	cotton biome temperature
SRR23285897 AMPLICON	16S	-	China 34.85 N 10.15 W	cotton biome temperature
SRR23285910 AMPLICON	16S	-	China 34.65 N 10.15 W	cotton biome temperature
SRR23285911 AMPLICON	16S	-	China 34.64 N 10.15 W	cotton biome temperature
SRR23285898 AMPLICON	16S	-	China 34.84 N 10.15 W	cotton biome temperature
SRR10413413 OTHER	16S	-	China missing	-
SRR10413412 OTHER	16S	-	China missing	-
SRR10413415 OTHER	16S	-	China missing	-
SRR10413411 OTHER	16S	-	China missing	-
SRR10413410 OTHER	16S	-	China missing	-
SRR10413408 OTHER	16S	-	China missing	-
SRR10413409 OTHER	16S	-	China missing	-
SRR10413414 OTHER	16S	-	China missing	-
SRR10413417 OTHER	16S	-	China missing	-
SRR10413418 OTHER	16S	-	China missing	-
SRR10413416 OTHER	16S	-	China missing	-
SRR10413400 OTHER	16S	-	China missing	-
SRR10413407 OTHER	16S	-	China missing	-
SRR10413406 OTHER	16S	-	China missing	-
SRR10413405 OTHER	16S	-	China missing	-
SRR10413404 OTHER	16S	-	China missing	-
SRR10413403 OTHER	16S	-	China missing	-
SRR10413402 OTHER	16S	-	China missing	-
SRR10413401 OTHER	16S	-	China missing	-

13 records

Research articles related to Aphis gossypii

Title	Authors	Journal	Year	DOI
Parasitization of Aphis gossypii Glover by Binodoxys communis Gahan Causes Shifts in the Ovarian Bacterial Microbiota	Li, JM; An, Z; Luo, JY ... Gao, XK; Cui, JJ	Insects	2023	10.3390/insects14040314
Evaluation of Hamiltonella on Aphis gossypii fitness based on life table parameters and RNA sequencing	Niu, RC; Zhu, XZ; Wang, L ... Luo, JY; Cui, JJ	PEST MANAGEMENT SCIENCE	2023	10.1002/ps.7200
The gut symbiont Sphingomonas mediates imidacloprid resistance in the important agricultural insect pest Aphis gossypii Glover.	Lv, NN; Li, R; Cheng, SH ... Liang, P; Gao, XW	BMC Biology	2023	10.1186/s12915-023-01586-2
Arsenophonus Interacts with Buchnera to Improve Growth Performance of Aphids under Amino Acid Stress	Tian, PP; Zhang, YL; Huang, JL; Li, WY; Liu, XD	MICROBIOLOGY SPECTRUM	2023	10.1128/spectrum.01792-23
Vertical Transmission at the Pathogen-Symbiont Interface: Serratia symbiotica and Aphids	Perreau, J; Patel, DJ; Anderson, H ... Barrick, JE; Moran, NA	MBIO	2021	10.1128/mbio.00359-21
Characterization and comparison of the bacterial microbiota of Lysiphlebia japonica parasitioid wasps and their aphid host Aphis gosypii	Gao, XK; Niu, RC; Zhu, XZ ... Luo, JY; Cui, JJ	PEST MANAGEMENT SCIENCE	2021	10.1002/ps.6299
Coinfection of the secondary symbionts, Hamiltonella defensa and Arsenophonus sp. contribute to the performance of the major aphid pest, Aphis gossypii (Hemiptera: Aphididae)	Ayoubi, A; Talebi, AA; Fathipour, Y; Mehrabadi, M	INSECT SCIENCE	2020	10.1111/1744-7917.12603
Increased density of endosymbiotic Buchnera related to pesticide resistance in yellow morph of melon aphid	Guo, SK; Gong, YJ; Chen, JC ... Hoffmann, AA; Wei, SJ	JOURNAL OF PEST SCIENCE	2020	10.1007/s10340-020-01248-0
Obligate bacterial endosymbionts limit thermal tolerance of insect host species	Zhang, B; Leonard, SP; Li, YY; Moran, NA	PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA	2019	10.1073/pnas.1915307116
Bacterial communities of Aphis gossypii and Myzus persicae (Hemiptera: Aphididae) from pepper crops (Capsicum sp.)	Gallo-Franco, JJ; Duque-Gamboa, DN; Toro-Perea, N	SCIENTIFIC REPORTS	2019	10.1038/s41598-019-42232-8
Infections with Arsenophonus Facultative Endosymbionts Alter Performance of Aphids (Aphis gossypii) on an Amino-Acid-Deficient Diet	Pan-Pan Tian, Chun-Yan Chang, Ning-Hui Miao, Meng-Yue Li, Xiang-Dong Liu	APPLIED AND ENVIRONMENTAL MICROBIOLOGY	2019	10.1128/AEM.01407-19
Bacterial communities of the cotton aphid Aphis gossypii associated with Bt cotton in northern China	Zhao, Y; Zhang, S; Luo, JY ... Lv, LM; Cui, JJ	SCIENTIFIC REPORTS	2016	10.1038/srep22958
Susceptibility to insecticides in the Q biotype of Bemisia tabaci is correlated with bacterial symbiont densities	Ghanim, M; Kontsedalov, S	PEST MANAGEMENT SCIENCE	2009	10.1002/ps.1795

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