Project description:Teleogryllus oceanicus (black field cricket), genomic and transcriptomic data

Project description:In Hawaii, a rapidly-evolving mutation in the field cricket Teleogryllus oceanicus silences males by interfering with the development of sound-producing structures on their forewings. The mutation is called flatwing (fw), and it persists because of natural selection imposed by an acoustically-orienting parasitoid. We examined gene expression differences between wild-type and mutant crickets, focusing on juvenile wing buds. We profiled mRNA expression levels using RNA-seq, and characterized the wing bud proteome using quantitative mass spectrometry.

Project description:In Hawaii, a rapidly-evolving mutation in the field cricket Teleogryllus oceanicus silences males by interfering with the development of sound-producing structures on their forewings. The mutation is called flatwing (fw), and it persists because of natural selection imposed by an acoustically-orienting parasitoid. We examined gene expression differences between wild-type and mutant crickets, focusing on juvenile wing buds. We profiled mRNA expression levels using RNA-seq, and characterized the wing bud proteome using quantitative mass spectrometry. Accessing protein expression profiles under the same experimental conditions enabled us to test correspondence between the two ‘omic levels.

Project description:RNA-seq reads from developing wings of the field cricket Teleogryllus oceanicus

Project description:Teleogryllus oceanicus: Competing adaptations in a wild cricket population

Project description:Teleogryllus oceanicus overview

Project description:Effects of genotype and acoustic experience on expression of sensory perception genes in a Hawaiian field cricket (Teleogryllus oceanicus)

Project description:Teleogryllus oceanicus wing bud transcriptome

Project description:Teleogryllus oceanicus: acoustic environment transcriptomics

Project description:Teleogryllus oceanicus Raw sequence reads