Project description:Since Japanese quail and chicken belong to the same order Galliforms, DNA sequence of both species are highly conserved and proved to be applicable for various analyses each other. Quail are commonly used to address physiological questions for reasons of economy. To test whether chicken microarrays are useful to quail samples, we compared hybridization signals of chicken and quail genomic DNA on Affymetrix chicken genome array. Keywords: comparative genomic hybridization

Project description:Since Japanese quail and chicken belong to the same order Galliforms, DNA sequence of both species are highly conserved and proved to be applicable for various analyses each other. Quail are commonly used to address physiological questions for reasons of economy. To test whether chicken microarrays are useful to quail samples, we compared hybridization signals of chicken and quail genomic DNA on Affymetrix chicken genome array. Experiment Overall Design: Genomic DNA of female chicken and quail were extracted individually from liver of three birds and hybridized on Affymetrix microarrays. Samples were analyzed in triplicate set of array (three biological replicates).

Project description:To understand molecular mechanism of stripe patterning in the embryonic skin of Japanese quail, we compared gene expression profile between black stripe and yelllow stripe by using RNA seq method. Most of differential expression genes were known pigmentation-related genes, but some are unknown role in pigment pattern formation.

Project description:Chicken versus Quail

Project description:In this study, we used RNA-seq to identify differences in gene expression patterns in ovarian follicles of female Japanese quail (Coturnix coturnix japonica) that produce large versus small eggs relative to their body size. A high quality reference genome is currently under construction by the Quail Genome Consortium (BioProject ID: PRJNA292031).

Project description:We used single cell RNAseq to identify the populations and identity of cells present in the japanese quail forebrain during its embryonic stages.

Project description:Newcastle disease (ND) affects a few hundred avian species including chicken, and the clinical outcome of Newcastle disease virus (NDV) infection ranges from mild to severe fatal disease depending on the NDV pathotype and the host species involved. Japanese quails serve as natural reservoirs of NDV and play important role in NDV epidemiology. While infection of chicken with velogenic NDV results in severe often fatal illness, the same infection in Japanese quails is results in in apparent infection. The molecular basis of this contrasting clinical outcomes of NDV infection is not yet known. We compared global gene expression in spleens of chicken and Japanese quails infected with a lentogenic or velogenic NDVs. We found contrasting regulation of key genes associated with NF-κB pathway and T-cell activation between chicken and Japanese quails. Our data suggests association of NDV resistance in Japanese quails to activation of NF-κB pathway and T cell proliferation.

Project description:The aim of this experiment was to test how female Japanese quail respond to being housed with sick (LPS treated) relative to control males. LPS injected females were also tested.

Project description:Seasonal morphological brain plasticity plays a key role in driving adaptive behavioural responses. Structural changes in the brain including the hippocampus and amygdala (nucleus taeniae in birds), across photoperiods are thought to underlie seasonal shifts in emotional state. For humans, this includes manifestations of short photoperiod seasonal affective disorder (SAD). While morphological brain changes are well documented, the associated transcriptomic dynamics remain poorly understood. Here, we examined the transcriptomes of the hippocampus and amygdala or nucleus taeniae in two highly photoperiodic species, the Siberian hamster (Phodopus sungorus) and the Japanese quail (Coturnix japonica), to identify transcriptomic changes underpinning seasonal shifts in emotional state. Hamsters and quail exhibited robust physiological changes between long and short photoperiod treatment. Under short photoperiod, hamsters displayed anxiety-like behaviour (increased grooming) in the open field test, consistent with a SAD-like phenotype. Transcriptomic analysis of the amygdala in hamsters identified 76 significantly differentially expressed (DE) transcripts (including transthyretin, TTR) and prolactin receptor, PRLR as differentially expressed, but not significantly. In the quail nucleus taeniae, we found 54 DE transcripts (including tenascin-C, TNC). In the hamster hippocampus, 14 DE transcripts were found, including mahogunin ring finger-1 (MGRN1), and 31 in the quail hippocampus, including eyes absent-2 (Eya2). These findings provide novel insights into the transcriptomic mechanisms underpinning seasonal affective states and suggest conserved roles for prolactin and thyroid hormone signalling in mediating seasonal changes in physiology and affective behaviour, particularly in the Siberian hamster.

Project description:Japanese quail embryonic skin samples