Project description:striped hamster ovary sequencing

Project description:Transcriptional profiling of male Syrian hamster testes, comparing control animals with those that have had a pinealectomy. Keywords: transcriptional profiling

Project description:Transcriptional profiling of male Syrian hamster testes, comparing control animals with those that have had a pinealectomy. Keywords: transcriptional profiling Two-condition experiment, Control vs pinealectomised animals

Project description:The mechanism(s) involved in the regulation of the seasonal-appropriate body weight of the Siberian hamster is currently unknown. We have identified photoperiodically regulated genes including VGF in a sub-region of the arcuate nucleus termed the dorsomedial posterior arcuate (dmpARC). Gene expression changes in this nucleus so far account for a significant number of those reported as photoperiodically regulated and are therefore likely to contribute to seasonal physiological responses of the hamsters. The present study was conducted to identify additional genes expressed in the dmpARC regulated by photoperiod that could be involved in regulating the activity of this nucleus with respect to seasonal physiology of the Siberian hamster. Using laser capture microdissection coupled with a microarray analysis and a candidate gene approach, we have identified in the dmpARC several photoperiodically regulated genes that are known to have roles in secretory and intracellular signaling pathways. These include secretogranin III (SgIII) and SgVI (secretory pathway), melanocortin 3 receptor (MC3-R) and serotonin (5-HT) receptors 2A and 7 (signaling pathway), all of which increase in expression in short photoperiod. The spatial relationship between receptor signaling and potential secretory pathways was investigated by dual in situ hybridization, which revealed that 5-HT2A and 5-HT7 receptors are expressed in neurons expressing VGF mRNA and that a sub-population (approximately 40%) of these neurons express MC3-R. These gene expression changes in dmpARC neurons may reflect the functional requirement of these neurons for seasonal physiology responses of the hamster Samples were taken from 10 individual animals, 5 of which had lived under a short day (SD) photoperiod, the other 5 under a long day (LD) photoperiod. Each hybridisation compared a LD sample (labelled with Cy5) with a SD sample (labelled with Cy3).

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:Small RNA Seq in Drosophila testes

Project description:This data series contains the sequences and read counts of Piwi-interacting RNAs and other small RNAs from mouse and rat testes extracts. In a search for different classes of small RNAs that might be involved in transcriptional gene silencing, we encountered a novel class of small RNAs within mammalian testes. This study reports the identification of small RNAs and their relative abundance levels to each other based on the deep coverage of the cDNA library. Keywords: High-throughput pyrosequencing by the 454 Life Sciences Genome Sequencer 20™ System

Project description:To allow the characterization of the populations of small RNAs in the testes of mutant animal, small-RNA fraction of total testis RNA was isolated and sequenced.

Project description:small RNA-seq of adult mouse testes

Project description:small RNA-seq of P0 mouse testes