Project description:transcriptome data for Lohmann chicken

Project description:transcriptome data for chicken embryonic

Project description:transcriptome data for black-bone chicken

Project description:transcriptome data for Youxin Ma chicken

Project description:Chicken primordial germ cells (PGCs) have an epigenetic signature which differs from the one that mammalian PGCs acquire with their epigenome reprogramming during early embryonic development. In particular, chicken PGCs display a high global amount of histone H3 lysine 9 trimethylation (H3K9me3) compared to somatic cell types. We performed the genome-wide profiling of H3K9me3 and the transcriptome analysis on chicken PGCs compared to embryonic stem cells (ESCs) as a closely related, non germinal cell type.

Project description:Deep sequencing as a high-throughput technology has been widely used in the transcriptome profiling in mammals. In the present study, we aimed to identify chicken lncRNAs ranging from 300-1600 nt long. Total RNAs from chicken skeletal muscle at the embryonic stage were fractionated by 6% urea PAGE. Selected RNA fractions (300-1600 nt) were sequenced by Solexa technology.

Project description:We report the genome-wide DNA methylation mapping of chicken by methylated DNA immunoprecipitation following by highthroughput sequencing, and the gene expression profile of chicken by RNA-seq. For meDIP-seq, about 17,202,074 to 27,501,760 reads were generated for the tissue and liver tissues of the red jungle fowl and the avian broiler each. We found that compared with the red jungle fowl, DNA methylation in muscle tissue of the avian broiler, showed dramatically decline on a genome-wide scale. Furthermore, the length of the highly methylated regions (HMRs) has become shorter in the avian broiler, which has suffered intense artificial selection. In addition to the global changes in DNA methylation, transcriptome-wide analysis of the two breeds of chicken revealed that the patterns of gene expression in the domestic chicken have undergone a specific bias towards a pattern that is more suited to human-made environments with variable expression in certain gene functions, such as immune response and fatty acid metabolism. Our results demonstrated a potential role of epigenetic modification in animal domestication besides the genetic variations. Examination of whole genome DNA methylation status in liver and muscle of two chicken breeds.

Project description:To investigate the genome-wide DNA binding of chicken p53, we overexpressed chicken p53 with a flag in LMH cells. We then performed genome-wide DNA binding analysis using data obtained from ChIP-seq of LMH cells.

Project description:Dongxiang blue-shelled chicken, an indigenous chicken breed in China, has segregated significantly for the dermal hyperpigmentation phenotype. Two lines of the chicken have been divergently selected with respect to comb color for over 20 generations. The recent selection has also resulted in a significant difference in egg production. The red comb line (RCL) chicken produces significantly higher number of eggs than that by the dark comb line (DCL) chicken. The objective of this study was to explore potential mechanisms involved in the relationship between comb color and egg production among chickens. We performed genome-wide association study to identify candidate genes associated with chicken comb color using SNP array data, and we conducted selective sweep analysis to identify putative regions of selection harboring pleiotropic genes affecting both comb color and egg production.

Project description:Copy number variation profiles comparing control female Dehong chiken blood DNA with 11 different chicken breeds(Silkie, Tibetan Chicken, Gallus gallus spadiceus, Bearded Chicken, Jinhu Chicken, Anak Chicken, Beijing Fatty Chicken, Langshan Chicken, Qingyuan partridge Chicken, Shek-Ki Chicken, Wenchang Chicken) blood DNA. Each test breeds had one male and one female sample, totally 22 test DNA samples.Goal is to get the golbal copy number variation profile between chicken breeds.