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.
Project description:Purpose:In order to assess the respiratory toxicity of co-infection in chicken lung, we established a co-infection model to investigate transcriptome profiles of chicken lung. Methods: RNA extracted by Trizol reagent (Invitrogen) was utilized to construct the final library (BGISEQ-500 RNA-Seq Library) based on the manufacturer’s instructions. Library was validated on the Agilent Technologies 2100 bioanalyzer. The library was amplified with phi29 to make DNA nanoball (DNB) which had more than 300 copies of one molecule. The DNBs were load into the patterned nanoarray and single end 50 bases reads were generated in the way of sequenced by synthesis. Whole transcriptome sequencing data was filtered and mapped to Chicken genome (Gallus genome Version 5.0.1 NCBI). DEG-seq method was based on Poisson distribution (Fold Change > 2 and Adjusted P value < 0.001) Results: Sampling directly from the lung yielded sufficient quantities of RNA to assess transcripts from each chicken and mapped to 18,043 Gallus gallus genes. Conclusions: We used the method of RNA-seq to find the target genes and related signaling pathways involved in the co-infection (MG and E.coli) and their underlying mechanisms.
Project description:Ribosome profiling (Ribo-Seq) (maps positions of translating ribosomes on the transcriptome) and RNA-Seq (quantifies the transcriptome) analysis of chicken (Gallus gallus) cells infected with Infectious Bronchitis Virus (IBV) strains Beaudette and M41.
Project description:We report the transcriptomes of 10 different chicken (Gallus gallus) cell/tissue types. The goal of this project was to determine similarities and differences between different cell/tissue types, with respect to protein coding genes, lncRNA, isoform counts, and differential gene expression. We provide raw data and bigWig files for UCSC visualization. The findings described here will be useful towards a complete annotation of chicken tissue and cellular transcriptomes.
Project description:DNA was isolated from whole red blood cells from various lines and crosses of broiler chickens. DNA was genotyped using Axiom genome-wide chicken array and cel files were analyzed using Axiom Analysis Suite Software (version 3.0.1) with Gallus gallus 5.0 using the software's Best Practices for agricultural animals. The results were exported (Genotyping_Data-3-21-2018.vcf) for all genotype calls and text file of all SNPs with >= 97% call rate rate was also produced for filtering the VCF file (ALL_SNPSs_with_Call_Rate_97_Plus_3-21-2018).
Project description:MicroRNA (miRNA) is a family of small regulatory RNA that post-transcriptionally regulates many biological functions including growth and development. Chicken miR-143 and miR-10a are expressed in both the embryonic and post-hatch chick in a spatio-temporal manner. In order to study the functions of these miRNAs, loss of function and microarray approaches were employed. Spleen cells were isolated from embryonic day 18 chickens and immediately transfected with either a synthetic miR-143 inhibitor or a synthetic miR-10a inhibitor or a negative control oligo-nucleotide (Dharmacon). Cultures were maintained for 48 hrs and microarray analysis was performed using the Arizona Gallus gallus 20.7K long oligoarray (GPL6049). Differentially expressed genes were identified for each miRNA by comparing the miRNA knock-down group to the negative control group. The differentially expressed genes were functionally categorized using the DAVID Functional Annotation Tool (http://david.abcc.ncifcrf.gov/). The 3’-UTR of the up-regulated genes (de-repressed after the miRNAs knock-down) were scanned for potential miR-143 or miR-10a binding sites using the miRanda algorithm version 3.1 (http://www.microrna.org/microrna). In addition, the Chicken (Gallus gallus) Unigene database (NCBI) was also used to predict potential targets of these miRNAs. A set of predicted targets for both miRNAs was selected and validated by dual luciferase reporter gene assay. Overall, many of the identified targets for miR-143 are associated with cell proliferation, tumerigenesis and apoptosis. Many of potential targets for miR-10a are associated with immune response.
Project description:We present the first Hi-C map of non-mammalian vertebrate, Gallus gallus (domestic chicken). We show the presence of TADs in chicken embryonic fibroblast genome, distributed in accordance with gene density, transcriptional activity, and CTCF binding sites localization. In contrast to mammals, where all examined cell types display relatively similar chromatin architecture profile, in mature and immature chicken erythrocytes we identify unique chromatin spatial organization strongly differed from fibroblasts. Comparing mammalian and chicken genome architectures, we provide evidence highlighting evolutionary role of spatial organization and their significance in genome activity and regulation.