Project description:We deep sequenced and analyzed miRNAs using deep RNA sequencing (RNA-seq) in cage rearing and traditional breeding duck's duodenum sample of Nonghu NO.2 duck. 21 differentially expressed miRNA were identified in the duodenum. 6 miRNAs were upregulated and 15 were downregulated in the cage rearing duck's duodenum of the Nonghu NO.2 duck compared to their expression in the control group. These findings provided insights into the expression profiles of miRNAs in duck duodenum, and deepened our understanding of miRNAs in oxidative injury of duck.
2023-07-23 | GSE237634 | GEO
Project description:SNPs and INDELs detection in three domestic duck populations
Project description:The quality and yield of duck feathers are very important economic traits that might be controlled by miRNA regulation. The aim of the present study was to investigate the mechanism underlying the crosstalk between individual miRNAs and the activity of signaling pathways that control the growth of duck feathers during different periods.
Project description:The objective of this study is to profile microRNA expressed in embryonic breast muscle of duck, analyze the conservation across multiple species and identify candidate microRNAs associated with duck muscle development. microRNA sequencing analysis was performed using female breast muscle samples at embryonic stage 13th day (E13) and embryonic stage 19th day (E19).
Project description:The objective of this study was to identify candidate circular RNAs associated with duck muscle development. circRNA sequencing analysis was employed using female breast muscle samples embryo stage 13th day (E13) and embryo stage 19th day (E19). RNA-seq data and validation experiment in duck myoblast cells showed that circGAS2-2 significantly differential expressed between E13 and E19 group.
Project description:We deep sequenced and analyzed miRNAs using deep RNA sequencing (RNA-seq) in transported and control duck's duodenum sample of Jingjiang duck. We analyzed the miRNA data with 9467248 reads and 9808143 million reads, obtained 9338224 and 9677777 clean reads in transported and control duck's by high-throughput sequencing, respectively. we respectively gained 4636135 and 4759049 miRNAs sequences in two groups by filtering the known non-miRNA reads, such as rRNA, tRNA, snRNA, and snoRNA by screening against ncRNA deposited in the GenBank and Rfam databases. These findings provided insights into the expression profiles of miRNAs in duck duodenum, and deepened our understanding of miRNAs in transportation injury of duck.
Project description:The reads of duck transcripome was mapped to the duck genome and help to identify the UTR regions of predicted genes. The expression level difference between the tissue spleen and liver will help us to detect the immune-related and fatty acid metabolism related genes. Duck transcriptome was sequenced to improve the gene annotation quality, and to detect the differently expressed genes in liver and spleen tissues.