Project description:Deep sequencing of mRNA from the rock pigeon Analysis of ploy(A)+ RNA of different specimens: heart and liver from the rock pigeon (Danish Tumbler, Oriental Frill and Racing)
Project description:A comparative profile of miRNAs in livers during pigeon development was performed by using high-throughput sequencing. We identified known pigeon miRNAs, novel miRNAs, and miRNAs that are conserved in other birds and mammals.Our results expanded the repertoire of pigeon miRNAs and may be of help in better understanding the mechanism of squab’s rapid development from the perspective of liver development.
Project description:A comparative profile of miRNAs in pectoral muscle during pigeon development was performed by using high-throughput sequencing. We identified known pigeon miRNAs, novel miRNAs, and miRNAs that are conserved in other birds and mammals.Our results expanded the repertoire of pigeon miRNAs and may be of help in better understanding the mechanism of squab’s rapid development.
Project description:A comparative profile of miRNAs in pre- and post-differentiated pigeon SMSCs (SMSC-1d and SMSC-5d) was performed by using high-throughput sequencing. We identified known porcine miRNAs, novel miRNAs, and miRNAs that are conserved in other birds and mammals. Our findings demonstrated that miRNAs are extensively involved in the differentiation of SMSCs in pigeons, and provide a valuable resource for the pigeon breeding.
Project description:Hence, in order to investigate the gene expression profiles of skeletal muscle, we analyzed the four stages (1 day, 14 days, 28 days, and 2 years old) of breast muscle in White-King pigeon using transcriptome sequencing.
Project description:Oncogenic extrachromosomal DNAs (ecDNA) are common in cancers, but many questions about their origin, structural dynamics and impact on intratumor heterogeneity are still unresolved. Here we describe scEC&T-seq, a method for parallel isolation and sequencing of extrachromosomal circular DNAs and full-length mRNA from single human cells. By applying scEC&T-seq to cancer cells, we not only describe intercellular differences in ecDNA content, but also investigate their structural heterogeneity and transcriptional impact. We reveal that whereas oncogene-containing ecDNA elements are clonally present in cancer cells and drive intercellular oncogene expression differences, other small circular DNAs also captured by scEC&T-seq are mostly private to individual cancer cells, indicating differences in selection and propagation. Moreover, scEC&T-seq uncovers intercellular differences in ecDNA structure, which allowed the inference of ecDNA structural dynamics and point to circular recombination as a potential mechanism of ecDNA evolution. We envision that our method may enable the analysis of yet unknown prerequisites for the maintenance of both small and large circular DNA in cancers, but also in the context of other diseases and normal cellular development.
Project description:We identified 13,072 mRNAs and 19,129 lncRNAs, of which 2,977 mRNAs and 1,527 lncRNAs were differential expressed in pigeon BFs over three developmental stages.