Project description:Morus alba L. Raw protein sequence reads and sequence

Project description:Species identification of fragmentary bones remains a challenging task in archeology and forensics. A species identification method for such fragmentary bones that has recently attracted interest is the use of bone collagen proteins. We developed a method similar to DNA barcoding that reads collagen protein sequences in bone and automatically determines the species by performing sequence database searches. We tested our method using bone samples from 30 vertebrate species ranging from mammals to fish.

Project description:Purpose: The goal of this study was to compare the microRNA transcriptomes of four high-altitude vertebrates and their low-altitude relatives for six organs (heart,liver,spleen,lung,kidney and muscle). Methods: Three adult females for each population of the five species from distinct altitudes (600 m, 2000 m, and 3000 m) were humanely killed to ameliorate suffering. A piece of tissue fragments from six organs including heart, liver, spleen, lung, kidney and skeletal muscle(longissimus muscle for pig, cattle, yak and sheep, and pectoral muscle for chicken) were used to extract total RNA. Small RNA libraries were constructed using the Illumina TruSeq Small RNA Sample Prep kit and sequenced on the Illumina HiSeq 2500. The raw data were submitted to miRDeep2.0 to detect miRNAs for each species with default parameters. Results: we detected 2,036 mature miRNAs in five species and identified 49 orthologues among vertebrate, 111 orthologues in artiodactyla and 171 orthologues in ruminant . Conclusions: We identified comparable numbers of miRNAs in each species.

Project description:Purpose: The goal of this study is to compare endothelial small RNA transcriptome to identify the target of OASL under basal or stimulated conditions by utilizing miRNA-seq. Methods: Endothelial miRNA profilies of siCTL or siOASL transfected HUVECs were generated by illumina sequencing method, in duplicate. After sequencing, the raw sequence reads are filtered based on quality. The adapter sequences are also trimmed off the raw sequence reads. rRNA removed reads are sequentially aligned to reference genome (GRCh38) and miRNA prediction is performed by miRDeep2. Results: We identified known miRNA in species (miRDeep2) in the HUVECs transfected with siCTL or siOASL. The expression profile of mature miRNA is used to analyze differentially expressed miRNA(DE miRNA). Conclusions: Our study represents the first analysis of endothelial miRNA profiles affected by OASL knockdown with biologic replicates.

Project description:Five-vertebrate ChIP-seq reveals the evolutionary dynamics of trancription factor binding. The SRF files for this experiment can be found in the European Read Archive with study accession number ERP000054. The fastq files can be found in the raw archives and for some assays links to the ENA runs and ENA fastq files are provided.

Project description:Resident and blood-derived microglia from vertebrate central nervous system

Project description:Purpose: Since Nlrc3 signaling is imperative for HSPCs production in zebrafish, to further determine the regulatory mechanism by which nlrc3 signaling regulates HSPCs. Bulk RNA sequencing analysis is performed to dissect the function and molecular mechanism between the control groups and the nlrc3 morphants groups. Methods: The GFP+ cells in Tg(fli1a:eGFP) zebrafish embryos at 28 hpf were sorted, which is the stage that EHT occurs in the VDA and the site of hemogenic endothelial cells onset. The mRNA profiles of these cells in wild-type (WT) and Nlrc3 knockdown were deep sequencing, in triplicate, using Illumina GAIIx. The sequence reads that passed quality filters were analyzed at the transcript isoform level with two methods: Burrows–Wheeler Aligner (BWA) followed by ANOVA (ANOVA) and TopHat followed by Cufflinks. qRT–PCR validation was performed using TaqMan and SYBR Green assays. Results: Using an optimized data analysis workflow, we mapped about 35 million sequence reads per sample and identified 4153 transcripts showing differential expression between the of WT and Nlrc3 morphants, with a fold change ≥1.5 and p value <0.05. Based on the results of RNA seq, some signaling pathways essential for the the Nlrc3 regulates the onset of HSPCs in vertebrate are dissected. Including Notch, WNT, NF-kB. Conclusions: Hemogenic endothelial cells mRNA profiles of WT groups and Nlrc3 knockdown groups were deep sequenced and anlysis. Based on the results of RNA seq, we performed experiments to validate the up and downstream pathway involved in the the Nlrc3 regulates the onset of HSCPs in vertebrate.

Project description:Cytosine DNA methylation is a heritable epigenetic mark present in most eukaryotic groups. While the patterns and functions of DNA methylation have been extensively studied in mouse and human, their conservation in other vertebrates remain poorly explored. In this study, we interrogated the distribution and function of DNA methylation in primary cells of seven vertebrate species including bio-medical models and key livestock species.

Project description:The storage of lipids as energy in adipose tissue (AT) has been conserved over the course of evolution. However, substantial differences in ATs physiological activities were reported between species. Hence, establishing the mechanisms shaping evolutionarily divergence in ATs transcriptomes could provide a deeper understanding of AT regulation and its roles in obesity-related diseases. While previous studies performed anatomical, physiological and morphological comparisons between ATs across different species, little is currently understood at the molecular phenotypic levels. Here, we characterized transcriptional and lipidomic profiles of available subcutaneous and visceral ATs samples across 15 vertebrate species, spanning more than 300 million years of evolution, including placental mammals, birds and reptiles. We provide detailed descriptions of the datasets produced in this study and report gene expression and lipid profiles across samples. These resources should provide researchers could insights into the molecular and evolutionary mechanisms underlying functional differences between ATs in vertebrate species.

Project description:Australian vertebrate transcriptomes, raw sequence reads