Project description:tsRNA is newly found small non-coding RNA with important biological function. However, the knowlede of diversity, biogeneis and function of tsRNA in plant is still lacking. Here, we selected 10-60 nt small RNA for high-throughput sequencing and uncovered the diversity,biogenesis and potentical function of tsRNA in Arabidopsis.

Project description:tsRNA is newly found small non-coding RNA with important biological function. However, the knowlede of diversity, biogeneis and function of tsRNA in plant is still lacking. Here, we selected 10-60 nt small RNA for high-throughput sequencing and uncovered the diversity,biogenesis and potentical function of tsRNA in Arabidopsis.

Project description:small RNA sequencing from leaf of Arabidopsis to identify tsRNA

Project description:Small RNA sequences from Arabidopsis lyrata leaves, as isolated from a single sample of rosette leaf tissue. These data were analyzed to 1) examine microRNA processing accuracy in A. lyrata and 2) to examine patterns of 24nt siRNA accumulation in A. lyrata.

Project description:During the senescence stage, leaves undergo degeneration and relocate nutrients accumulated during the growth stage to sink parts such as seeds, critically contributing to plants’ productivity and fitness. Here, we asked how leaf transcriptome is regulated during the senescence stage by performing directional sequencing of total and small RNAs for the entire lifespan of Arabidopsis leaves.

Project description:Arabidopsis thaliana leaf parallel analysis of RNA ends

Project description:To identify and characterize differentially expressed tsRNA, we collected 3 primary tissues and 3 liver metastasis tissues in pancreatic cancer, and compared the tsRNA expression profiles between primary tissues and liver metastasis tissues in pancreatic cancer using tsRNA sequencing.

Project description:During the senescence stage, leaves undergo degeneration and relocate nutrients accumulated during the growth stage to sink parts such as seeds, critically contributing to plants’ productivity and fitness. Here, we asked how leaf transcriptome is regulated during the senescence stage by performing directional sequencing of total and small RNAs for the entire lifespan of Arabidopsis leaves. The total RNA and small RNA profiles of the Arabidopsis leaf along lifespan (14 and 7 time points, respectively) were generated by next-generation sequencing using Illumina Hiseq2000. Two independent biological replicates were used for each experiment.

Project description:Chronic obstructive pulmonary disease (COPD) is characterized by lung parenchymal destruction and small airway remodeling, involving processes like inflammation, cell apoptosis, epithelial-mesenchymal transition (EMT), and collagen deposition. There are currently no targeted drugs for airway remodeling. Bone marrow mesenchymal stem cells (BMSCs) show promise in COPD treatment, yet their impact on airway remodeling and underlying mechanisms remain elusive. Transfer RNA-derived small RNAs (tsRNAs) are non-coding RNAs implicated in disease regulation, but their role in COPD and their modulation by BMSCs remain unexplored. Our study assessed BMSC effects on airway remodeling in a COPD mouse model and constructed tsRNA and mRNA expression profiles. Based on the differentially expressed tsRNA-mRNA target pairs identified by tsRNA and mRNA sequencing, we constructed a tsRNA regulatory network linked to COPD airway remoding. The modulation of tsRNA by MSCs may represent one of the pathways through which they ameliorate COPD airway remodeling. Our research will enrich the understanding of BMSC therapy for COPD and provide greater insight into the molecular mechanisms underlying the progression and treatment of airway remodeling.

Project description:Small RNA sequences from Arabidopsis lyrata leaves, as isolated from a single sample of rosette leaf tissue. These data were analyzed to 1) examine microRNA processing accuracy in A. lyrata and 2) to examine patterns of 24nt siRNA accumulation in A. lyrata. A single small RNA library from rosette leaf tissue was analyzed using an Illumina Genome Analyzer.