Project description:Ossification of the ligamentum flava (OLF) is a common spinal disorder among the elderly that causes myelopathy and radiculopathy. Although studies have identified several genes that correlated with OLF, the underlying regulation network is far from clear. To identify transcriptional regulators for OLF, we compared the microRNA expression of the ligamentum flava tissues from OLF patients and healthy volunteers through microRNA sequencing.
Project description:Ossification of the ligamentum flava (OLF) is a common spinal disorder among the elderly that causes myelopathy and radiculopathy. Although studies have identified several genes that correlated with OLF, the underlying regulation network is far from clear. To identify transcriptional regulators for OLF, we compared the circRNAs expression of the ligamentum flava tissues from OLF patients and healthy volunteers through microarray analysis, which revealed a panel of circRNAs that were specifically regulated in ligament tissues of human undergoing ossification. To identify transcriptional regulators for OLF, we compared the circRNAs expression of the ligamentum flava tissues from OLF patients and healthy volunteers through microarray analysis.
Project description:Ossification of the ligamentum flava (OLF) is a common spinal disorder among the elderly that causes myelopathy and radiculopathy. Although studies have identified several genes that correlated with OLF, the underlying regulation network is far from clear. To identify transcriptional regulators for OLF, we compared the lncRNAs and mRNAs expression of the ligamentum flava tissues from OLF patients and healthy volunteers through microarray analysis, which revealed a panel of lncRNAs and mRNAs that were specifically regulated in ligament tissues of human undergoing ossification. To identify transcriptional regulators for OLF, we compared the lncRNAs and mRNAs expression of the ligamentum flava tissues from OLF patients and healthy volunteers through microarray analysis.
Project description:Microarray-based gene expression analysis identified microRNAs and mRNAs differentially expressed in 5 glioblastoma spheroid cultures upon ATRA treatment. In this study, a set of 5 glioblastoma spheroid cultures was used to acquire microRNA expression profiles, leading to the identification of differentially expressed microRNAs between untreated and ATRA-treated cultures. In this study, a set of 5 glioblastoma spheroid cultures was used to acquire expression profiles of a total of 16,651 transcripts, leading to the identification of differentially expressed genes between untreated and ATRA-treated cultures by Significance Analysis of Microarray data.