Project description:Timely control of parturition is crucial for maternal and fetal health. Failures on this biological process often result in pregnancy complications including preterm birth, labor dystocia, and health disorders on newborn babies. The myometrium is the muscular structure of the uterus maintaining uterine structural integrity and providing contractile force for parturition. The myometrial structure changes in adaptation to the pregnancy via stage-specific transcriptomic profiles. Progesterone signaling plays a crucial role in myometrial remodeling. The present study profiles the transcriptome of human myometrial specimens that are expected to manifest a wide spectrum of progesterone signaling via the RNAseq assay.

Project description:Single cell transcriptome of human myometrial and cervical tissue during pregnancy

Project description:Timely control of parturition is crucial for maternal and fetal health. Failures on this biological process often result in pregnancy complications including preterm birth, labor dystocia, and health disorders on newborn babies. The myometrium is the muscular structure of the uterus maintaining uterine structural integrity and providing contractile force for parturition. The myometrial structure changes in adaptation to the pregnancy via stage-specific transcriptomic profiles. Data from the mouse model indicate that changes of myometrial epigenomic landscape precedes the adoption of stage-specific gene expression pattern at term. The present study documents the chromatin interaction profiles in the term pregnant not in labor human myometrial tissues at a genome-wide scale.

Project description:Timely control of parturition is crucial for maternal and fetal health. Failures on this biological process often result in pregnancy complications including preterm birth, labor dystocia, and health disorders on newborn babies. The myometrium is the muscular structure of the uterus maintaining uterine structural integrity and providing contractile force for parturition. The myometrial structure changes in adaptation to the pregnancy via stage-specific transcriptomic profiles. Data from the mouse model indicate that changes of myometrial epigenomic landscape precedes the adoption of stage-specific gene expression pattern at term. The present study documents the transcriptomic profile and putative enhancer landscape of term pregnant myometrial tissues.

Project description:Gene expression profiling of immortalized human mesenchymal stem cells with hTERT/E6/E7 transfected MSCs. hTERT may change gene expression in MSCs. Goal was to determine the gene expressions of immortalized MSCs.

Project description:Timely control of parturition is crucial for maternal and fetal health. Failures on this biological process often result in pregnancy complications including preterm birth, labor dystocia, and health disorders on newborn babies. The myometrium is the muscular structure of the uterus maintaining uterine structural integrity and providing contractile force for parturition. The myometrial structure changes in adaptation to the pregnancy via stage-specific transcriptomic profiles. Data from the mouse model indicate that changes of myometrial epigenomic landscape precedes the adoption of stage-specific gene expression pattern at term. The present study documents the transcriptomic profile and epigenomic landscape of term pregnant myometrial tissues and functionally characterize a subset of putative enhancers to further understand the enhancer-gene interaction in human the myometrium.

Project description:Timely control of parturition is crucial for maternal and fetal health. Failures on this biological process often result in pregnancy complications including preterm birth, labor dystocia, and health disorders on newborn babies. The myometrium is the muscular structure of the uterus maintaining uterine structural integrity and providing contractile force for parturition. The myometrial structure changes in adaptation to the pregnancy via stage-specific transcriptomic profiles. Data from the mouse model indicate that changes of myometrial epigenomic landscape precedes the adoption of stage-specific gene expression pattern at term. The present study documents the transcriptomic profile and epigenomic landscape of term pregnant myometrial tissues and functionally characterize a subset of putative enhancers to further understand the enhancer-gene interaction in human the myometrium.

Project description:Transcriptional profiling of human mesenchymal stem cells comparing normoxic MSCs cells with hypoxic MSCs cells. Hypoxia may inhibit senescence of MSCs during expansion. Goal was to determine the effects of hypoxia on global MSCs gene expression.

Project description: Not available

Project description:RNA extracted at 240min. Samples are rRNA depleted. Expression measurement of Homo sapiens genes.