Project description:Pulse chase measurements using thiouracil (DTU) labeling via UPRT and chasing with uracil Data from tachyzoites is labeled "DTU Pulse Chase". Two independent pulse chase experiments were performed in tachyzoites, pulse chase 1 and 2. Duplicate arrays at each timepoint were performed for pulse chase 2 (2 a and b). Data from bradyzoites are labeled "DTU Bradyzoite Pulse Chase". Two independent pulse chase experiments were performed in bradyzoites and a single set of arrays were performed for each experiment. Just one chase timepoint was used in the bradyzoite experiments, the 2 hour chase. An RNA stablity experiment design type examines stability and/or decay of RNA transcripts. Keywords: RNA_stability_design

Project description:Pulse chase measurements using thiouracil (DTU) labeling via UPRT and chasing with uracil Data from tachyzoites is labeled "DTU Pulse Chase". Two independent pulse chase experiments were performed in tachyzoites, pulse chase 1 and 2. Duplicate arrays at each timepoint were performed for pulse chase 2 (2 a and b). Data from bradyzoites are labeled "DTU Bradyzoite Pulse Chase". Two independent pulse chase experiments were performed in bradyzoites and a single set of arrays were performed for each experiment. Just one chase timepoint was used in the bradyzoite experiments, the 2 hour chase. An RNA stablity experiment design type examines stability and/or decay of RNA transcripts. User Defined

Project description:Homeostatic hematopoietice stem cells (HSCs) with greater divisional history lose repopulating potential after very few cell divisions. Divisional history overrides both phenotype and immediate quiescence in determining functional activity. In GFP label retaining system GFP is progressively diluted when cells proceed through a cascade of divisions. We used a GFP label retaining system and performed microarray expression analyses to track the changes in the gene expression profile of bone marrow (BM) LSK cells that relates to divisional history during homeostasis. Chromatins are dynamically labeled in a double transgenic mouse (huCD34-tTA X Tet-O-H2B-GFP) by the expression of GFP tagged Histone2B. The expression is driven by a human CD34 promoter active specifically in all bone marrow (BM) hematopoietic stem and multi-potent progenitor cells. This is a pulse/chase Tet-off system where cells constantly label with GFP. Upon administration of Doxycyclin (Dox) to GFP labeled animals, further labeling is stopped during the chase period. With each round of cell division, the newly synthesized endogenous H2B will dilute H2B-GFP by one-half, whereas cells that don’t divide will retain GFP labeling. Therefore, the level of GFP reflects how many times cells have divided over the period of Dox treatment (chase). Animals were treated with Dox for 12 weeks starting at the age of 6-8 weeks. After chase, BM Lineage negative, Sca1+, Kit+ (LSK) cells with varying GFP levels were sorted for mRNA extraction. GFP levels were ranked from 0 to 4 based on the kinetic analysis of GFP fully labeled LSK cells and obvious peaks in the GFP histogram of LSK cells after Dox treatment. There is approximately 1-2 cell divisions between each level of GFP.

Project description:Pulse chase measurements using thiouracil (DTU) labeling via UPRT and chasing with uracil Data from tachyzoites is labeled "DTU Pulse Chase". Two independent pulse chase experiments were performed in tachyzoites, pulse chase 1 and 2. Duplicate arrays at each timepoint were performed for pulse chase 2 (2 a and b). Data from bradyzoites are labeled "DTU Bradyzoite Pulse Chase". Two independent pulse chase experiments were performed in bradyzoites and a single set of arrays were performed for each experiment. Just one chase timepoint was used in the bradyzoite experiments, the 2 hour chase.

Project description:Thiouracil Pulse-chase, Tachyzoites and Bradyzoites mRNA stability data

Project description:whole embryo (all tissues) measurement of mRNA decay by 4-thiouridine pulse-chase These TU-Decay microarrays analyze mRNA levels at three timepoints: a one hour pulse, one hour chase, and three hour chase. Measurements with or without transcription inhibition by actinomycin D (ActD) were compared.

Project description:whole embryo (all tissues) measurement of mRNA decay by 4-thiouridine pulse-chase

Project description:A Brunello CRISPR-Cas9 library screen was performed with OVCAR3 and CCL218 cells in the presence or absence of hydroxychloroquine. Drug pulse chases were used, with 48h of drug exposure followed by replacement of fresh media. Cells were allowed to grow to near confluence and then another drug pulse-chase was performed. After each pulse-chase, a pool of cells were collected for sgRNA quantitation. Three pulse chases were performed. Cell pellets were processed for genomic DNA and sgRNA sequences amplified by PCR for NGS-based quantitation. Once quantified by NGS analysis, MAGeCK MLE analysis was performed to determine which sgRNAs were most associated with resistance or sensitization to hydroxychloroquine.

Project description:Pulse-chase experiment using SLAM-seq in WT, PHF3KO, and dSPOC, HEK293 cells

Project description:Using a combination of GFP-trap affinity purification, native gel band identification and APEX2-mediated BioID pulse-chase analysis, we investigate an import pathway and folding mechanism for histones H3 and H4. We investigated proteins associating with H3 and H4 bearing mutations along alpha-helix 2 using affinity-capture followed by on-beads trypsin digestion and label-free mass spectrometry. In addition, we investigated the composition subcomplexes of affinity-purified histone chaperone NASP separated by native-PAGE, followed by in-gel trypsin digestion and label-free mass spectrometry. Finally, we investigated the proximity in vivo to histone H3 construct under a pulse-chase system (RAPID-release) using two different time points for APEX2-based biotin-phenol biotinylation, 0 minutes and 120 minutes. Samples were quenched and streptavidin-purified, followed by on-beads digestion and label-free mass spectrometry.