Project description:To investigate the effect of TUC-seq versus SLAM-seq on quantification bias in nucleotide conversion RNA-seq, we performed SLAM-seq and TUC-seq on NIH cells. We then measured 4sU dropout in 4sU samples compared to 4sU naive samples.
Project description:Here, we present a Small RNA-Seq dataset of isolated mouse hematopoietic stem cells (HSC LSK slam; Lineage- Sca-1+ c-Kit+ CD150+CD48-) of Meg3 KO (induced MxCre Meg3mat flox/pat wt) and control (induced MxCre) cells
Project description:The mRNA m6A reader YTHDF2 is overexpressed in a broad spectrum of human acute myeloid leukemias (AML). To study the role of YTHDF2 on mRNA decay rates in leukemia, c-Kit+ cells from foetal livers of Ythdf2fl/fl; Vav-iCre (Ythdf2CKO) and Ythdf2fl/fl (Ythdf2CTL) 14.5 dpc embryos were transduced with Meis1 and Hoxa9 oncogenes and serially re-plated to generate pre-leukemic cells. Medium with 4SU was used for pre-leukemic cells labelling for 12 hours and was later replaced with 4SU-free medium (time 0). Cells were collected immediately after medium change and at 1, 3 and 9 hours for library generation. RNA from Ythdf2CKO (n=3 biological replicates) and Ythdf2CTL (n=3 biological replicates) pre-leukemic cells were used for SLAM-seq library generation.
Project description:Differentiation trajectories and cellular plasticity in CRC were assessed using single-cell SLAM seq on patient-derived organoids. Organoids were perturbed in MAPK and WNT signalling.
Project description:Tight control of gene expression networks involved in adipose tissue formation and plasticity is required to adapt to energy needs and environmental cues. However, little is known about the mechanisms that orchestrate the dramatic transcriptional changes leading to adipocyte differentiation. We investigated the regulation of nascent transcription by SUMO during adipocyte differentiation using SLAMseq and ChIPseq. We discovered that SUMO has a dual function in differentiation; it supports the initial downregulation of pre-adipocyte-specific genes, while it promotes the establishment of the mature adipocyte transcriptional program. By characterizing sumoylome dynamics in differentiating adipocytes by mass spectrometry, we found that sumoylation of chromatin modifiers and specific transcription factors like PPARg/RXR promotes the transcription of adipogenic genes. Our data demonstrate that the sumoylation pathway coordinates the rewiring of transcriptional networks required for formation of functional adipocytes.