Project description:An orchestrated intron retention program in meiosis controls timely usage of transcripts during germ cell differentiation (RNA-Seq)
Project description:The transcription factor ThPOK (encoded by Zbtb7b) is well known for its role as a master regulator of CD4 lineage commitment in the thymus. Here, we report a novel role for ThPOK as a critical and multifaceted regulator of myeloid lineage commitment, differentiation and maturation. Using reporter and knockout mouse models combined with CITE-Seq, Smart-Seq2, progenitor transfer and clonogenic assays and we show that ThPOK controls monocyte-DC versus granulocyte lineage production during homeostatic differentiation, and serves as a brake for neutrophil maturation in granulocyte lineage-specified cells through transcriptional regulation of lineage-specific transcription factors and RNA via altered mRNA splicing to reprogram intron retention.
Project description:The transcription factor ThPOK (encoded by Zbtb7b) is well known for its role as a master regulator of CD4 lineage commitment in the thymus. Here, we report a novel role for ThPOK as a critical and multifaceted regulator of myeloid lineage commitment, differentiation and maturation. Using reporter and knockout mouse models combined with CITE-Seq, Smart-Seq2, progenitor transfer and clonogenic assays and we show that ThPOK controls monocyte-DC versus granulocyte lineage production during homeostatic differentiation, and serves as a brake for neutrophil maturation in granulocyte lineage-specified cells through transcriptional regulation of lineage-specific transcription factors and RNA via altered mRNA splicing to reprogram intron retention.
Project description:Gene expression profiles of 10 uterine leiomyomas and their matched normal myometrium specimens were studied using Affymetrix GeneChip Human Genome U133 Plus 2.0 gene expression arrays. Four tumors displayed a codon 44 mutation, four carried a intron 1 mutation, and the remaining two displayed no MED12 mutation.