Transcription is tightly regulated to ensure genes are appropriately expressed both temporally and spatially. This tight regulation governs various processes within the cell, such as differentiation and cell identity, cellular maintenance, and dynamic responses to external signals. Transcription factors (TFs) coordinate these various gene programs and in particular, are key...
Oocyte meiosis is a specialized, but error prone, form of cell division that is poorly understood. Errors during meiosis often result in aneuploidy, or abnormal chromosome number, that impacts human health and fertility. Aneuploidy is the leading cause of miscarriages and birth defects, such as Down's syndrome in which cells...
Type I interferon (IFN) is the primary antiviral cytokine establishing a broad and potent antiviral response to protect mammalian cells from virus infection. The functional repertoire of IFN extends to innate and adaptive immunity, neoplastic transformation, resistance and cancer immunotherapy. IFN functions are primarily mediated through the Janus kinase (JAK)...
The cellular innate immune response to viruses is a defense mechanism executed by most cells in the human body to form the initial barrier to virus replication. Detection of viral nucleic acids initiates widespread gene expression changes that combine to establish an antiviral state and stimulate professional immune cell activation....
Proper size control of organs and tissues is critical to their function, and it is necessary for the millions of precisely sized tubes that make up those organs— for example, excessive cell growth can lead to devastating diseases such as Polycystic Kidney Disease. The regulation of tube growth is therefore...
Neural crest cells are a population of multipotent stem cells that are unique to vertebrates and give rise to a wide range of derivatives in the developing embryo, including elements of the craniofacial skeleton, pigmentation of the skin and peripheral nervous system. Although these cells reside in the ectoderm, they...
Splicing factor 3B1 (SF3B1) is a core splicing protein that stabilizes the interaction between the U2 snRNA and the branch point (BP) in the RNA target during splicing. SF3B1 is heavily phosphorylated at its N terminus and a substrate of cyclin-dependent kinases (CDKs). Although SF3B1 phosphorylation coincides with splicing catalysis,...
Many transcription factors (TFs) regulate oncogenic processes and are therefore desirable targets for drug intervention. However, few TF inhibitors have been developed to date due to a lack of specificity and few TF binding pockets. The Meade Lab has overcome these challenges by using cobalt-based complexes that disrupt Cys2His2 zinc...
Epigenetics is the study of chromatin-based events that regulate gene expression without the change of DNA sequence, including DNA methylation, histone modification and chromatin remodeling. Epigenetic regulators are encoded to modify chromatin in a highly regulated and dynamic manner. A growing number of studies have suggested the dysregulation of epigenetic...
RNA repair pathways exist in all three domains of life. In eukaryotes, they play key roles in fundamental biological processes such as tRNA splicing and endoplasmic reticulum (ER) stress induced noncanonical splicing of a master transcription factor mRNA (named XBP1 in mammalian cells). Even though most living organisms contain an...