1,362 results found
    1. Chromosomes and Gene Expression

    Two roles for the yeast transcription coactivator SAGA and a set of genes redundantly regulated by TFIID and SAGA

    Rafal Donczew et al.
    The transcription coactivators SAGA and TFIID have redundant function at a subset of yeast genes while SAGA also contributes to transcription of all genes through regulation of chromatin modifications.
    1. Structural Biology and Molecular Biophysics
    2. Chromosomes and Gene Expression

    Cryo-EM structure of the SAGA and NuA4 coactivator subunit Tra1 at 3.7 angstrom resolution

    Luis Miguel Díaz-Santín et al.
    An atomic model of the 3744-residue Tra1 protein reveals multiple transcription activator binding sites, its integration within the SAGA chromatin coactivator complex, and a striking similarity to DNA-repair factor DNA-PKcs.
    1. Evolutionary Biology
    2. Microbiology and Infectious Disease

    Evolution of reduced co-activator dependence led to target expansion of a starvation response pathway

    Bin Z He et al.
    The phosphate starvation response network in a commensal yeast evolved to expand its downstream targets via changes in the main transcription factor's dependence on its co-activator, potentially altering the physiological response.
    1. Biochemistry and Chemical Biology
    2. Stem Cells and Regenerative Medicine

    The dyskerin ribonucleoprotein complex as an OCT4/SOX2 coactivator in embryonic stem cells

    Yick W Fong et al.
    A previously unrecognized transcriptional coactivator function of the dyskerin ribonucleoprotein complex and its associated small nucleolar RNA has been uncovered and mediates embryonic stem cell-specific transcription.
    1. Biochemistry and Chemical Biology
    2. Structural Biology and Molecular Biophysics

    Molecular basis for activation of lecithin:cholesterol acyltransferase by a compound that increases HDL cholesterol

    Kelly A Manthei et al.
    Structure of lecithin:cholesterol acyltransferase with a covalent acyl-intermediate mimic and a small molecule activator reveals an active conformation and that the enzyme can be activated via its membrane binding domain.
    1. Biochemistry and Chemical Biology
    2. Structural Biology and Molecular Biophysics

    Functional instability allows access to DNA in longer transcription Activator-Like effector (TALE) arrays

    Kathryn Geiger-Schuller et al.
    Single molecule DNA-binding trajectories and deterministic modeling analyses demonstrate a functional role for high energy partly folded states in Transcription Activator-Like Effectors that could improve future TALEN design.
    1. Structural Biology and Molecular Biophysics
    2. Cell Biology

    Structures of TorsinA and its disease-mutant complexed with an activator reveal the molecular basis for primary dystonia

    F Esra Demircioglu et al.
    High resolution structures of the essential human AAA+ ATPase TorsinA and its disease mutant in complex with an activator reveal details of the interaction that will guide drug design and further functional characterization.
    1. Plant Biology

    Accurate timekeeping is controlled by a cycling activator in Arabidopsis

    Polly Yingshan Hsu et al.
    The circadian clock in the model plant organism Arabidopsis thaliana is best described as a highly connected network made up of clock-regulated activators and repressors of transcription, rather than two coupled, repressor-based feedback loops.
    1. Biochemistry and Chemical Biology
    2. Neuroscience

    eIF2B activator prevents neurological defects caused by a chronic integrated stress response

    Yao Liang Wong et al.
    Boosting the function of translation factor eIF2B by chronic small molecule administration prevents pathology in a neurodegenerative model of Vanishing White Matter disease characterized by a maladaptive stress response.
    1. Plant Biology

    Dynamic ubiquitination determines transcriptional activity of the plant immune coactivator NPR1

    Michael J Skelly et al.
    Expression of plant immune genes is controlled by the opposing actions of ubiquitin ligases and deubiquitinases that modify the master coactivator NPR1, thereby regulating its intrinsic transcriptional activity.

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