3,304 results found
    1. Neuroscience

    Cold-inducible RNA-binding protein (CIRBP) adjusts clock-gene expression and REM-sleep recovery following sleep deprivation

    Marieke MB Hoekstra et al.
    The temperature-sensitive protein CIRBP contributes to the effect of sleep loss on the molecular circadian clock.
    1. Genetics and Genomics
    2. Neuroscience

    Temporal transcriptomics suggest that twin-peaking genes reset the clock

    William G Pembroke et al.
    RNA sequencing reveals the finer details of circadian variation in the mammalian master pacemaker over 24 hours, which suggests that transcriptional timing influences clock resetting mechanisms.
    1. Cell Biology
    2. Immunology and Inflammation

    Neutrophil infiltration regulates clock-gene expression to organize daily hepatic metabolism

    María Crespo et al.
    Circadian neutrophil infiltration in the liver modulates liver clock-gene expression and daily hepatic metabolism through the secretion of elastase and activation of JNK-FGF21-Bmal1 axis in the hepatocyte.
    1. Genetics and Genomics
    2. Neuroscience

    Usf1, a suppressor of the circadian Clock mutant, reveals the nature of the DNA-binding of the CLOCK:BMAL1 complex in mice

    Kazuhiro Shimomura et al.
    A gene that codes for a transcription factor that is involved in lipid and carbohydrate metabolism also has a role in the regulation of circadian rhythms.
    1. Genetics and Genomics
    2. Neuroscience

    Neural clocks and Neuropeptide F/Y regulate circadian gene expression in a peripheral metabolic tissue

    Renske Erion et al.
    Neuropeptide F/Y from neurons drives rhythmic expression of detoxification-related genes in a peripheral metabolic tissue in flies and mice.
    1. Cell Biology
    2. Chromosomes and Gene Expression

    MYOD1 functions as a clock amplifier as well as a critical co-factor for downstream circadian gene expression in muscle

    Brian A Hodge et al.
    The myogenic lineage transcription factor, MYOD1, amplifies and works with the core clock factors to support a daily muscle gene expression program.
    1. Biochemistry and Chemical Biology
    2. Cell Biology

    Oxyntomodulin regulates resetting of the liver circadian clock by food

    Dominic Landgraf et al.
    The gut-released peptide oxyntomodulin mediates the alignment of liver clock gene and metabolic transcript rhythms with the timing of food intake by postprandial induction of hepatic Per gene expression.
    1. Computational and Systems Biology
    2. Plant Biology

    Coordination of robust single cell rhythms in the Arabidopsis circadian clock via spatial waves of gene expression

    Peter D Gould et al.
    Single cell analysis reveals how period differences between cells and cell-to-cell coupling generates the spatial structure of the plant circadian clock.
    1. Computational and Systems Biology
    2. Physics of Living Systems

    Persistence, period and precision of autonomous cellular oscillators from the zebrafish segmentation clock

    Alexis B Webb et al.
    Time-lapse recording and theoretical analysis of individual cells isolated from the zebrafish segmentation clock reveal that they behave as self-sustained, autonomous oscillators with distinctive noisy dynamics.
    1. Computational and Systems Biology
    2. Developmental Biology

    A balance of positive and negative regulators determines the pace of the segmentation clock

    Guy Wiedermann et al.
    Computational modelling together with experimental manipulation indicate that the stability and turnover of activated Notch is inextricably linked to the regulation of the pace of segmentation clock gene expression in the presomitic mesoderm.

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