Biochemistry
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Review
Oxidation-reduction cycles of peroxiredoxin proteins and nontranscriptional aspects of timekeeping.
The circadian clock allows organisms to accurately predict the earth's rotation and modify their behavior as a result. Genetic analyses in a variety of organisms have defined a mechanism based largely on gene expression feedback loops. However, as we delve more deeply into the mechanisms of circadian timekeeping, we are discovering that post-translational mechanisms play a key role in defining the character of the clock. ⋯ A robust circadian oscillation in the redox status of the peroxiredoxins (a major class of cellular antioxidants) was recently shown to be remarkably conserved from archaea and cyanobacteria all the way to plants and animals. Furthermore, recent findings indicate that cellular redox status is coupled not only to canonical circadian gene expression pathways but also to a noncanonical transcript-independent circadian clock. The redox rhythms observed in peroxiredoxins in the absence of canonical clock mechanisms may hint at the nature of this new and hitherto unknown aspect of circadian timekeeping.
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Protein kinase A (PKA) in vertebrates is localized to specific locations in the cell via A-kinase anchoring proteins (AKAPs). The regulatory subunits of the four PKA isoforms (RIα, RIβ, RIIα, and RIIβ) each form a homodimer, and their dimerization domain interacts with a small helical region present in each of the more than 40 AKAPs reported so far. This allows for tight anchoring of PKA and efficient communication with other signaling proteins that interact with the AKAP scaffold in a spatial and temporal manner. ⋯ We further demonstrate the potential of THAHIT to identify novel AKAPs in cAMP-based chemical proteomics discovery data sets, and the human proteome. We retrieved numerous novel AKAP candidates, including a never reported 330 kDa AKAP observed in heart tissue, which we further characterized biochemically as a PKA-RIIα binder. Altogether, THAHIT provides a comprehensive overview of known and novel PKA-AKAP interaction domains and their PKA-R specificities.