Publications by authors named "Daniel J Seay"
The circadian clock, light, and cryptochrome regulate feeding and metabolism in Drosophila.
J Biol Rhythms
December 2011
Recent studies in mammals have demonstrated a central role for the circadian clock in maintaining metabolic homeostasis. In spite of these advances, however, little is known about how these complex pathways are coordinated. Here, we show that fundamental aspects of the circadian control of metabolism are conserved in the fruit fly Drosophila.
View Article and Find Full Text PDFmRNA stability and translation are regulated by protein repressors that bind 3'-untranslated regions. PUF proteins provide a paradigm for these regulatory molecules: like other repressors, they inhibit translation, enhance mRNA decay, and promote poly(A) removal. Here we show that a single mRNA in Saccharomyces cerevisiae, encoding the HO endonuclease, is regulated by two distinct PUF proteins, Puf4p and Mpt5p.
View Article and Find Full Text PDFArticle Synopsis
- PUF proteins regulate gene expression by binding to specific mRNAs and inducing decay or repression.
- The yeast PUF protein, Mpt5p, controls HO mRNA by enabling the removal of its poly(A) tail through a process called deadenylation, which requires the POP2 component of the Ccr4p-Pop2p-Not complex.
- This study reveals that while both Ccr4p and Pop2p are necessary for Mpt5p-regulated deadenylation, only Ccr4p's enzymatic activity is essential, suggesting that Pop2p acts as a bridge to recruit Ccr4p to target mRNAs for deadenylation.
PUF proteins, a family of RNA-binding proteins, interact with the 3' untranslated regions (UTRs) of specific mRNAs to control their translation and stability. PUF protein action is commonly correlated with removal of the poly(A) tail of target mRNAs. Here, we focus on how PUF proteins enhance deadenylation and mRNA decay.
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