Daniel J. Seay scite author profile

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. We show that a yeast PUF protein physically binds Pop2p, which is a component of the Ccr4p-Pop2p-Not deadenylase complex, and that Pop2p is required for PUF repression activity. By binding Pop2p, the PUF protein simultaneously recruits the Ccr4p deadenylase and two other enzymes involved in mRNA regulation, Dcp1p and Dhh1p. We reconstitute regulated deadenylation in vitro and demonstrate that the PUF-Pop2p interaction is conserved in yeast, worms and humans. We suggest that the PUF-Pop2p interaction underlies regulated deadenylation, mRNA decay and repression by PUF proteins.

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PUF Protein-mediated Deadenylation Is Catalyzed by Ccr4p

Goldstrohm

Seay

Hook

et al. 2007

Journal of Biological Chemistry

144

148

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PUF proteins control gene expression by binding to the 3-untranslated regions of specific mRNAs and triggering mRNA decay or translational repression. Here we focus on the mechanism of PUF-mediated regulation. The yeast PUF protein, Mpt5p, regulates HO mRNA and stimulates removal of its poly(A) tail (i.e. deadenylation). Mpt5p repression in vivo is dependent on POP2, a component of the cytoplasmic Ccr4p-Pop2p-Not complex that deadenylates mRNAs. In this study, we elucidate the individual roles of the Ccr4p and Pop2p deadenylases in Mpt5p-regulated deadenylation. Both in vivo and in vitro, Pop2p and Ccr4p proteins are required for Mpt5p-regulated deadenylation of HO. However, the requirements for the two proteins differ dramatically: the enzymatic activity of Ccr4p is essential, whereas that of Pop2p is dispensable. We conclude that Pop2p is a bridge through which the PUF protein recruits the Ccr4p enzyme to the target mRNA, thereby stimulating deadenylation. Our data suggest that PUF proteins may enhance mRNA degradation and repress expression by both deadenylation-dependent and -independent mechanisms, using the same Pop2p bridge to recruit a multifunctional Pop2p complex to the mRNA.

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Two Yeast PUF Proteins Negatively Regulate a Single mRNA

Hook

Goldstrohm

Seay

et al. 2007

Journal of Biological Chemistry

127

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mRNA 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. These proteins bind to adjacent sites and can co-occupy the mRNA. Both proteins are required for full repression and deadenylation in vivo; their removal dramatically stabilizes the mRNA. The two proteins act through overlapping but non-identical mechanisms: repression by Puf4p is dependent on deadenylation, whereas repression by Mpt5p can occur through additional mechanisms. Combinatorial action of the two regulatory proteins may allow responses to specific environmental cues and be common in 3-untranslated region-mediated control.

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The Circadian Clock, Light, and Cryptochrome Regulate Feeding and Metabolism in Drosophila

Seay

Thummel

2011

J Biol Rhythms

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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. We assay feeding behavior and basic metabolite levels in individual flies and show that, like mammals, Drosophila display a rapid increase in circulating sugar following a meal, which is subsequently stored in the form of glycogen. These daily rhythms in carbohydrate levels are disrupted in clock mutants, demonstrating a critical role for the circadian clock in the postprandial response to feeding. We also show that basic metabolite levels are coordinated in a clock-dependent manner and that clock function is required to maintain lipid homeostasis. By examining feeding behavior, we show that flies feed primarily during the first 4 hours of the day and that light suppresses a late day feeding bout through the cryptochrome photoreceptor. These studies demonstrate that central aspects of feeding and metabolism are dependent on the circadian clock in Drosophila. Our work also uncovers novel roles for light and cryptochrome on both feeding behavior and metabolism.

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A three-hybrid screen identifies mRNAs controlled by a regulatory protein

Seay

Hook²,

Evans³

et al. 2006

RNA

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RNA-protein interactions are important in many biological contexts. Identification of the networks that connect regulatory proteins to one another and to the mRNAs they control is a critical need. Here, we use a yeast three-hybrid screening approach to identify RNAs that bind a known RNA regulatory protein, the Saccharomyces cerevisiae PUF protein, Mpt5p. The assay selects RNAs that bind in vivo using simple phenotypes and reporter genes. It enables rapid analyses of the affinity and specificity of the interaction. We show that the method identifies mRNAs that are genuinely regulated by the protein in vivo, and that it complements biochemical strategies, yielding a set of mRNAs that overlap with, but are distinct from, those obtained by biochemical means. The approach we describe facilitates construction of protein-RNA linkage maps.

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Daniel J. Seay

PUF proteins bind Pop2p to regulate messenger RNAs

PUF Protein-mediated Deadenylation Is Catalyzed by Ccr4p

Two Yeast PUF Proteins Negatively Regulate a Single mRNA

The Circadian Clock, Light, and Cryptochrome Regulate Feeding and Metabolism in Drosophila

A three-hybrid screen identifies mRNAs controlled by a regulatory protein

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