Karen K. Yamamoto scite author profile

A nuclear protein, CREB, has been isolated from rat brain and shown to stimulate transcription of the cyclic AMP-responsive gene somatostatin as a dimer. Biochemical analysis suggests that dimerization and transcriptional efficacy of CREB protein in vitro are regulated by phosphorylation. These findings demonstrate that cellular signals can modulate gene expression by regulating the covalent modification of pre-existing nuclear factors.

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A cluster of phosphorylation sites on the cyclic AMP-regulated nuclear factor CREB predicted by its sequence

González

Yamamoto

Fischer

et al. 1989

Nature

883

419

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Cyclic AMP regulates the expression of a number of genes through a conserved promoter element, the CRE1. Moreover, transcriptional induction by cAMP requires the activation of cAMP-dependent protein kinase (protein kinase A). We have previously characterized the cAMP response element binding protein (CREB) in PC12 cells and brain tissue as a nuclear factor, of relative molecular mass 43,000, whose transcriptional efficacy is regulated by protein kinase A phosphorylation. CREB stimulates transcription on binding to the CRE as a dimer. Experiments suggesting that the dimerization and transcriptional efficacy of CREB are each stimulated by phosphorylation at distinct sites prompted us to suggest that CREB is regulated by multiple kinases in vivo. We now report the isolation of a cDNA clone for rat CREB using amino-acid sequence information from purified CREB protein. Sequence analysis of this CREB cDNA predicts a cluster of protein kinase A, protein kinase C and casein kinase II consensus recognition sites near the N terminus of the protein. The proximity of these potential phosphorylation sites to one another indicates that they may interact either positively or negatively to regulate CREB bioactivity.

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Regulation of camp-inducible genes by creb

Montminy

González

Yamamoto

1990

Trends in Neurosciences

391

204

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Characterization of a bipartite activator domain in transcription factor CREB

Yamamoto

González

Menzel

et al. 1990

Cell

220

117

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Juvenile Hormone Action Mediated in Male Accessory Glands of Drosophila by Calcium and Kinase C

Yamamoto

Chadarevian

Pellegrini

1988

Science

169

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In an in vitro system for the Drosophila melanogaster male accessory gland, it was found that 10(-9)M juvenile hormone III could accurately mimic the copulation-induced response of increased protein synthesis in glands from virgin flies. Stimulation by this hormone required calcium in the medium. Experiments with tumor-promoting phorbol esters indicated that activation of protein kinase C can also cause the glands to increase protein synthesis. Stimulation of protein synthesis by juvenile hormone did not occur in mutants deficient in kinase C activity. These results suggest a membrane-protein-mediated effect of juvenile hormone that involves calcium and kinase C.

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Karen K. Yamamoto

Phosphorylation-induced binding and transcriptional efficacy of nuclear factor CREB

A cluster of phosphorylation sites on the cyclic AMP-regulated nuclear factor CREB predicted by its sequence

Regulation of camp-inducible genes by creb

Characterization of a bipartite activator domain in transcription factor CREB

Juvenile Hormone Action Mediated in Male Accessory Glands of Drosophila by Calcium and Kinase C

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