Dana W. Aswad scite author profile

The p160 family of coactivators, SRC-1, GRIP1/TIF2, and p/CIP, mediate transcriptional activation by nuclear hormone receptors. Coactivator-associated arginine methyltransferase 1 (CARM1), a previously unidentified protein that binds to the carboxyl-terminal region of p160 coactivators, enhanced transcriptional activation by nuclear receptors, but only when GRIP1 or SRC-1a was coexpressed. Thus, CARM1 functions as a secondary coactivator through its association with p160 coactivators. CARM1 can methylate histone H3 in vitro, and a mutation in the putative S-adenosylmethionine binding domain of CARM1 substantially reduced both methyltransferase and coactivator activities. Thus, coactivator-mediated methylation of proteins in the transcription machinery may contribute to transcriptional regulation.

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Deamidation and isoaspartate formation in proteins: unwanted alterations or surreptitious signals?

Reissner

Aswad

2003

Cellular and Molecular Life Sciences (CMLS)

252

270

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Formation of betalinked Asp-Xaa peptide bonds--isoaspartyl (isoAsp) sites--arise in proteins via succinimide-linked deamidation of asparagine or dehydration of aspartate, reactions which represent a major source of spontaneous protein damage under physiological conditions. Accumulation of atypical isoaspartyl sites is minimized in vivo by the activity of protein L-isoaspartyl O-methyltransferase (PIMT), which regenerates a normal peptide bond. Loss of PIMT has harmful consequences, especially in neurons; thus, formation of isoAsp sites and their subsequent correction by PIMT is widely believed to constitute an important pathway of protein damage and repair. Recent evidence is mounting, however, that deamidation and isoaspartate formation may, in some instances, constitute a novel mechanism for intentional modification of protein structure. Herein we describe the mechanism of Asx rearrangement, summarize the evidence that PIMT serves an important repair function, and then focus on emerging evidence that deamidation and isoAsp formation may sometimes have a useful function.

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Isoaspartate in peptides and proteins: formation, significance, and analysis

Aswad

Paranandi

Schurter

2000

Journal of Pharmaceutical and Biomedical Analysis

221

191

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A dopamine- and cyclic AMP-regulated phosphoprotein enriched in dopamine-innervated brain regions

Walaas

Aswad

Greengard

1983

Nature

332

182

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Several mammalian neurotransmitter candidates, for example, serotonin, dopamine and noradrenaline, may exert some of their synaptic effects by regulating protein phosphorylation systems. Comparison of the regional distribution of brain phosphoproteins with neurotransmitter systems may help to identify the specific phosphoproteins involved in the functions of particular neurotransmitters. Here we report the association of one such phosphoprotein with the dopamine pathways in brain. This protein, of apparent molecular weight (MW) 32,000 (32K), seems to be present only in nervous tissue. Its regional distribution within the brain is very similar to the pattern of dopamine-containing nerve terminals; more specifically, the protein appears to be enriched in those dopaminoceptive neurones which possess D-1 receptors (dopamine receptors coupled to adenylate cyclase). The state of phosphorylation of the protein in these dopaminoceptive neurones can be regulated by both dopamine and cyclic AMP. These results suggest that the phosphoprotein may mediate certain of the trans-synaptic effects of dopamine acting on dopaminoceptive neurones.

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Dana W. Aswad

Regulation of Transcription by a Protein Methyltransferase

Deamidation and isoaspartate formation in proteins: unwanted alterations or surreptitious signals?

Isoaspartate in peptides and proteins: formation, significance, and analysis

A dopamine- and cyclic AMP-regulated phosphoprotein enriched in dopamine-innervated brain regions

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