Edward S. Diala scite author profile

A method is presented for the incorporation of nonnatural amino acids into proteins during in vitro cell-free translation. A combination of chemical synthesis and run-off transcription was employed to prepare a semisynthetic, nonhypermodified tRNA(Gly) nonsense suppressor acylated with L-3-[125I]iodotyrosine. The presence of this synthetic tRNA during in vitro translation of mRNA containing a nonsense suppression site (e.g., a UAG termination codon) results in the incorporation of the nonnatural amino acid L-3-iodotyrosine into the polypeptide exclusively at the position corresponding to that site. Incorporation of the nonnatural amino acid L-3-[125I]iodotyrosine into the model polypeptide was assessed by quantitative and unambiguous determination of suppression efficiency, read-through, and site specificity of incorporation. Minor modifications of the method employed in this initial experiment also allow the rapid analysis of unlabeled acylated tRNA analogues. Under optimum conditions, the unlabeled amino acid L-3-iodotyrosine was found to be incorporated with a suppression efficiency of 65%. Other nonnatural residues, including N-methylphenylalanine, D-phenylalanine, and phenyllactic acid, were tested in the assay under these same conditions. Suppression efficiencies for this series ranged from 0 to 72% depending on the structure of the residue incorporated. Several other aspects of this methodology, such as tRNA structure and context effects, are briefly discussed.

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Hypomethylation of hela cell DNA and the absence of 5-methylcytosine in SV40 and adenovirus (type 2) DNA: Analysis by HPLC

Diala

Hoffman

1982

Biochemical and Biophysical Research Communications

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Mitochondrial control of cell surface characteristics in Saccharomyces cerevisiae

Evans

Diala

Earl

et al. 1980

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Primary Antimitochondrial Activity of the Cancer Drug Methylglyoxal Bis(guanylhydrazone) in Yeast Cells

Diala¹,

Evans²,

Wilkie³

1980

Microbiology

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Primary action of methylglyoxal bis(guanylhydrazone) (MGBG) on the yeast mitochondrial system was demonstrated by (1) selective inhibition of cell growth in non-fermentable medium, (2) blockage of mitochondrial synthesis of cytochromes aa3 and b and (3) ultrastructural aberration. The drug caused extensive deletions in mitochondrial DNA detected by an increase in the frequency of the mitochondrial mutant petite but had little or no effect on cell viability. Growth inhibition by MGBG had any effect on growth inhibition by ethidium bromide. Strains showed no cross-correlation in their tolerance to MGBG and ethidium bromide.

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Edward S. Diala

Biosynthetic site-specific incorporation of a non-natural amino acid into a polypeptide

Site-specific incorporation of nonnatural residues during in vitro protein biosynthesis with semi-synthetic aminoacyl-tRNAs

Hypomethylation of hela cell DNA and the absence of 5-methylcytosine in SV40 and adenovirus (type 2) DNA: Analysis by HPLC

Mitochondrial control of cell surface characteristics in Saccharomyces cerevisiae

Primary Antimitochondrial Activity of the Cancer Drug Methylglyoxal Bis(guanylhydrazone) in Yeast Cells

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