Mark A. Shifman scite author profile

Mark A. Shifman

3Publications

239Citation Statements Received

64Citation Statements Given

How they've been cited

289

224

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Affiliations

Johns Hopkins University, Yale University, Duke University Hospital

Publications

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Revealing the amino acid composition of proteins within an expanded genetic code

Aerni

Shifman

Rogulina

et al. 2014

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The genetic code can be manipulated to reassign codons for the incorporation of non-standard amino acids (NSAA). Deletion of release factor 1 in Escherichia coli enhances translation of UAG (Stop) codons, yet may also extended protein synthesis at natural UAG terminated messenger RNAs. The fidelity of protein synthesis at reassigned UAG codons and the purity of the NSAA containing proteins produced require careful examination. Proteomics would be an ideal tool for these tasks, but conventional proteomic analyses cannot readily identify the extended proteins and accurately discover multiple amino acid (AA) insertions at a single UAG. To address these challenges, we created a new proteomic workflow that enabled the detection of UAG readthrough in native proteins in E. coli strains in which UAG was reassigned to encode phosphoserine. The method also enabled quantitation of NSAA and natural AA incorporation at UAG in a recombinant reporter protein. As a proof-of-principle, we measured the fidelity and purity of the phosphoserine orthogonal translation system (OTS) and used this information to improve its performance. Our results show a surprising diversity of natural AAs at reassigned stop codons. Our method can be used to improve OTSs and to quantify amino acid purity at reassigned codons in organisms with expanded genetic codes.

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X!!Tandem, an Improved Method for Running X!Tandem in Parallel on Collections of Commodity Computers

et al. 2007

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The widespread use of mass spectrometry for protein identification has created a demand for computationally efficient methods of matching mass spectrometry data to protein databases. A search using X!Tandem, a popular and representative program, can require hours or days to complete, particularly when missed cleavages and post-translational modifications are considered. Existing techniques for accelerating X!Tandem by employing parallelism are unsatisfactory for a variety of reasons. The paper describes a parallelization of X!Tandem, called X!!Tandem, that shows excellent speedups on commodity hardware and produces the same results as the original program. Furthermore, the parallelization technique used is unusual and potentially useful for parallelizing other complex programs.

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In vivo catabolism of α1-proteinase inhibitor-trypsin, antithrombin III-thrombin and α2-macroglobulin-methylamine

Fuchs

Shifman

Pizzo

1982

Biochimica et Biophysica Acta (BBA) - General Subjects

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Mark A. Shifman

Revealing the amino acid composition of proteins within an expanded genetic code

X!!Tandem, an Improved Method for Running X!Tandem in Parallel on Collections of Commodity Computers

In vivo catabolism of α1-proteinase inhibitor-trypsin, antithrombin III-thrombin and α2-macroglobulin-methylamine

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