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A practical method for cell-free protein synthesis to avoid stable isotope scrambling and dilution.

Analytical biochemistry (2011-01-25)
Jun Yokoyama, Takayoshi Matsuda, Seizo Koshiba, Naoya Tochio, Takanori Kigawa
RESUMEN

During recent years, the targets of protein structure analysis using nuclear magnetic resonance spectroscopy have become larger and more complicated. As a result, a complete and precise stable isotope labeling technique has been desired. A cell-free protein synthesis system is appropriate for this purpose. In the current study, we achieved precise and complete (15)N and (2)H labeling using an Escherichia coli cell extract-based cell-free protein synthesis system by controlling the metabolic reactions in the system with their chemical inhibitors. The addition of aminooxyacetate, d-malate, l-methionine sulfoximine, S-methyl-l-cysteine sulfoximine, 6-diazo-5-oxo-l-norleucine, and 5-diazo-4-oxo-l-norvaline was quite effective for precise amino acid-selective (15)N labeling even for aspartic acid, asparagine, glutamic acid, and glutamine, which generally suffer from severe isotope scrambling and dilution when using the conventional cell-free system. For (2)H labeling, the back-protonation of the H(α) and H(β) positions, which commonly occurred in the conventional system, was dramatically suppressed by simply adding aminooxyacetate and d-malate to the cell-free system except for the H(α) positions in methionine and cysteine.

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Sigma-Aldrich
In Vitro Protein Expression (iPE) Kit II
Sigma-Aldrich
In Vitro Protein Expression (iPE-SS) Kit for disulfide-containing proteins