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Enhancing Protein Stability with Genetically Encoded Noncanonical Amino Acids.

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The ability to add noncanonical amino acids to the genetic code may allow one to evolve proteins with new or enhanced properties using a larger set of building blocks. To… Click to show full abstract

The ability to add noncanonical amino acids to the genetic code may allow one to evolve proteins with new or enhanced properties using a larger set of building blocks. To this end, we have been able to select mutant proteins with enhanced thermal properties from a library of E. coli homoserine O-succinyltransferase ( metA) mutants containing randomly incorporated noncanonical amino acids. Here, we show that substitution of Phe 21 with ( p-benzoylphenyl)alanine (pBzF), increases the melting temperature of E. coli metA by 21 °C. This dramatic increase in thermal stability, arising from a single mutation, likely results from a covalent adduct between Cys 90 and the keto group of pBzF that stabilizes the dimeric form of the enzyme. These experiments show that an expanded genetic code can provide unique solutions to the evolution of proteins with enhanced properties.

Keywords: noncanonical amino; protein stability; enhancing protein; amino acids

Journal Title: Journal of the American Chemical Society
Year Published: 2018

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