Philip E. Dawson scite author profile

A simple technique has been devised that allows the direct synthesis of native backbone proteins of moderate size. Chemoselective reaction of two unprotected peptide segments gives an initial thioester-linked species. Spontaneous rearrangement of this transient intermediate yields a full-length product with a native peptide bond at the ligation site. The utility of native chemical ligation was demonstrated by the one-step preparation of a cytokine containing multiple disulfides. The polypeptide ligation product was folded and oxidized to form the native disulfide-containing protein molecule. Native chemical ligation is an important step toward the general application of chemistry to proteins.

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Synthesis of Native Proteins by Chemical Ligation

Dawson

Kent²

2000

Annu. Rev. Biochem.

1,586

1,526

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Key Words chemical protein synthesis, thioester, protein, peptide, solid phase synthesis, polymer-supported synthesis, protein engineering s Abstract In just a few short years, the chemical ligation of unprotected peptide segments in aqueous solution has established itself as the most practical method for the total synthesis of native proteins. A wide range of proteins has been prepared. These synthetic molecules have led to the elucidation of gene function, to the discovery of novel biology, and to the determination of new three-dimensional protein structures by both NMR and X-ray crystallography. The facile access to novel analogs provided by chemical protein synthesis has led to original insights into the molecular basis of protein function in a number of systems. Chemical protein synthesis has also enabled the systematic development of proteins with enhanced potency and specificity as candidate therapeutic agents.

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Protein synthesis by native chemical ligation: Expanded scope by using straightforward methodology

Hackeng

Griffin

Dawson

1999

Proc. Natl. Acad. Sci. U.S.A.

658

674

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Proteolytic activity monitored by fluorescence resonance energy transfer through quantum-dot–peptide conjugates

et al. 2006

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Proteases are enzymes that catalyse the breaking of specific peptide bonds in proteins and polypeptides. They are heavily involved in many normal biological processes as well as in diseases, including cancer, stroke and infection. In fact, proteolytic activity is sometimes used as a marker for some cancer types. Here we present luminescent quantum dot (QD) bioconjugates designed to detect proteolytic activity by fluorescence resonance energy transfer. To achieve this, we developed a modular peptide structure which allowed us to attach dye-labelled substrates for the proteases caspase-1, thrombin, collagenase and chymotrypsin to the QD surface. The fluorescence resonance energy transfer efficiency within these nanoassemblies is easily controlled, and proteolytic assays were carried out under both excess enzyme and excess substrate conditions. These assays provide quantitative data including enzymatic velocity, Michaelis-Menten kinetic parameters, and mechanisms of enzymatic inhibition. We also screened a number of inhibitory compounds against the QD-thrombin conjugate. This technology is not limited to sensing proteases, but may be amenable to monitoring other enzymatic modifications.

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Linewidth dependence of radiative exciton lifetimes in quantum wells

et al. 1987

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Philip E. Dawson

Synthesis of Proteins by Native Chemical Ligation

Synthesis of Native Proteins by Chemical Ligation

Protein synthesis by native chemical ligation: Expanded scope by using straightforward methodology

Proteolytic activity monitored by fluorescence resonance energy transfer through quantum-dot–peptide conjugates

Linewidth dependence of radiative exciton lifetimes in quantum wells

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