Stephen B. H. Kent 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.

1,575

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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Efficient method for the preparation of peptoids [oligo(N-substituted glycines)] by submonomer solid-phase synthesis

Zuckermann¹,

Kerr²,

Kent³

et al. 1992

J. Am. Chem. Soc.

1,160

1,204

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A cellular gene encodes scrapie PrP 27-30 protein

Oesch

Westaway

Wälchli

et al. 1985

Cell

1,422

873

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Conserved Folding in Retroviral Proteases: Crystal Structure of Synthetic HIV-1 Protease

Wlodawer

Miller

Jaskólski

et al. 1989

Science

1,142

740

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The rational design of drugs that can inhibit the action of viral proteases depends on obtaining accurate structures of these enzymes. The crystal structure of chemically synthesized HIV-1 protease has been determined at 2.8 angstrom resolution (R factor of 0.184) with the use of a model based on the Rous sarcoma virus protease structure. In this enzymatically active protein, the cysteines were replaced by alpha-amino-n-butyric acid, a nongenetically coded amino acid. This structure, in which all 99 amino acids were located, differs in several important details from that reported previously by others. The interface between the identical subunits forming the active protease dimer is composed of four well-ordered beta strands from both the amino and carboxyl termini and residues 86 to 94 have a helical conformation. The observed arrangement of the dimer interface suggests possible designs for dimerization inhibitors.

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Total chemical synthesis of proteins

2009

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This tutorial review outlines the modern ligation methods that enable the efficient total chemical synthesis of enzymes and other protein molecules. Key to this success is the chemoselective reaction of unprotected synthetic peptides ('chemical ligation'). Notably, native chemical ligation enables the reaction of two unprotected peptides in aqueous solution at neutral pH to form a single product in near quantitative yield. Full-length synthetic polypeptides are folded to form the defined tertiary structure of the target protein molecule, which is characterized by mass spectrometry, NMR, and X-ray crystallography, in addition to biochemical and/or biological activity.

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Quantitative monitoring of solid-phase peptide synthesis by the ninhydrin reaction

Sarin

Kent

Tam

et al. 1981

Analytical Biochemistry

1,053

622

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Fluorescence detection in automated DNA sequence analysis

Smith

Sanders

Kaiser

et al. 1986

Nature

1,506

606

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We have developed a method for the partial automation of DNA sequence analysis. Fluorescence detection of the DNA fragments is accomplished by means of a fluorophore covalently attached to the oligonucleotide primer used in enzymatic DNA sequence analysis. A different coloured fluorophore is used for each of the reactions specific for the bases A, C, G and T. The reaction mixtures are combined and co-electrophoresed down a single polyacrylamide gel tube, the separated fluorescent bands of DNA are detected near the bottom of the tube, and the sequence information is acquired directly by computer.

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Stephen B. H. Kent

Synthesis of Proteins by Native Chemical Ligation

Synthesis of Native Proteins by Chemical Ligation

Efficient method for the preparation of peptoids [oligo(N-substituted glycines)] by submonomer solid-phase synthesis

A cellular gene encodes scrapie PrP 27-30 protein

Conserved Folding in Retroviral Proteases: Crystal Structure of Synthetic HIV-1 Protease

Total chemical synthesis of proteins

Quantitative monitoring of solid-phase peptide synthesis by the ninhydrin reaction

Fluorescence detection in automated DNA sequence analysis

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