Simon Ng scite author profile

Peptoids, oligomers ofN-substituted glycines, are described as a motif for the generation ofchemically diverse libraries of novel molecules. Ramachandran-type plots were calculated and indicate a greater diversity of conformational states available for peptoids than for peptides. The monomers incorporate t-butyl-based side-chain and 9-fluorenylmethoxycarbonyl a-amine protection. The controlled oligomerization of the peptoid monomers was performed manually and robotically with in situ activation by either benzotriazol-lyloxytris(pyrrolidino)phosphonium hexafluorophosphate or bromotris(pyrrolidino)phosphonium hexafluorophosphate. Other steps were identical to peptide synthesis using a-(9-fluorenylmethoxycarbonyl)amino acids. A total of 15 monomers and 10 oligomers (peptoids) are described. Preliminary data are presented on the stability of a representative oligopeptoid to enzymatic hydrolysis. Peptoid versions of peptide ligands of three biological systems (bovine pancreatic a-amylase, hepatitis A virus 3C proteinase, and human immunodeficiency virus transactivator-responsive element RNA) were found with affinities comparable to those of the corresponding peptides. The potential use of libraries of these compounds in receptor-or enzyme-based assays is discussed.Broad screening of compound libraries, of broths grown from soil samples, and of synthetic intermediates has been a fruitful method for discovery of lead compounds in pharmaceutical and agrochemical research (e.g., ref. 1). With the advent of automated chemical methods for solid-phase peptide and nucleotide synthesis, and of molecular biological methods for protein and nucleic acid synthesis, the stage has been set for the generation of new kinds of compound libraries, namely, collections of oligomeric biomolecules (2-14). Such libraries have been used to map epitopes for antibody binding, to discern ribonucleotide sequences with specific binding or catalytic activity, and to provide initial leads in receptor-based assays. Advantages of these oligomeric molecules are an almost limitless diversity as a result of their modular structure, the ease with which they can be synthesized and sequenced, and their inherent biological relevance. On the other hand, the metabolic instability of peptides and nucleotides and their poor absorption characteristics mean that any lead sequence will require extensive modification before in vivo activity can be expected.Many of these problems could be avoided if an alternative, modular system was devised, with a basis set of "unnatural" monomers and a method for their controlled oligomerization. A host of chemically and pharmaceutically interesting subunits or modules would generate a diverse and novel set of heteropolymers. Once an interesting compound has been identified from a library of such nonpeptide polymers, it can serve as a lead for drug discovery, further along the road to a metabolically stable drug. Optimized analogs of a lead compound could then be developed rapidly due to the modular synthetic nature of th...

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Comparison of the proteolytic susceptibilities of homologous L‐amino acid, D‐amino acid, and N‐substituted glycine peptide and peptoid oligomers

Miller

Simon²,

Ng³

et al. 1995

Drug Development Research

399

343

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[25] Synthesis of N-substituted glycine peptoid libraries

Figliozzi¹,

Ng²,

Banville³

et al. 1996

202

236

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Diversity of Phage-Displayed Libraries of Peptides during Panning and Amplification

Derda

Tang²,

Li³

et al. 2011

Molecules

179

171

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Abstract:The amplification of phage-displayed libraries is an essential step in the selection of ligands from these libraries. The amplification of libraries, however, decreases their diversity and limits the number of binding clones that a screen can identify. While this decrease might not be a problem for screens against targets with a single binding site (e.g., proteins), it can severely hinder the identification of useful ligands for targets with multiple binding sites (e.g., cells). This review aims to characterize the loss in the diversity of libraries during amplification. Analysis of the peptide sequences obtained in several hundred screens of peptide libraries shows explicitly that there is a significant decrease in library diversity that occurs during the amplification of phage in bacteria. This loss during amplification is not unique to specific libraries: it is observed in many of the phage display systems we have surveyed. The loss in library diversity originates from competition among phage clones in a common pool of bacteria. Based on growth data from the literature and models of phage growth, we show that this competition originates from growth rate differences of only a few percent for different phage clones. We summarize the findings using a simple two-dimensional "phage phase diagram", which describes how the collapse of libraries, due to panning and amplification, leads to the identification of only a subset of the available ligands. This review also highlights techniques that allow elimination of OPEN ACCESSMolecules 2011, 16 1777 amplification-induced losses of diversity, and how these techniques can be used to improve phage-display selection and enable the identification of novel ligands.

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Proteolytic studies of homologous peptide and N-substituted glycine peptoid oligomers

Miller

Simon²,

Ng³

et al. 1994

Bioorganic & Medicinal Chemistry Letters

298

166

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Simon Ng

Peptoids: a modular approach to drug discovery.

Comparison of the proteolytic susceptibilities of homologous L‐amino acid, D‐amino acid, and N‐substituted glycine peptide and peptoid oligomers

[25] Synthesis of N-substituted glycine peptoid libraries

Diversity of Phage-Displayed Libraries of Peptides during Panning and Amplification

Proteolytic studies of homologous peptide and N-substituted glycine peptoid oligomers

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