Angela M. Scates scite author profile

A solid-phase organic synthesis method has been developed for the preparation of N-substituted-beta-aminopropionic acid oligomers or beta-peptoids 1. Treatment of polymer-bound 4-(benzyloxy)benzyl acrylate 2 with primary amines afforded N-substituted beta-alanines 3. Polymer loadings and product conversions were determined by direct cleavage of resin-bound materials and measurement by (1)H NMR with an internal standard. The NMR method was used to establish loading of all resin-bound intermediates including acrylic acid. Acylation with acryloyl chloride followed by Michael addition of primary amines to the acrylamide allowed preparation of di-beta-peptoids. By a linear set of seven reactions, trimeric N-benzyl-beta-aminopropionic acid was prepared in 67% overall yield. Single-bead FT-IR microspectroscopy was used to acquire spectra of the resin bound mono-beta-peptoids, di-beta-peptoids, and acrylamide intermediates. A combinatorial library of defined mixtures of tri-beta-peptoids was prepared by mixing equimolar amounts of the mono-beta-peptoid resins and carrying them through two sequences of the acylation-Michael addition. The identity of a sample mixture was determined by LC-MS analysis of the cleavage product.

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High-Throughput ¹H NMR and HPLC Characterization of a 96-Member Substituted Methylene Malonamic Acid Library

Hamper

Snyderman

Owen

et al. 1999

J. Comb. Chem.

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A solid phase organic synthesis method has been developed for the preparation of substituted methylene malonamic acids and malonic ester mono acids 5. Two substituents are introduced into the core molecule 5 by preparation of unsymmetrical malonic acid derivatives 2, followed by Knoevenagel condensation with aromatic or aliphatic aldehydes, giving resin-bound 4. Evaluation of the scope of these reactions led to the preparation of a 96-member library from a set of eight amines/alcohols (seven amines and one alcohol) and 11 aldehydes leading to 88 substituted methylene malonamic/malonate mono acids 5 and eight unsymmetrical malonamic/malonate mono acids 3. Structural validation and quantitation for every member of the library was obtained by evaluation of 1H NMR and HPLC, respectively. The 1H NMR data were obtained using automated delivery of DMSO solutions of every library member from a 96-deep well microtiter plate to a flow probe-equipped NMR spectrometer. HPLC data were used for determination of the extent of conversion of malonamic/malonate esters 2 to the products 5 by an external standard method. Summary information from the 1H NMR and HPLC data is viewed as plate diagrams for analysis of the final library.

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Knoevenagel condensation of unsymmetrical malonamic esters and malonates on a solid support

Hamper

Kolodziej

Scates

1998

Tetrahedron Letters

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Preparation and Solution Polymerization of Diacetylenes

Hathaway

Scates

1997

J. Chem. Educ.

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Angela M. Scates

Solid Phase Synthesis of β-Peptoids: N-Substituted β-Aminopropionic Acid Oligomers

High-Throughput ¹H NMR and HPLC Characterization of a 96-Member Substituted Methylene Malonamic Acid Library

Knoevenagel condensation of unsymmetrical malonamic esters and malonates on a solid support

Preparation and Solution Polymerization of Diacetylenes

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Resources

About

Angela M. Scates

Solid Phase Synthesis of β-Peptoids: N-Substituted β-Aminopropionic Acid Oligomers

High-Throughput 1H NMR and HPLC Characterization of a 96-Member Substituted Methylene Malonamic Acid Library

Knoevenagel condensation of unsymmetrical malonamic esters and malonates on a solid support

Preparation and Solution Polymerization of Diacetylenes

Contact Info

Product

Resources

About

High-Throughput ¹H NMR and HPLC Characterization of a 96-Member Substituted Methylene Malonamic Acid Library