Amino Acids: Insights and Roles in Heterocyclic Chemistry : Volume 3: N-Carboxyanhydrides, N-Thiocarboxyanhydrides, Sydnones, and Sydnonimines book cover
1st Edition

Amino Acids: Insights and Roles in Heterocyclic Chemistry
Volume 3: N-Carboxyanhydrides, N-Thiocarboxyanhydrides, Sydnones, and Sydnonimines

  • Available for pre-order on May 25, 2023. Item will ship after June 15, 2023
ISBN 9781774911563
June 15, 2023 Forthcoming by Apple Academic Press
380 Pages 14 Color & 166 B/W Illustrations

FREE Standard Shipping
USD $225.00

Prices & shipping based on shipping country


Book Description

This first-of-its-kind four-volume book series, Amino Acids: Insights and Roles in Heterocyclic Chemistry, provides readers with up-to-date information on alpha-amino acids, the potential challenges in working with alpha-amino acids, the protecting groups for the carboxyl, amino and side chain groups of the amino acids, and the most popular heterocyclic compounds that are originating from alpha-amino acids. These heterocyclic compounds include hydantoins, thiohydantoins (including 2-thiohydantoins, 4-thiohydantoins, 2,4-dithiohydantoins), 2,5-diketopiperazines, N-carboxyanhydrides, N-thiocarboxyanhydrides, sydnones, sydnonimines, azlactones, pseudoazlactones, and oxazolidin-5-ones. This is the first resource to comprehensively collect all the heterocycles that can be directly prepared from alpha-amino acids. In addition, almost all kinds of synthetic methods for a particular type of heterocycles from alpha-amino acids are include, along with the detailed mechanistic discussions and experimental procedures.

Volume 3: N-Carboxyanhydrides, N-Thiocarboxyanhydrides, and Sydnones presents up-to-date detailed information on two types of heterocyclic compounds that are originated from alpha-amino acids: NCAs/NTAs and sydnones/sydnonimines. The volume also covers the more than 10 initiating systems for these monomers to undergo the ring-opening polymerization, which are very useful for the readers to make living polypeptides/polypeptoids. In addition, the method to characterize these prepared polypeptides/polypeptoids are included. Particularly, two modern mass spectrometric techniques (MALDI-TOF and ESI-TOF) have been explained with detailed examples, where the elucidation of molecular weight of protein based on the ESI-TOF spectra has been given with a practical example as well as the theory that is based on. There has not been an example like this from many books published already.

The other volumes include:

Volume 1: Protecting Groups

Volume 2: Hydantoins, Thiohydantoins, and 2,5-Diketopiperazines

Volume 4: Azlactones and Oxazolidin-5-ones

All together, this unique 4-volume set thoroughly covers the two types of heterocyclic compounds that are originated from alpha-amino acids, providing carefully compiled updated information with detailed examples. The author has shared many thoughtful insights based on his strong background in physical organic chemistry. The volumes will be highly valuable for graduate students and senior students, as well as for professors and researchers working in the field of medicinal and pharmaceutical chemistry, organic chemistry, organic synthesis, heterocycles, and proteins and peptides.

Table of Contents

1. Azlactones

Introduction • Biological Activities • Preparative Methods • Reactions • Applications • Pseudoazlactones • Final Comments

2. Oxazolidin-5-Ones

Introduction • Natural Occurrence • Biological Activities • Preparative Methods • Reactions of Oxazolidin-5-ones • Application

View More



Zerong Wang, PhD, is a full Professor at the University of Houston-Clear Lake, Texas. Prior to that, he worked at the Institute for Biological Sciences of the National Research Council of Canada for several years. Through his career, the author has gained specific training and expertise in organic chemistry, particularly in physical organic chemistry and other subdisciplines that include photochemistry, spectroscopies, carbohydrate chemistry, sulfur chemistry, nucleosides and heterocycles, material science, reaction methodology, computational chemistry, among other. Dr. Wang has developed research projects relating to sulfur chemistry, computational chemistry, nucleoside analogs, heterocycle chemistry, materials science, and macromolecules (pillarene, calix[n]arene, and melamine-based dendrimers, etc.) and has received 22 research grants, including from NSF-MRI, NSF-STEM, Welch Research Grant, Welch Departmental Research Grant, and University of Houston-Clear Lake’s Faculty Research and Support Fund (FRSF) Grants. The author has developed two compendiums in organic chemistry: Comprehensive Organic Named Reactions, with Detailed Mechanism Discussions and Updated Experimental Procedures (3 volumes) (Wiley, 2009) and Encyclopedia of Physical Organic Chemistry (6 volumes) (Wiley, 2017), the PROSE Award winner in 2018. While conducting research activities, the author also teaches courses for both graduate and undergraduate students. To date, the author has taught courses on General Chemistry, General Chemistry Laboratory, Analytical Chemistry, Quantitative Chemical Analysis, Forensic Chemistry, Organic Chemistry, Organic Chemistry Laboratory, Advanced Organic Chemistry, Physical Organic Chemistry, Synthetic Organic Chemistry, Organometallic Chemistry, Biochemistry, Biochemistry Laboratory, Polymer Chemistry, Introduction to Chemical Engineering, Nutrition and Diet Chemistry, Green Chemistry, Introduction to NMR Spectroscopy, Chemistry Seminar, Graduate Research, and Chemistry for Non-Science Majors. Dr. Wang earned his BS degree in Chemistry from Lanzhou University, PR China, and earned his MS and PhD degrees from the Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences. He conducted his postdoctoral research at the Department of Chemistry, University of California Berkeley and York University (Canada).