Carbohydrate Chemistry: Proven Synthetic Methods, Volume 2 / Edition 1

Carbohydrate Chemistry: Proven Synthetic Methods, Volume 2 / Edition 1

by Gijsbert van der Marel, Jeroen Codee
ISBN-10:
0367246848
ISBN-13:
9780367246846
Pub. Date:
05/14/2019
Publisher:
Taylor & Francis
ISBN-10:
0367246848
ISBN-13:
9780367246846
Pub. Date:
05/14/2019
Publisher:
Taylor & Francis
Carbohydrate Chemistry: Proven Synthetic Methods, Volume 2 / Edition 1

Carbohydrate Chemistry: Proven Synthetic Methods, Volume 2 / Edition 1

by Gijsbert van der Marel, Jeroen Codee
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Overview

The second volume in the series Carbohydrate Chemistry: Proven Synthetic Methods, Volume 2 offers a collection of synthetic procedures valuable to the practice of synthetic carbohydrate chemistry. The series takes an important and unique approach in that all described procedures have been independently verified as reliable and reproducible. With editors and contributors who are highly respected scientists in the field, this book provides a widely useful reference for both researchers and students, exploring carbohydrate chemistry from both academic and industrial points of view.

The book begins with an introductory section that offers tricks and tips collected by the series editor from many years of experience working in carbohydrate laboratories. The subsequent chapters present detailed protocols on both specific synthetic transformations and the preparation of common synthetic intermediates, with figures to aid in comprehension. Procedures are described for regioselective benzylidene ring opening reactions, oxidation reactions to provide uronic acids, stereoselective alpha-glucosylation reactions, and more. Protocols for synthetic intermediates of general utility include 3,4,6-tri-O-acetyl-d-galactal, phenyl 4,6-O-benzylidene-1-thio-α-d-mannopyranoside, 1,2-anhydro-3,4,6-tri-O-benzyl-β-d-mannopyranoside, and methyl N-acetylneuraminic acid, among many others.

Each chapter presents in-depth experimental descriptions for the reported procedures, including reaction setup, reaction conditions, work-up procedures, and purification protocols. The chapters also provide detailed characterization of all products and intermediates as well as copies of the 1H NMR and 13C NMR of the described products and intermediates to indicate the purity of the obtained materials and to serve as a valuable reference for future practitioners.

This book provides an important starting point to reliably access synthetic carbohydrate materials and as such offers a valuable resource for the synthetic organic chemistry community. Through the streamlined access of well-defined products it provides a thrust to the rapidly growing field of chemical glycobiology.


Product Details

ISBN-13: 9780367246846
Publisher: Taylor & Francis
Publication date: 05/14/2019
Series: Carbohydrate Chemistry: Proven Synthetic Methods , #1
Pages: 333
Product dimensions: 6.12(w) x 9.19(h) x (d)

About the Author

Series Editor:

Pavol Kováč, Ph.D., Dr. h.c., obtained his Ph.D. in organic chemistry at the Institute of Chemistry, Slovak Academy of Sciences, Bratislava. Dr. Kováč is a strong promoter of good laboratory practices and a vocal critic of the publication of experimental chemistry lacking data that allow reproducibility. He has more than 40 years of experience in carbohydrate chemistry and over 280 papers published in refereed scientific journals, several patents, and book chapters. He joined the National Institutes of Health (NIH) (Bethesda, Maryland) in 1983 where he is currently one of the principal investigators and chief of the Section on Carbohydrates (NIDDK, Laboratory of Bioorganic Chemistry). The world’s oldest research group continuously working on chemistry, biochemistry, and immunology of carbohydrates, it was originally established by the American carbohydrate chemist Claude S. Hudson. Kováč’s main interest is the development of conjugate vaccines for bacterial diseases from synthetic carbohydrate antigens.

Volume Two Editors:

Jeroen Codée
obtained his Ph.D. from Leiden University, the Netherlands, under the guidance of Jacques van Boom and Stan van Boeckel in 2004. Codée then moved to the Eidgenossische Technische Hochschule (ETH) Zurich, Switzerland, for a two-year post-doctoral stay with Peter Seeberger. He subsequently returned to Leiden University, where he is now an associate professor in bio-organic chemistry. His research focuses on glycochemistry and glycobiology, ranging from fundamental organic synthesis to vaccine/drug development and the development of glycobiology tools. He has authored or co-authored more than 70 publications and seven book chapters.

Gijs van der Marel conducted his Ph.D. studies on DNA chemistry with Jacques van Boom and received his Ph.D. degree in 1981 from Leiden University, the Netherlands. He has remained associated with this university, where he is now a full professor in synthetic organic chemistry. He has supervised more than 70 Ph.D. students and authored or co-authored over 700 papers. His research focuses on all synthetic aspects of biopolymers, including nucleic acids, peptides, and carbohydrates, and hybrids and analogues thereof.

Table of Contents

Section I: Synthetic Methods. Highly Stereoselective 1,2-cis-Glycosylations Employing C-2 (S)-(Phenylthiomethyl)benzyl Ether as a Chiral Auxiliary. Regioselective Reductive Openings of 4,6-O-Benzylidene-Type Acetals Using LiAlH4-AlCl3. A Facile Method for Oxidation of Primary Alcohols to Carboxylic Acids in Carbohydrate Synthesis. Ultrasonic Energy Promoted Allylation to Generate 1-C-(2,3,4,6-Tetra-O-benzyl-α-d-glucopyranosyl)prop-2-ene. Synthesis of a Multivalent Glycocyclopeptide Using Oxime Ligation. Reductive Amination Methodology for Synthesis of Primary Amines from Unprotected Synthons. General Preparation of Imidazole-1-sulfonate Esters. Regioselective Monoacylation and Monoalkylation of Carbohydrates Catalyzed by a Diarylborinic Ester. The Synthesis of Carbamates from Alkenylamines. Hydrolysis of Thioglycosides Using Anhydrous N-Iodosuccinimide (NIS) and Trifluoroacetic Acid (TFA). Highly Diastereoselective Construction of l-Heptosides by a Sequential Grignard Addition/Fleming-Tamao Oxidation. Synthesis of Fluorinated Exo-glycals Mediated by Selectfluor. A Direct and Stereospecific Approach to the Synthesis of α-Glycosyl Thiols. Efficient Microwave-Assisted Synthesis of 1′,2,3,3′,4,4′,6-Hepta-O-benzyl-sucrose and 1′,2,3,3′,4,4′-Hexa-O-benzylsucrose. Section II: Synthetic Intermediates. Oligosaccharide-Salicylaldehyde Derivatives as Precursors of Water-Soluble, Biocompatible Anion Receptors. Allyl 3,4,6-Tri-O-Benzyl-α-d-Mannopyranoside. Synthesis of a Spacer-Armed 6′-Sialyl-N-Acetyllactosamine. Synthesis of β-(1→3)-mannobiose. Phenyl 4,6-O-Benzylidene-1-thio-α-d-mannopyranoside. Synthesis of 1,3,4,6-Tetra-O-acetyl-α-d-glucopyranose Revisited. Synthesis of 4,6-O-Benzylidene Acetals of Methyl α-d-Glucopyranoside, Ethyl 1-Thio-β-d-gluco- and Galactopyranoside. Synthesis of α-N-Acetylneuraminic Acid Methyl Glycoside. Synthesis of Ammonium 3-Deoxy-d-manno-oct-2-ulopyranosylonate (Ammonium Kdo). Synthesis and Characterization of Tetra-O-propargyl Pentaerythritol. Improved Synthesis of Ethyl (2,3,4,6-Tetra-O-acetyl-β-d-galactopyranosyl)-(1→3)-4,6-O-benzylidene-2-deoxy-1-thio-2-trichloroacetamido-β-d-glucopyranoside. Synthesis of α-d-Galactofuranosyl Phosphate. Synthesis of 1,2 4,5-Di-O-(3,3-pentylidene)arabitol via Kinetic Acetal Formation. 1,2-Anhydro-3,4,6-tri-O-benzyl-β-d-mannopyranose. Synthesis of Glucosyl C-1 Dihalides from Tetra-O-acetyl-β-d-glucopyranosyl Chloride. Synthesis of 3,4,6-Tri-O-acetyl-d-galactal. Efficient Synthesis of Hepta-O-acetyl-β-lactosyl Azide via Phase Transfer Catalysis. Synthesis of 2,3,4,6-Tetra-O-acetyl-α-d-mannopyranosyl Azide. Synthesis of Phenyl 2,3,4,6-Tetra-O-acetyl-1-thio-β-d-galactopyranoside. An Alternative, Large-Scale Synthesis of 1,2 5,6-Di-O-isopropylidene-α-d-ribo-hex-3-ulofuranose.

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