Product Description
While for many years NMR spectroscopy was one of the most useful
methods of analyzing smaller molecules, nowadays it is an indispensable
tool in determining the structure of complex biomolecules too. One
reason for this is not least the development of increasingly powerful
appliances that enabled this complicated analysis using tiny amounts of
the substances in the first place. Just as the image of a 2D spectrum
allows an insight into the spatial structure of a molecule, the
chronological examination of an NMR experiment enables the description
of the molecular dynamics. It is only by explaining such characteristics
that we can really come to understand the functioning of biomolecules.
This book is neither a purely analytical nor bioorganic work, and as such fills a gap for everybody working in determining the structure of carbohydrates and their conjugates. In a clearly comprehensible manner, the text summarizes the latest knowledge surrounding the use of NMR spectroscopy with such biologically important substance classes as polysaccharides, glycoproteins and glycolipides. Furthermore, it provides an insight into the interactions with other biomolecules such as proteins, nucleic acids or carbohydrates. A valuable guide for all glucochemists.
This book is neither a purely analytical nor bioorganic work, and as such fills a gap for everybody working in determining the structure of carbohydrates and their conjugates. In a clearly comprehensible manner, the text summarizes the latest knowledge surrounding the use of NMR spectroscopy with such biologically important substance classes as polysaccharides, glycoproteins and glycolipides. Furthermore, it provides an insight into the interactions with other biomolecules such as proteins, nucleic acids or carbohydrates. A valuable guide for all glucochemists.
From the Back Cover
While for many years NMR Spectroscopy was one of the most useful
methods of analyzing smaller molecules, nowadays it is an indispensable
tool in determining the structure of complex biomolecules too. One
reason for this is not least the development of increasingly powerful
appliances that enabled this complicated analysis using tiny amounts of
the substances in the first place. Just as the image of a 2D spectrum
allows an insight into the spatial structure of a molecule, the
chronological examination of an NMR experiment enables the description
of the molecular dynamics. It is only by explaining such characteristics
that we can really come to understand the functioning of biomolecules.
This book is neither a purely analytical nor bioorganic work, and as such fills a gap for everybody working in determining the structure of carbohydrates and their conjugates. In a clearly comprehensible manner, the text summarizes the latest knowledge surrounding the use of NMR spectroscopy with such biologically important substance classes as polysaccharides, glycoproteins and glycolipides. Furthermore, it provides an insight into the interactions with other biomolecules such as proteins, nucleic acids or carbohydrates. A valuable guide for all glucochemists.
This book is neither a purely analytical nor bioorganic work, and as such fills a gap for everybody working in determining the structure of carbohydrates and their conjugates. In a clearly comprehensible manner, the text summarizes the latest knowledge surrounding the use of NMR spectroscopy with such biologically important substance classes as polysaccharides, glycoproteins and glycolipides. Furthermore, it provides an insight into the interactions with other biomolecules such as proteins, nucleic acids or carbohydrates. A valuable guide for all glucochemists.
Product Details
- Hardcover: 336 pages
- Publisher: Wiley-VCH; 1 edition (December 30, 2002)
- Language: English
- ISBN-10: 3527304142
- ISBN-13: 978-3527304141
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