Lignans are aromatic compounds isolated from plants. This handbook presents an authoritative and comprehensive review of lignan chemistry, biochemistry, nomenclature, uses, and occurrence. Lignans are used in a wide variety of industries and this book will appeal to those working in the pulp and paper industries, renewable energy, specialty chemicals, pharmaceuticals, flavors and fragrances, agriculture and forestry, evolution and ecology.
Additionally, the book features a comprehensive lignans dictionary section, drawn from the prestigious Dictionary of Natural Products. Other features include:
Presents a comprehensive and up-to-date account of this important group of natural products
Addresses and resolves problems in current lignan nomenclature
Edited by the leaders in the field of lignan chemistry and biochemistry
Edited by:
Norman G. Lewis (Washington State University Pullman USA),
Laurence B. Davin (Washington State University,
Pullman,
USA),
V. Ranjit N. Munasinghe (Consultant,
UK),
Andrew Roberts (Consultant,
UK)
Imprint: CRC Press
Country of Publication: United Kingdom
Dimensions:
Height: 280mm,
Width: 210mm,
Weight: 1.927kg
ISBN: 9781032197005
ISBN 10: 1032197005
Pages: 1030
Publication Date: 04 October 2024
Audience:
Professional and scholarly
,
Undergraduate
Format: Paperback
Publisher's Status: Active
Chapter 01 Redefining Lignan and Neolignan Skeleta Nomenclature with Dirigent Protein Discovery: a Historical Perspective Chapter 02 The Occurrence and Diversity of Potential “Lignan Building Blocks” in Nature Chapter 03 Monomeric Phenylpropanoid (C6C3) and Lignan (C6C3 Dimeric) Natural Products in Plants, Bacteria, Fungi and Animals: Structural Diversity and Chemotaxonomy Chapter 04 Dirigent Protein Roadmap to Lignans and Other Vascular Plant Phenol Classes Chapter 05 8–8′-Lignan Biosynthesis Roadmap Chapter 06 8–2′-, 8–3′- (8–5′-) and 8–O–4′-Linked Lignan Biosynthesis Roadmap Chapter 07 Allyl/Propenyl Phenol Biosynthesis and C9/C9′ Deoxygenation Roadmap Chapter 08 8–8′- and 8–7′-Nor-lignan Biosynthesis Roadmap Chapter 09 Roadmap to “Mixed Biochemical Pathway” Lignans Chapter 10 Oligomeric Lignan Diversity in Planta: A Biochemical Roadmap for the Future Chapter 11 Lignan Chirality Roadmap: A Scientific Art in Danger of Being Lost?
Norman G. Lewis currently holds positions of Regents Professor and Eisig-Tode Distinguished Professor, Institute of Biological Chemistry, at Washington State University. He is Regional Editor of Phytochemistry. He has received numerous forms of recognition including: election to Corresponding Fellow of the Royal Society of Edinburgh, FRSE, Scotland’s National Academy of Science and Letters; Fellow of the American Society for Plant Biologists (ASPB); Fellow of the American Association for the Advancement of Science (AAAS), Life Member of the Phytochemical Society for North America (PSNA), and Fellow, International Academy of Wood Science (IAWS). He also holds a Fulbright Distinguished Professor Fellowship (Science without Borders) to Brazil for 2014/2015. He has held many leadership positions in various learned societies, such as President of the American Society of Gravitational and Space Biology (ASGSB) and President, PSNA, as well as responsibilities/offices with the American Chemical Society and other professional organizations. He serves on several editorial boards, federal and international grant review panels, and scientific advisory boards worldwide. Laurence Davin is a Senior Research Scientist Faculty in the Institute of Biological Chemistry, Washington State University, Pullman, WA, USA. Dr. Davin’s research activities include support as co-Principal Investigator from funding through U.S. DOE, NASA, NIH, NSF, USDA/USDA NIFA, as well as from Lewis B. and Dorothy Cullman, Thomas G. and Anita Hargrove and Arthur M. and Katie Eisig-Tode Foundations. She received her BSc and PhD degrees in Plant Biochemistry/Physiology from l’ Université Paul Sabatier, Toulouse and was awarded a post-doctoral appointment at the National Research Council (Saskatoon) of Canada’s Plant Biotechnology Institute in the late Ted Underhill’s Laboratory, where she focused on glucosinolate biogenesis. This was followed by a Research Associate appointment at Virginia Tech, prior to joining the WSU faculty ranks.