Screen LibraryNatural products chemistry. Vol. 2 /
Natural Products Chemistry, Volume 2 covers the introductory survey, history, structure, synthesis, reactions, and biosynthesis of natural products such as the fatty acid derivatives and related compounds; sugars (carbohydrates); carboaromatic and related compounds; alkaloids; and non-alkaloidal nit...
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| Corporate Authors: | |
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| Group Author: | |
| Published: |
Kodansha : Academic Press,
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| Publisher Address: | Tokyo : |
| Publication Dates: |
[1975] ©1975 |
| Literature type: | eBook |
| Language: | English |
| Series: |
Kodansha scientific books
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| Subjects: | |
| Online Access: |
http://www.sciencedirect.com/science/book/9780125139021 |
| Summary: |
Natural Products Chemistry, Volume 2 covers the introductory survey, history, structure, synthesis, reactions, and biosynthesis of natural products such as the fatty acid derivatives and related compounds; sugars (carbohydrates); carboaromatic and related compounds; alkaloids; and non-alkaloidal nitrogen compounds. The text also describes the aspects of natural products photochemistry. |
| Carrier Form: | 1 online resource : illustrations. |
| Bibliography: | Includes bibliographical references and index. |
| ISBN: |
9781483218878 1483218872 |
| Index Number: | QD415 |
| CLC: | Q5 |
| Contents: |
Front Cover; Natural Products Chemistry; Copyright Page; List of Contributors; Acknowledgements; Table of Contents; Data Conventions Used in this Book; CHAPTER 7. FATTY ACID DERIVATIVES AND RELATED COMPOUNDS; 7.1 INTRODUCTION; 7.2 STRUCTURE OF DICTYOPTERENES; 7.3 SULFUR CONTAINING LIPIDS FROM DICTYOPTERIS; 7.4 STRUCTURE OF LAUREATIN AND RELATED COMPOUNDS; 7.5 INSECT SEX PHEROMONES; 7.6 STRUCTURE AND SYNTHESIS OF BOMBYKOL; 7.7 STRUCTURE OF DISPARLURE; 7.8 STRUCTURE AND SYNTHESIS OF MUSCALURE; 7.9 SYNTHESIS OF BREVICOMIN; 7.10 ALLENIC ESTER FROM MALE DRIED BEAN BEETLE. 7.11 SYNTHESIS OF PROPYLURE7.12 STRUCTURE OF OUDENONE; 7.13 SYNTHESIS OF cis-JASMONE; 7.14 SYNTHESIS OF METHYL JASMONATE; 7.15 SYNTHESIS OF RETHROLONES; 7.16 STRUCTURE OF BREFELDIN-A; 7.17 BIOSYNTHESIS OF PROSTAGLANDINS; 7.18 PROSTAGLANDIN DERIVATIVES IN CORAL; 7.19 STRUCTURE OF PROSTAGLANDIN-E1; 7.20 SYNTHESIS OF PROSTAGLANDINS; 7.21 STRUCTURE OF LACTOBACILLIC ACID; 7.22 SYNTHESIS OF STERCULIC ACID; 7.23 STRUCTURES OF MYCOLIC ACIDS; 7.24 BIOSYNTHESIS OF ACETYLENIC COMPOUNDS; 7.25 POLYACETYLENIC HYDROCARBON; 7.26 THIOPHENE DERIVATIVES OF POLYACETYLENES; 7.27 NATURALLY OCCURING CUMULENES. 7.28 polyacetylenes with cyclic enol ether systems7.29 polyacetylenes with spiroketal linkages; 7.30 biosynthesis of phenyl acetylenes; 7.31 synthesis of exaltone and muscone; 7.32 structure of rubratoxins; 7.33 rearrangement of glauconic acid; 7.34 synthesis of byssochlamic acid; 7.35 biosynthesis of glauconic acid; 7.36 structure and synthesis of pyrenophorin; 7.37 structure of tetranactin; 7.38 structures of the polyether antibiotics; 7.39 biosynthesis of the macrolides; 7.40 structure of methymycin, a 12-membered macrolide, ; 7.41 structure of erythromycin, a 14-membered macrolide, 7.42 structure of leucomycin, a 16-membered macrolide7.43 structure of venturicidine, a 20-membered macrolide; 7.44 structure of tetrin, a 26-membered macrolide; 7.45 structure of chainin, a 28-membered macrolide; 7.46 structure of flavofungin, a 32-membered macrolide; 7.47 structure of axenomycin, a 34-membered macrolide; 7.48 structures of amphotericin and nystatin, 38- membered macrolides; chapter 8. sugars (carbohydrates); 8.1 introduction; 8.2 structure of d-glucose; 8.3 structure and synthesis of sucrose; 8.4 structure of l-ascorbic acid (vitamin c). 8.5 synthesis of ascorbic acid (vitamin c)8.6 structure of everheptose; 8.7 structure of ganglioside g1; 8.8 structure of piptoside; 8.9 structure of senegin-iv; 8.10 structure of novobiocin; 8.11 structure of streptomycin; 8.12 structure of neomycin c; 8.13 synthesis of kasugamycin; 8.14 structure of lincomycin; 8.15 synthesis of lincomycin; 8.16 structure and synthesis of coenzyme a; 8.17 structure of nucleocidin; 8.18 structure and synthesis of aristeromycin; 8.19 structure of polyoxin a; 8.20 synthesis of polyoxin j; 8.21 structure of amicetin and synthesis of plicacetin. |