New Tide of Natural Product Chemistry
Herausgegeben:Ishikawa, Hayato; Takayama, Hiromitsu
New Tide of Natural Product Chemistry
Herausgegeben:Ishikawa, Hayato; Takayama, Hiromitsu
- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
This book highlights recent research and advances in natural product chemistry written by promising young researchers in this field who have played a central role for recent innovative advancements.
The book consists of seventeen chapters covering novel bioactive natural products, uncovering life phenomena with natural products, biosynthesis of natural products, total synthesis of complex natural products by innovative strategies, and drug discovery using natural products. Each chapter begins with a brief and easy-to-understand introduction, then presents the cutting-edge research in each…mehr
Andere Kunden interessierten sich auch für
- Modern Natural Product Synthesis37,99 €
- Yongxian ChengNovel Plant Natural Product Skeletons103,99 €
- Bioassay Methods in Natural Product Research and Drug Development161,99 €
- Modern Natural Product Synthesis55,99 €
- Lars Bohlin / Jan G. Bruhn (Hgg.)Bioassay Methods in Natural Product Research and Drug Development278,99 €
- Christopher T WalshNatural Product Biosynthesis135,99 €
- Marco F. SchmidtChemical Biology80,24 €
-
-
-
This book highlights recent research and advances in natural product chemistry written by promising young researchers in this field who have played a central role for recent innovative advancements.
The book consists of seventeen chapters covering novel bioactive natural products, uncovering life phenomena with natural products, biosynthesis of natural products, total synthesis of complex natural products by innovative strategies, and drug discovery using natural products. Each chapter begins with a brief and easy-to-understand introduction, then presents the cutting-edge research in each individual specialty.
This book is not only a practical and essential reference resource for natural product chemists, medicinal chemists, synthetic organic chemists, biochemists, pharmacologists, as well as the pharmaceutical and biotechnological industries, but is also a useful guide to understanding new and emerging trends in this field.
The book consists of seventeen chapters covering novel bioactive natural products, uncovering life phenomena with natural products, biosynthesis of natural products, total synthesis of complex natural products by innovative strategies, and drug discovery using natural products. Each chapter begins with a brief and easy-to-understand introduction, then presents the cutting-edge research in each individual specialty.
This book is not only a practical and essential reference resource for natural product chemists, medicinal chemists, synthetic organic chemists, biochemists, pharmacologists, as well as the pharmaceutical and biotechnological industries, but is also a useful guide to understanding new and emerging trends in this field.
Produktdetails
- Produktdetails
- Verlag: Springer / Springer Nature Singapore / Springer, Berlin
- Artikelnr. des Verlages: 978-981-99-1713-6
- 2023
- Seitenzahl: 392
- Erscheinungstermin: 20. Juni 2023
- Englisch
- Abmessung: 241mm x 160mm x 26mm
- Gewicht: 823g
- ISBN-13: 9789819917136
- ISBN-10: 9819917131
- Artikelnr.: 67570771
- Verlag: Springer / Springer Nature Singapore / Springer, Berlin
- Artikelnr. des Verlages: 978-981-99-1713-6
- 2023
- Seitenzahl: 392
- Erscheinungstermin: 20. Juni 2023
- Englisch
- Abmessung: 241mm x 160mm x 26mm
- Gewicht: 823g
- ISBN-13: 9789819917136
- ISBN-10: 9819917131
- Artikelnr.: 67570771
Hayato Ishikawa received his Bachelor's degree in Pharmaceutical Science from the Tokyo University of Pharmacy and Life Science in 1999. He received a Ph.D. degree from the Chiba University under the supervision of Professor Hiromitsu Takayama and Professor Norio Aimi in 2004. After postdoctoral work (2004-2006) with Professor Dale L. Boger in The Scripps Research Institute, he was promoted to the rank of assistant professor at the same institute (2006-2007). In 2007, he moved to the Tokyo University of Science as assistant professor. In 2011, he moved to the Kumamoto University and was promoted to associate professor. And he promoted to full professor at Kumamoto University in 2018. He joined the Faculty of Pharmaceutical Sciences, Chiba University in 2021 as full professor. He is a recipient of the Incentive Award in Synthetic Organic Chemistry, Japan (2013), Thieme Chemistry Journal Award (2013), and Chemist Award BCA from MSD Life Science Foundation (2016). His research focuses onthe natural product chemistry including isolation, structure elucidation and total synthesis. Hiromitsu Takayama received his Bachelor's degree in Pharmaceutical Science from Chiba University in 1977 and his PhD from the same university in 1982. After completing postdoctoral work (1982-1984) with Professor Ekkehard Winterfeldt (Hannover University, Germany) courtesy of the financial support from the Alexander von Humboldt Foundation, he joined the research group at Toyama Medical and Pharmaceutical University as a research associate. He joined the Faculty of Pharmaceutical Sciences, Chiba University in 1986, and was promoted to associate professor in 1994 and to full professor at Chiba University Graduate School of Pharmaceutical Sciences in 2004. He has been an emeritus Professor at Chiba University since 2020. He is a recipient of the Pharmaceutical Society of Japan Award for Divisional Scientific Promotions (2004), The Japanese Society of Pharmacognosy Award (2015), andThe Pharmaceutical Society of Japan Award (2018). His research interests include the survey, total synthesis, and medicinal chemistry of biologically active natural products.
Exploring Novel Bioactive Natural Products and Uncovering Life Phenomena with Natural Products.- Synthetic Biology-based Natural Product Discovery.- Sarco/Endoplasmic Reticulum Ca2+-ATPase (SERCA) Inhibitors Isolated from Subtropical Marine Cyanobacteria in Japan.- Marine Natural Products Targeting Tumor Microenvironment.- Chemical Biology Studies on Aplyronine A, A PPI-inducing Antitumor Macrolide from Sea Hare.- Chemical Synthesis and Immunological Functions of Bacterial Lipid A for Vaccine Adjuvant Development and Bacterial-Host Chemical Ecology Research.- Uncovering Biosynthesis of Natural Products.- Dissecting Biosynthesis of Natural Products Toward Drug Discovery.- A New Trend in Biosynthetic Studies of Natural Products: The Bridge between the Amino Acid Sequence Data and the Chemical Structure.- Biosynthesis of beta-Amino Acid-containing Macrolactam Polyketides.- Total Synthesis of Complex Natural Products by Innovative Strategies.- Synthetic Approach Toward the Structural Elucidation of Marine Natural Product Symbiodinolide.- Collective Synthesis of Monoterpenoid Indole Alkaloids Using Bioinspired Strategies.- Total Syntheses of Bioactive Oxacyclic Natural Products.- Total Syntheses of Densely Oxygenated Natural Products by Radical-based Decarbonylative Convergent Assembly.- Nucleophilic Addition to Amides Toward Efficient Total Synthesis of Complex Alkaloids.- Equilibrium-controlled Stereoselective Sequential Cyclizations Enabled Concise Total Synthesis of Complex Indole Alkaloid, Tronocarpine.- New Approach for Drug Discovery using Natural Products.- High-throughput Searches for Natural Products as Aggregation Modulators of Amyloidogenic Proteins.- Discovery of Natural Product Analogues with Altered Activities by a High throughput Strategy.- Development of Novel Ligands that Modulate Innate-like T Cells.
Exploring Novel Bioactive Natural Products and Uncovering Life Phenomena with Natural Products.- Synthetic Biology-based Natural Product Discovery.- Sarco/Endoplasmic Reticulum Ca2+-ATPase (SERCA) Inhibitors Isolated from Subtropical Marine Cyanobacteria in Japan.- Marine Natural Products Targeting Tumor Microenvironment.- Chemical Biology Studies on Aplyronine A, A PPI-inducing Antitumor Macrolide from Sea Hare.- Chemical Synthesis and Immunological Functions of Bacterial Lipid A for Vaccine Adjuvant Development and Bacterial-Host Chemical Ecology Research.- Uncovering Biosynthesis of Natural Products.- Dissecting Biosynthesis of Natural Products Toward Drug Discovery.- A New Trend in Biosynthetic Studies of Natural Products: The Bridge between the Amino Acid Sequence Data and the Chemical Structure.- Biosynthesis of β-Amino Acid-containing Macrolactam Polyketides.- Total Synthesis of Complex Natural Products by Innovative Strategies.- Synthetic Approach Toward the Structural Elucidation of Marine Natural Product Symbiodinolide.- Collective Synthesis of Monoterpenoid Indole Alkaloids Using Bioinspired Strategies.- Total Syntheses of Bioactive Oxacyclic Natural Products.- Total Syntheses of Densely Oxygenated Natural Products by Radical-based Decarbonylative Convergent Assembly.- Nucleophilic Addition to Amides Toward Efficient Total Synthesis of Complex Alkaloids.- Equilibrium-controlled Stereoselective Sequential Cyclizations Enabled Concise Total Synthesis of Complex Indole Alkaloid, Tronocarpine.- New Approach for Drug Discovery using Natural Products.- High-throughput Searches for Natural Products as Aggregation Modulators of Amyloidogenic Proteins.- Discovery of Natural Product Analogues with Altered Activities by a High throughput Strategy.- Development of Novel Ligands that Modulate Innate-like T Cells.
Exploring Novel Bioactive Natural Products and Uncovering Life Phenomena with Natural Products.- Synthetic Biology-based Natural Product Discovery.- Sarco/Endoplasmic Reticulum Ca2+-ATPase (SERCA) Inhibitors Isolated from Subtropical Marine Cyanobacteria in Japan.- Marine Natural Products Targeting Tumor Microenvironment.- Chemical Biology Studies on Aplyronine A, A PPI-inducing Antitumor Macrolide from Sea Hare.- Chemical Synthesis and Immunological Functions of Bacterial Lipid A for Vaccine Adjuvant Development and Bacterial-Host Chemical Ecology Research.- Uncovering Biosynthesis of Natural Products.- Dissecting Biosynthesis of Natural Products Toward Drug Discovery.- A New Trend in Biosynthetic Studies of Natural Products: The Bridge between the Amino Acid Sequence Data and the Chemical Structure.- Biosynthesis of beta-Amino Acid-containing Macrolactam Polyketides.- Total Synthesis of Complex Natural Products by Innovative Strategies.- Synthetic Approach Toward the Structural Elucidation of Marine Natural Product Symbiodinolide.- Collective Synthesis of Monoterpenoid Indole Alkaloids Using Bioinspired Strategies.- Total Syntheses of Bioactive Oxacyclic Natural Products.- Total Syntheses of Densely Oxygenated Natural Products by Radical-based Decarbonylative Convergent Assembly.- Nucleophilic Addition to Amides Toward Efficient Total Synthesis of Complex Alkaloids.- Equilibrium-controlled Stereoselective Sequential Cyclizations Enabled Concise Total Synthesis of Complex Indole Alkaloid, Tronocarpine.- New Approach for Drug Discovery using Natural Products.- High-throughput Searches for Natural Products as Aggregation Modulators of Amyloidogenic Proteins.- Discovery of Natural Product Analogues with Altered Activities by a High throughput Strategy.- Development of Novel Ligands that Modulate Innate-like T Cells.
Exploring Novel Bioactive Natural Products and Uncovering Life Phenomena with Natural Products.- Synthetic Biology-based Natural Product Discovery.- Sarco/Endoplasmic Reticulum Ca2+-ATPase (SERCA) Inhibitors Isolated from Subtropical Marine Cyanobacteria in Japan.- Marine Natural Products Targeting Tumor Microenvironment.- Chemical Biology Studies on Aplyronine A, A PPI-inducing Antitumor Macrolide from Sea Hare.- Chemical Synthesis and Immunological Functions of Bacterial Lipid A for Vaccine Adjuvant Development and Bacterial-Host Chemical Ecology Research.- Uncovering Biosynthesis of Natural Products.- Dissecting Biosynthesis of Natural Products Toward Drug Discovery.- A New Trend in Biosynthetic Studies of Natural Products: The Bridge between the Amino Acid Sequence Data and the Chemical Structure.- Biosynthesis of β-Amino Acid-containing Macrolactam Polyketides.- Total Synthesis of Complex Natural Products by Innovative Strategies.- Synthetic Approach Toward the Structural Elucidation of Marine Natural Product Symbiodinolide.- Collective Synthesis of Monoterpenoid Indole Alkaloids Using Bioinspired Strategies.- Total Syntheses of Bioactive Oxacyclic Natural Products.- Total Syntheses of Densely Oxygenated Natural Products by Radical-based Decarbonylative Convergent Assembly.- Nucleophilic Addition to Amides Toward Efficient Total Synthesis of Complex Alkaloids.- Equilibrium-controlled Stereoselective Sequential Cyclizations Enabled Concise Total Synthesis of Complex Indole Alkaloid, Tronocarpine.- New Approach for Drug Discovery using Natural Products.- High-throughput Searches for Natural Products as Aggregation Modulators of Amyloidogenic Proteins.- Discovery of Natural Product Analogues with Altered Activities by a High throughput Strategy.- Development of Novel Ligands that Modulate Innate-like T Cells.