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Marine Natural Products (marine + natural_products)

Distribution by Scientific Domains
Chemistry100%

Selected Abstracts

Bioorganic studies on marine natural products,diverse chemical structures and bioactivities

THE CHEMICAL RECORD, Issue 5 2006
Daisuke Uemura
Abstract The discovery of new molecules contributes to the development of basic scientific concepts, leads to valuable drug-oriented compounds, and suggests possible new pharmacological reagents. Newly discovered substances can even be responsible for the creation of new scientific fields. Due to the radically different habitats of marine organisms, several notable examples of secondary metabolites from marine organisms have been isolated. Two of the most remarkable properties of these compounds are their structural and physiological diversities. These bioactive compounds are candidates for drugs or biological probes for physiological studies. Palytoxin is a polyol compound that shows extreme acute toxicity. Halichondrins are remarkable antitumor macrolides from sponge. Pinnatoxins, potent shellfish poisons, cause food poisoning. This paper describes bioorganic studies on such newly discovered wonders of nature. Several bioactive marine alkaloids and important substances involved in dynamic ecological systems are also described. © 2006 The Japan Chemical Journal Forum and Wiley Periodicals, Inc. Chem Rec 6: 235,248; 2006: Published online in Wiley InterScience (www.interscience.wiley.com) DOI 10.1002/tcr.20087 [source]

Molecular Editing and Biological Evaluation of Amphidinolide X and Y

CHEMISTRY - A EUROPEAN JOURNAL, Issue 16 2009
Alois Fürstner Prof.
Abstract Scarce and precious: A collection of compounds with deep-seated structural "point mutations" within the framework of the marine natural products amphidinolide X and Y was prepared by "diverted total synthesis". The resulting products provided first insights into the cytotoxicity profile of these extremely scarce macrolides. Deliberate deviations from the previously described total syntheses of amphidinolide X (1) and Y (2) allowed a collection of seven designed analogues of these extremely scarce marine natural products to be obtained. These fully synthetic "natural product-like" compounds enabled first insights into the previously unknown structure,activity relationships governing this series. Although the average cytotoxicity is moderate, it was found that certain bladder, colon and prostate cancer cell lines are fairly sensitive, and that the best synthetic analogues are more active than the natural products themselves. The syntheses rely on the 9-MeO-9-BBN variant of the Suzuki coupling for the formation of the carbon frameworks, as well as on Yamaguchi lactonization reactions for the cyclization of the macrocyclic rings. [source]

An Efficient Total Synthesis of Optically Active Tetrodotoxin,from,Levoglucosenone

CHEMISTRY - AN ASIAN JOURNAL, Issue 1-2 2006
Daisuke Urabe
Abstract Tetrodotoxin, a toxic principal of puffer-fish poisoning, is one of the most famous marine natural products, and has been known as a formidable synthetic target in synthesis owing to its multifunctional structure and unusual chemical properties. From the perspective of supplying tetrodotoxin derivatives such as labeled molecules for biochemical research, we have completed our second total synthesis of tetrodotoxin from a synthetic intermediate for 11-deoxytetrodotoxin, which was previously prepared from levoglucosenone as a chiral starting material in this laboratory. This paper discloses the details of the total synthesis with special reference to significant influences on the neighboring functional groups found in the installation of guanidine. The established route should allow us to prepare the tetrodotoxin-related compounds required for biochemical studies. [source]

Marine Drugs , Macrolactins

CHEMISTRY & BIODIVERSITY, Issue 9 2008
Xiao-Ling Lu
Abstract The increasing demands for new lead compounds in pharmaceutical and agrochemical industries have driven scientists to search for new bioactive natural products. Marine microorganisms are rich sources of novel, bioactive secondary metabolites, and have attracted much attention of chemists, pharmacologists, and molecular biologists. This mini-review mainly focuses on macrolactins, a group of 24-membered lactone marine natural products, aiming at giving an overview on their sources, structures, biological activities, as well as their potential medical applications. [source]