Okadaic acid

DTX5c, a new OA sulphate ester derivative from cultures of Prorocentrum belizeanum

Animals / Water soluble polymers / Toxicon / Molecular Structure / Okadaic acid

Chemical Defenses: From Compounds to Communities

Invertebrates / Marine Conservation / Consumer Behavior / Cyanobacteria / Pheromones / Biodiversity / Food Web Dynamics / Marine Turtles / Biological Sciences / Animals / Natural Product / Coral Reef / Community Structure / Terpenes / Marine Toxins / Ecosystem / Ecological Impact / Harmful Algal bloom / Mechanism of action / Community Composition / Food Chain / Chemical Defense / Marine Natural Product / Okadaic acid / Biodiversity / Food Web Dynamics / Marine Turtles / Biological Sciences / Animals / Natural Product / Coral Reef / Community Structure / Terpenes / Marine Toxins / Ecosystem / Ecological Impact / Harmful Algal bloom / Mechanism of action / Community Composition / Food Chain / Chemical Defense / Marine Natural Product / Okadaic acid

Chemical defenses: from compounds to communities

Invertebrates / Marine Conservation / Consumer Behavior / Cyanobacteria / Pheromones / Biodiversity / Food Web Dynamics / Marine Turtles / Biological Sciences / Animals / Natural Product / Coral Reef / Community Structure / Terpenes / Marine Toxins / Ecosystem / Ecological Impact / Harmful Algal bloom / Mechanism of action / Community Composition / Food Chain / Chemical Defense / Marine Natural Product / Okadaic acid / Biodiversity / Food Web Dynamics / Marine Turtles / Biological Sciences / Animals / Natural Product / Coral Reef / Community Structure / Terpenes / Marine Toxins / Ecosystem / Ecological Impact / Harmful Algal bloom / Mechanism of action / Community Composition / Food Chain / Chemical Defense / Marine Natural Product / Okadaic acid

DTX5c, a new OA sulphate ester derivative from cultures of Prorocentrum belizeanum

DSP / Animals / Water soluble polymers / Toxicon / Molecular Structure / Okadaic acid
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