Trends in the discovery of new marine natural products from invertebrates over the last two decades--where and what are we bioprospecting?
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Marine Invertebrate Metabolites with Anticancer Activities: Solutions to the "Supply Problem"Marine Sponges as a Drug TreasureJellyfish Bioactive Compounds: Methods for Wet-Lab WorkBioprospecting of Marine Macrophytes Using MS-Based Lipidomics as a New ApproachMarine Natural Products from New Caledonia--A Review.Chemical Diversity and Biological Properties of Secondary Metabolites from Sea Hares of Aplysia GenusTargeted metagenomics as a tool to tap into marine natural product diversity for the discovery and production of drug candidatesMarine Drugs Regulating Apoptosis Induced by Tumor Necrosis Factor-Related Apoptosis-Inducing Ligand (TRAIL)Phylogeny drives large scale patterns in Australian marine bioactivity and provides a new chemical ecology rationale for future biodiscoveryInhibitory Effect of Aqueous Extracts from Marine Sponges on the Activity and Expression of Gelatinases A (MMP-2) and B (MMP-9) in Rat Astrocyte CulturesFrom Land to Sea; Embracing a Renewable FutureThe Porifera Ontology (PORO): enhancing sponge systematics with an anatomy ontologyThe Global Invertebrate Genomics Alliance (GIGA): developing community resources to study diverse invertebrate genomes.Development of a multilocus-based approach for sponge (phylum Porifera) identification: refinement and limitationsSpherulization as a process for the exudation of chemical cues by the encrusting sponge C. crambeSize-dependent physiological responses of shore crabs to single and repeated playback of ship noise.Identification of Tight-Binding Plasmepsin II and Falcipain 2 Inhibitors in Aqueous Extracts of Marine Invertebrates by the Combination of Enzymatic and Interaction-Based Assays.Marine microorganism-invertebrate assemblages: perspectives to solve the "supply problem" in the initial steps of drug discoveryMarine sponge derived natural products between 2001 and 2010: trends and opportunities for discovery of bioactivesBioactive compounds from macroalgae in the new millennium: implications for neurodegenerative diseases.Neuraminidase inhibitors from marine-derived actinomycete Streptomyces seoulensis.Bacterial communities of the gorgonian octocoral Pseudopterogorgia elisabethae.Marketed marine natural products in the pharmaceutical and cosmeceutical industries: tips for successIsolation and Total Synthesis of Stolonines A-C, Unique Taurine Amides from the Australian Marine Tunicate Cnemidocarpa stolonifera.Will the Increasing of Anthropogenic Pressures Reduce the Biopotential Value of Sponges?Natural products discovery needs improved taxonomic and geographic information.Gene Expression Dynamics Accompanying the Sponge Thermal Stress Response.35 Years of Marine Natural Product Research in Sweden: Cool Molecules and Models from Cold Waters.Total synthesis of zyzzyanones A-DBioactive Potential of Marine Macroalgae from the Central Red Sea (Saudi Arabia) Assessed by High-Throughput Imaging-Based Phenotypic Profiling.Bioprospecting of marine invertebrates for new natural products - a chemical and zoogeographical perspective.Biogeography and biodiscovery hotspots of macroalgal marine natural products.Phlorotannins: Towards New Pharmacological Interventions for Diabetes Mellitus Type 2.Venom present in sea anemone (Heteractis magnifica) induces apoptosis in non-small-cell lung cancer A549 cells through activation of mitochondria-mediated pathway.The effect of sea anemone (H. magnifica) venom on two human breast cancer lines: death by apoptosis.Short-term effect of elevated CO2 concentration (0.5%) on mitochondria in diploid and tetraploid black locust (Robinia pseudoacacia L.).Short, enantioselective total synthesis of chatancin.Nearly complete 28S rRNA gene sequences confirm new hypotheses of sponge evolution.Implementing sponge physiological and genomic information to enhance the diversity of its culturable associated bacteria.Effect of Oxylipins, Terpenoid Precursors and Wounding on Soft Corals' Secondary Metabolism as Analyzed via UPLC/MS and Chemometrics.
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Trends in the discovery of new marine natural products from invertebrates over the last two decades--where and what are we bioprospecting?
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2012 nî lūn-bûn
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2012 թուականի Յունուարին հրատարակուած գիտական յօդուած
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2012年の論文
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Trends in the discovery of new ...... nd what are we bioprospecting?
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Trends in the discovery of new ...... nd what are we bioprospecting?
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Trends in the discovery of new ...... nd what are we bioprospecting?
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Trends in the discovery of new ...... nd what are we bioprospecting?
@ast
Trends in the discovery of new ...... nd what are we bioprospecting?
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Trends in the discovery of new ...... nd what are we bioprospecting?
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Trends in the discovery of new ...... nd what are we bioprospecting?
@ast
Trends in the discovery of new ...... nd what are we bioprospecting?
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Trends in the discovery of new ...... nd what are we bioprospecting?
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Trends in the discovery of new ...... nd what are we bioprospecting?
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Newton C M Gomes
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10.1371/JOURNAL.PONE.0030580
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2012-01-20T00:00:00Z