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Over 70% of the Earth’s surface is covered by oceans and seas, which are massively complex and consist of diverse assemblages of life forms. Marine bacteria, fungi, and other microorganisms develop unique metabolic and physiological capabilities that enable them to survive in extreme habitats and to produce compounds that might not be produced by their terrestrial counterparts. In the last few decades, the systematic investigations of marine/marine-derived microorganisms as sources of novel biologically active agents has exponentially increased. This Special Issue will focus on aspects relating to new bioactive metabolites from marine microorganisms including the isolation, taxonomy, and/or dereplication of microorganisms and the corresponding isolation, structure elucidation, biosynthesis, and/or biological activities of the new compounds. Comprehensive topical review articles relating to marine metabolites will also be considered.

Medicine --- co-culture --- marine microbes --- natural products --- structural diversity --- biological activities --- food allergy --- deep-sea-derived viridicatol --- X-ray single crystal --- intestinal barrier --- mast cell --- calcium influx --- Chlorella --- enzymes --- lipases --- molecular modeling --- sulfated polysaccharides --- antiviral --- SARS-CoV-2 --- docking --- molecular dynamic simulations --- sea cucumber --- bioactivity --- diversity --- microorganism --- polyketides --- alkaloids --- marine-derived fungus --- Penicillium sp. --- indole-diterpenoids --- cytotoxicity --- antibacterial activity --- Leizhou Peninsula --- mangrove soil --- actinomycetia --- antimicrobial activity --- secondary metabolites --- dereplication --- metabolomics tools --- trioxacarcins --- mansouramycins --- isoquinolinequinones --- marine-derived Streptomyces sp. --- n/a

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Over 70% of the Earth’s surface is covered by oceans and seas, which are massively complex and consist of diverse assemblages of life forms. Marine bacteria, fungi, and other microorganisms develop unique metabolic and physiological capabilities that enable them to survive in extreme habitats and to produce compounds that might not be produced by their terrestrial counterparts. In the last few decades, the systematic investigations of marine/marine-derived microorganisms as sources of novel biologically active agents has exponentially increased. This Special Issue will focus on aspects relating to new bioactive metabolites from marine microorganisms including the isolation, taxonomy, and/or dereplication of microorganisms and the corresponding isolation, structure elucidation, biosynthesis, and/or biological activities of the new compounds. Comprehensive topical review articles relating to marine metabolites will also be considered.

Medicine --- co-culture --- marine microbes --- natural products --- structural diversity --- biological activities --- food allergy --- deep-sea-derived viridicatol --- X-ray single crystal --- intestinal barrier --- mast cell --- calcium influx --- Chlorella --- enzymes --- lipases --- molecular modeling --- sulfated polysaccharides --- antiviral --- SARS-CoV-2 --- docking --- molecular dynamic simulations --- sea cucumber --- bioactivity --- diversity --- microorganism --- polyketides --- alkaloids --- marine-derived fungus --- Penicillium sp. --- indole-diterpenoids --- cytotoxicity --- antibacterial activity --- Leizhou Peninsula --- mangrove soil --- actinomycetia --- antimicrobial activity --- secondary metabolites --- dereplication --- metabolomics tools --- trioxacarcins --- mansouramycins --- isoquinolinequinones --- marine-derived Streptomyces sp.

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Marine fungal natural products are well-known as the “blue gold,” as they have been promising leads for drug discovery and development. Even though marine fungi are less explored in comparison to their terrestrial counterparts, a number of useful hits have been obtained from a drug discovery perspective. Topics discussed in this book include a review on novel natural products from extremophilic fungi, secondary metabolites from deep-sea fungi; natural products from fungi in a symbiotic relationship with marine macro-organisms; and bioactive metabolites from sediment-derived fungi. Marine biologists, chemists, and pharmacologists will find the book a good reference material. The book covers various bioactive marine fungal natural products, and it is hoped that this book aids scientists explore fungal chemical diversity.

Research & information: general --- natural products --- extremophilic fungi --- biological activity --- deep-sea derived fungus --- Phialocephala sp. --- nitrogen-containing sorbicillinoids --- radical scavenging activity --- sponge-derived fungus --- Alternaria sp. --- perylenequinone derivatives --- X-ray single crystal diffraction --- cytotoxic activity --- antibacterial --- Phomopsis lithocarpus --- benzophenone derivatives --- eremophilane derivative --- aspochalasin --- tricyclic fused --- gut fungus --- cytotoxicity --- endophytic fungus --- Myrothecium sp. --- meroterpenoids --- isocoumarinoids --- α-glucosidase inhibitors --- salt-resistant plant --- Apocynum venetum --- Fusarium solani H915 --- bis-alkenoic acid esters --- fusaridioic acid A --- fusariumester A1 --- fusariumester A2 --- fusariumester B --- tea pathogenic fungi inhibitory effect --- herqueinones --- phenalenones --- Penicillium sp. --- marine-derived fungi --- adipogenesis --- anti-angiogenesis --- anti-inflammatory --- marine-derived fungus --- Aspergillus versicolor --- diketopiperazine --- anthraquinone derivatives --- Sporendonema casei --- cytotoxic activities --- antibacterial activities

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This Special Issue covers original and innovative basic research regarding the anti-inflammatory potential of several classes of secondary metabolites (i.e., polyphenols, phytosterols, proteoglycans, and polysaccharides) in manifestations of acute and chronic inflammation in both in vitro and in vivo experimental models.

laminarin --- aging --- transient cerebral ischemia --- neuroprotection --- oxidative stress --- neuroinflammation --- marine-derived fungi --- anti-inflammation --- anti-neuroinflammation --- PTP1B --- marine biocompounds --- neurodegeneration --- Alzheimer’s disease --- Parkinson’s disease --- Bacillus sp. --- proteoglycan --- macrophages --- Padina boryana --- RAW 264.7 macrophages --- Nrf2/HO-1 --- MAPK --- NF-κB --- P. oceanica --- inflammation --- pain --- CD-1 mice

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A trillion different microbial species have been evolving for some 3.5 billion years, producing ever more complex active secondary metabolites. The sea is a cauldron of a great diversity of useful and valuable compounds. This Special Issue focused on studies of marine microbe natural products for discovering compounds useful to humankind. Papers were collected that provide up-to-date information regarding the characterization of marine microbes’ metabolic diversity and the evaluation of the therapeutic potential of marine microbes’ metabolites. Most of the articles in this book deal with marine fungi, biological and chemical diversity, and their active metabolites. This may be a sign that marine fungi have been under studied to date and are perceived by many researchers as an important source of discovery in this field. A best practices guide for the isolation of marine fungi from different matrixes and their conservation is also presented. The comparison of the phylogenetic and metabolomic profiles of microalgae from different lineages provides novel insights into the potential of chemotaxonomy in marine phytoplankton, showing a good overlap of phylogenetic and chemotaxonomic signals.

thiodiketopiperazines --- Geosmithia pallida --- deep-sea-derived fungus --- antioxidant --- biological control --- ecological role --- gentisyl alcohol --- multi-gene phylogeny --- tyrosinase inhibition --- marine fungi --- isolation --- culturing --- identification --- natural products --- secondary metabolites --- isocoumarin --- tryptamine --- Botryosphaeria ramose --- antifungal activity --- carotenoids --- optimization --- red yeast --- Rhodotorula sp. --- marine-derived Aspergillus fumigatus --- spiro-heterocyclic γ-lactam --- cephalimysins --- ophiobolins --- marine fungus --- Aspergillus flocculosus --- anti-proliferation --- biosynthetic gene cluster (BGC) --- indole-diketopiperazine --- Penicillium brasilianum --- cytotoxicities --- fungal community --- phylogenetic analysis --- saltwork --- tidal flat --- chemotaxonomy --- phylogeny --- mamiellales --- galactolipids --- betaine lipids --- xanthophylls --- n/a