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New edition of the reprint Fungal pigments: Chapters titles: PART 1. Investigation on various chemical classes of fungal pigments: Genomic Analysis and Assessment of Melanin Synthesis in Amorphotheca resinae by Jeong-Joo Oh et al.; Fungal Melanins and Applications in Healthcare, Bioremediation and Industry by Ellie Rose Mattoon et al.; Recent Findings in Azaphilone Pigments by Lúcia P. S. Pimenta et al.; Characterization of a Biofilm Bioreactor Designed for the Single-Step Production of Aerial Conidia and Oosporein by Beauveria bassiana PQ2 by Héctor Raziel Lara-Juache et al.; PART 2. Molecular characterization: Molecular Characterization of Fungal Pigments by Miriam S. Valenzuela-Gloria et al.; PART 3. Biological properties: Seven New Cytotoxic and Antimicrobial Xanthoquinodins from Jugulospora vestita by Lulu Shao et al.; PART 4. Toxicity assessment and safety evaluation of fungal pigments: Safety Evaluation of Fungal Pigments for Food Applications by Rajendran Poorniammal et al.; Preliminary Examination of the Toxicity of Spalting Fungal Pigments: A Comparison between Extraction Methods by Badria H. Almurshidi et al.; PART 5. Use of by-products or waste for industrial production of fungal pigments: Production of Bio-Based Pigments from Food Processing Industry By-Products Using Aspergillus carbonarius by Ezgi Bezirhan Arikan et al.; PART 6. Prospective aspects and brainstorming: Does Structural Color Exist in True Fungi? by Juliet Brodie et al.; Fungal Biomarkers Stability in Mars Regolith Analogues after Simulated Space and Mars-like Conditions by Alessia Cassaro et al.

Research & information: general --- Biology, life sciences --- antimicrobial activity --- cytotoxicity --- secondary metabolites --- Sordariales --- xanthoquinodins --- Aspergillus carbonarius --- bioconversion --- food processing industry by-product valorization --- filamentous fungi --- bio-based pigment --- Myxomycetes --- iridescence --- pigmentation --- evolution of color --- mycelia --- cell organization --- living photonics --- spalting --- fungal pigment --- xylindein --- dramada --- Chlorociboria aeruginosa --- Chlorociboria aeruginascens --- Scytalidium cuboideum --- natural pigment --- natural colorant --- Amorphotheca resinae --- fungal melanin --- bioinformatics --- melanin pigments --- fungi pigments --- types --- structure --- molecular elucidation --- industrial microbiology --- melanin --- fungi --- radioprotection --- biotechnology --- fungal pigments --- natural pigments --- azaphilones --- production --- biotechnological tools --- non-mycotoxigenic strains --- regulatory issues --- Beauveria bassiana --- biological control --- oosporein --- spore production --- mycotoxins --- safety evaluation --- pigment toxicity --- spectroscopy --- Mars exploration --- life-detection --- pigments --- nucleic acids --- n/a

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Health and wellness are among the core segments of quickly-changing consumer goods, with ever-increasing health consciousness among consumers around the globe. Functional foods and beverages, formulated from natural ingredients with targeted physiological functions, are at the heart of research and development in the food industry. The application of modern biotechnology methods in the food and agricultural industry is expected to alleviate hunger today and help avoid mass starvation in the future. Modern food biotechnology has in recent years been transforming existing methods of food production and preparation far beyond the traditional scope. Currently, at the global level, food biotechnological research has focused on traditional process optimization (starter culture development, enzymology, fermentation), food safety and quality, nutritional quality improvement, functional foods, and food preservation (improving shelf life). The fermentation of substrates considered for human consumption has been applied for centuries as a process that enhances shelf life, sensory properties, and nutritional value. Special emphasis has also been given to newly growing concepts, such as functional foods and probiotics. The application of biotechnology in the food sciences has led to an increase in food production and has enhanced the quality and safety of food.

Research & information: general --- Biology, life sciences --- Microbiology (non-medical) --- Canavalia gladiata --- triglyceride --- glycerol --- AMP-activated protein kinase --- peroxisome proliferator-activated receptor --- obesity --- synbiotics --- Lactobacillus --- Bifidobacterium --- inulin --- fructooligosaccharide --- functional food --- milk fermentation --- flaxseed --- active acidity --- yogurt bacteria --- apparent viscosity --- syneresis --- bioactive compounds --- probiotics --- intestinal permeability --- cholesterol --- jamun --- nutrition --- antioxidant --- inflammation --- cancer --- radioprotection --- diabetes --- hyperlipidemia --- value addition --- packaging --- yoghurt --- green tea --- functional product --- sensory quality --- physical properties --- vitamins --- GABA --- phenolic compounds --- organosulfur compounds --- bioactive peptides --- biogenic amines --- stress --- galacto-oligosaccharides --- oligofructose --- inflammatory bowel disease --- Cheonggukjang --- dextran sulfate sodium (DSS)-induced colitis --- protective effect --- gajami-sikhae --- MALDI-TOF MS --- microbial community --- culture-dependent method --- fermentation --- identification --- fermentation temperature --- Godulbaegi kimchi --- antioxidant activity --- antimicrobial activity --- kimchi quality --- artificial neural network --- functional beverage --- partial least-squares regression --- teff-based substrate --- 2D-fluorescence spectroscopy

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Health and wellness are among the core segments of quickly-changing consumer goods, with ever-increasing health consciousness among consumers around the globe. Functional foods and beverages, formulated from natural ingredients with targeted physiological functions, are at the heart of research and development in the food industry. The application of modern biotechnology methods in the food and agricultural industry is expected to alleviate hunger today and help avoid mass starvation in the future. Modern food biotechnology has in recent years been transforming existing methods of food production and preparation far beyond the traditional scope. Currently, at the global level, food biotechnological research has focused on traditional process optimization (starter culture development, enzymology, fermentation), food safety and quality, nutritional quality improvement, functional foods, and food preservation (improving shelf life). The fermentation of substrates considered for human consumption has been applied for centuries as a process that enhances shelf life, sensory properties, and nutritional value. Special emphasis has also been given to newly growing concepts, such as functional foods and probiotics. The application of biotechnology in the food sciences has led to an increase in food production and has enhanced the quality and safety of food.

Canavalia gladiata --- triglyceride --- glycerol --- AMP-activated protein kinase --- peroxisome proliferator-activated receptor --- obesity --- synbiotics --- Lactobacillus --- Bifidobacterium --- inulin --- fructooligosaccharide --- functional food --- milk fermentation --- flaxseed --- active acidity --- yogurt bacteria --- apparent viscosity --- syneresis --- bioactive compounds --- probiotics --- intestinal permeability --- cholesterol --- jamun --- nutrition --- antioxidant --- inflammation --- cancer --- radioprotection --- diabetes --- hyperlipidemia --- value addition --- packaging --- yoghurt --- green tea --- functional product --- sensory quality --- physical properties --- vitamins --- GABA --- phenolic compounds --- organosulfur compounds --- bioactive peptides --- biogenic amines --- stress --- galacto-oligosaccharides --- oligofructose --- inflammatory bowel disease --- Cheonggukjang --- dextran sulfate sodium (DSS)-induced colitis --- protective effect --- gajami-sikhae --- MALDI-TOF MS --- microbial community --- culture-dependent method --- fermentation --- identification --- fermentation temperature --- Godulbaegi kimchi --- antioxidant activity --- antimicrobial activity --- kimchi quality --- artificial neural network --- functional beverage --- partial least-squares regression --- teff-based substrate --- 2D-fluorescence spectroscopy

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The close relationship between food intake and health promotion is not new; it dates back to Hippocrates’s famous “let food be your medicine and medicine be your food”, which is still as timely as ever. In recent years, some scientific evidence has supported this statement, showing that dietary plant extracts, or bioactive compounds isolated therefrom, are able to prevent or slow down the progression of chronic and degenerative diseases, making them particularly interesting from a nutraceutical point of view. On the other hand, extensive chemical investigations of functional plant extracts’ constituents are needed to rationalize certain bioactivity, in terms of efficacy and safety.

Technology: general issues --- antioxidant effect --- lectins --- nanoliposomes --- purity grade --- quercetin --- trans-aconitic acid --- anthocyanins --- antioxidant activity --- bioactive compounds --- colorants --- fruit juices --- polyphenols --- wild blueberry --- antidiabetic --- cardioprotective --- functional foods --- nutraceuticals --- okra --- phytotherapy --- Jamaican cherry --- fermentation --- Lactobacillus plantarum --- antioxidant --- food nutrition improvement --- okra mucilage --- okra polysaccharides --- biopolymer --- α-amylase activity --- α-glucosidase activity --- antidiabetic activity --- biodegradable --- edible film --- release --- pectin --- sodium caseinate --- oil oxidation --- waste biomass --- coffee --- Coffea arabica --- phenolic --- free-radical scavenging --- iron chelating --- cytotoxic --- plant secondary metabolites --- antiviral activity --- food --- noroviruses --- MNV --- FCV --- yogurt --- betalains --- encapsulation --- lyophilization --- ionizing radiation --- radioprotection --- flavonoids --- plant extracts --- oxidative stress --- zebrafish embryo --- carotenoids --- Trapa bispinosa Roxb. --- polyphenol --- ellagitannin --- gallotannin --- α-glucosidase inhibitor --- advanced glycation end products (AGEs) --- antiglycation effect --- LC/UV/ESIMS analysis --- anti-diabetic --- abscisic acid --- Diabetes mellitus --- molecular docking --- phytohormones --- spray drying --- vegetable powders --- beetroot --- natural colorants --- violet betalain pigments --- bioactivity --- medicinal plants --- wild fruits --- industrial crops --- PCA --- HCA --- phenols --- TEAC --- roasting --- GAE --- antioxidant effect --- lectins --- nanoliposomes --- purity grade --- quercetin --- trans-aconitic acid --- anthocyanins --- antioxidant activity --- bioactive compounds --- colorants --- fruit juices --- polyphenols --- wild blueberry --- antidiabetic --- cardioprotective --- functional foods --- nutraceuticals --- okra --- phytotherapy --- Jamaican cherry --- fermentation --- Lactobacillus plantarum --- antioxidant --- food nutrition improvement --- okra mucilage --- okra polysaccharides --- biopolymer --- α-amylase activity --- α-glucosidase activity --- antidiabetic activity --- biodegradable --- edible film --- release --- pectin --- sodium caseinate --- oil oxidation --- waste biomass --- coffee --- Coffea arabica --- phenolic --- free-radical scavenging --- iron chelating --- cytotoxic --- plant secondary metabolites --- antiviral activity --- food --- noroviruses --- MNV --- FCV --- yogurt --- betalains --- encapsulation --- lyophilization --- ionizing radiation --- radioprotection --- flavonoids --- plant extracts --- oxidative stress --- zebrafish embryo --- carotenoids --- Trapa bispinosa Roxb. --- polyphenol --- ellagitannin --- gallotannin --- α-glucosidase inhibitor --- advanced glycation end products (AGEs) --- antiglycation effect --- LC/UV/ESIMS analysis --- anti-diabetic --- abscisic acid --- Diabetes mellitus --- molecular docking --- phytohormones --- spray drying --- vegetable powders --- beetroot --- natural colorants --- violet betalain pigments --- bioactivity --- medicinal plants --- wild fruits --- industrial crops --- PCA --- HCA --- phenols --- TEAC --- roasting --- GAE