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Search Results (231)

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Keywords = sulfated phenols

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18 pages, 1382 KB  
Article
Postprandial Metabolite and Antioxidant Kinetics Following Intake of a Carob Beverage in Healthy Males
by Stamatia-Angeliki Kleftaki, Thalia Tsiaka, Charalampia Amerikanou, Demetra Sigala, Aikaterini Mavroudi, Maria-Myrto Karagiorgou, Altenisa Kuci, Chara Tzavara, Vasiliki Dima, Maria Morfiadaki, Aristea Gioxari, Panagiotis Zoumpoulakis and Andriana C. Kaliora
Nutrients 2026, 18(13), 2190; https://doi.org/10.3390/nu18132190 - 5 Jul 2026
Viewed by 268
Abstract
Background/Objectives: Ceratonia siliqua L. (carob) is a rich source of bioactive compounds with potential health-promoting properties. This study investigated the kinetics of serum metabolites following the consumption of a carob beverage and evaluated associated changes in circulating antioxidant status. Methods: Fifteen apparently [...] Read more.
Background/Objectives: Ceratonia siliqua L. (carob) is a rich source of bioactive compounds with potential health-promoting properties. This study investigated the kinetics of serum metabolites following the consumption of a carob beverage and evaluated associated changes in circulating antioxidant status. Methods: Fifteen apparently healthy adult men completed an acute postprandial intervention; only male participants were included to minimize the biological variability related to sex-dependent differences in phytochemical kinetics and antioxidant responses. Participants consumed a beverage from carob pod powder (30 g) dispersed in water (200 mL). Blood samples were collected at baseline and every 30 min for 6 h following intake. Serum metabolic profiling was performed using a non-targeted liquid chromatography–time-of-flight mass spectrometry (LC-TOF-MS) approach. Antioxidant responses were assessed by measuring ferric-reducing antioxidant power (FRAP) and serum resistance to copper sulphate-induced oxidation. Results: Twenty-four putative metabolites were detected, including phenolic compounds, fatty acids, amino acids, dipeptides, monosaccharides, pyridoxine, and gut microbiota-derived metabolites. Urolithin B appeared at 30 min (28.0 ± 4.0 × 102 a.u.), while p-cresol sulfate increased from 53.3 ± 6.5 × 102 a.u. at baseline to 130.0 ± 7.0 × 102 a.u. at 30 min. FRAP values did not change significantly over time (p = 0.332), whereas oxidation lag time showed a significant time effect (p = 0.001), reaching its highest mean at 180 min (9093.5 ± 1885.1 s). Conclusions: Carob beverage consumption resulted in a diverse postprandial serum metabolite profile. Antioxidant responses appeared to be only partly explained by circulating phenolics, suggesting that additional pathways and bioactive constituents may contribute. Full article
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21 pages, 1270 KB  
Article
Seaweed Carrageenan as Promoter of Plant Growth and Elicitor of Natural Defenses Against Magnaporthe oryzae in Rice
by Jannatun Nayeema, Mahabuba Mostafa and Md. Motaher Hossain
Polysaccharides 2026, 7(3), 79; https://doi.org/10.3390/polysaccharides7030079 - 3 Jul 2026
Viewed by 535
Abstract
Rice (Oryza sativa L.) is one of the world’s major staple foods. However, its production is severely constrained by rice blast disease, caused by Magnaporthe oryzae, which leads to substantial yield losses. Conventional management relies on fungicides and chemical treatments; however, [...] Read more.
Rice (Oryza sativa L.) is one of the world’s major staple foods. However, its production is severely constrained by rice blast disease, caused by Magnaporthe oryzae, which leads to substantial yield losses. Conventional management relies on fungicides and chemical treatments; however, these methods raise concerns regarding the development of pathogen resistance and potential environmental impacts. This study evaluated carrageenan from Hypnea musciformis, collected from the coast of Saint Martin (92°19′21.28″ E and 20°37′38.12″ N), located in the Bay of Bengal, Bangladesh, as a natural plant growth promoter as well as a biocontrol agent. Carrageenan was characterized by high sulfate (19–35%) and galactose (12–18%) contents, with FT-IR confirming characteristic κ-carrageenan functional groups. Application of 15% carrageenan significantly increased the germination of seed (27%), seedling vigor (93%), shoot and root lengths (54% and 47%), and biomass compared with untreated controls. Carrageenan markedly suppressed M. oryzae, inhibiting mycelial growth (83%), reducing conidiogenesis and conidial germination, and decreasing lesion length in detached leaves and potted plants. Treated rice seedlings exhibited improved soluble sugars, photosynthetic pigments, proline, phenolic and flavonoid contents, and enhanced antioxidant enzyme activities such as CAT (catalase) and POD (peroxidase), while lowering oxidative stress markers such as H2O2 and MDA (malondialdehyde). These results demonstrate that carrageenan from H. musciformis enhances rice growth and elicits defense responses against rice blast, offering a sustainable and environmentally friendly alternative to chemical-based fungicides for integrated M. oryzae management. Full article
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54 pages, 5768 KB  
Review
From Marine Algal Bioactives to Scalable Applications: Integrating Extraction, Mechanisms, Delivery, Safety, and Commercial Translation
by Beckham Oninku and Gulnihal Ozbay
J. Mar. Sci. Eng. 2026, 14(13), 1155; https://doi.org/10.3390/jmse14131155 - 23 Jun 2026
Viewed by 412
Abstract
Marine algae are emerging as important biological resources for the discovery and development of bioactive compounds with applications across food, pharmaceutical, cosmetic, agricultural, aquaculture, environmental, and biotechnological systems. This review critically synthesizes current knowledge on macroalgae and microalgae as sources of sulfated polysaccharides, [...] Read more.
Marine algae are emerging as important biological resources for the discovery and development of bioactive compounds with applications across food, pharmaceutical, cosmetic, agricultural, aquaculture, environmental, and biotechnological systems. This review critically synthesizes current knowledge on macroalgae and microalgae as sources of sulfated polysaccharides, carotenoids, phenolic compounds, proteins, peptides, vitamins, mycosporine-like amino acids, and polyunsaturated fatty acids. Emphasis is placed on the relationship between algal source, cultivation conditions, compound structure, extraction strategy, formulation, and biological activity. Key mechanisms of action are discussed, including antioxidant defense, modulation of inflammatory signaling, inhibition of metabolic enzymes, antimicrobial and antiviral activity, interactions with the gut microbiota, and regulation of cell-cycle-related pathways. Recent progress in biotechnological production, green extraction, purification, analytical characterization, bioaccessibility, bioavailability, and delivery systems is evaluated in the context of real product development. The review further highlights the use of algal bioactives in functional foods, nutraceuticals, pharmaceuticals, cosmeceuticals, aquafeeds, crop biostimulants, and environmental remediation. Current limitations, including biomass variability, compound instability, limited human validation, regulatory complexity, safety concerns, and scale-up costs, are also addressed. Overall, marine algae provide a sustainable and multifunctional platform for developing bioactive products when discovery, processing, validation, and commercialization are integrated. Full article
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14 pages, 5070 KB  
Article
Multimodal Optical and Ratiometric ATR-FTIR Discrimination of Mixed Aerosol Components Using pH-Responsive Methylcellulose–Phenol Red Films
by Chinmaya Mutalik, Rachel Redmann, Sarah Bose, Bryan Tassin, Amy Phou and Chad J. Roy
Sensors 2026, 26(12), 3839; https://doi.org/10.3390/s26123839 - 17 Jun 2026
Viewed by 344
Abstract
Breath aerosol analysis requires low-cost sensing substrates capable of capturing aerosolized biomolecular components while preserving chemically interpretable readouts. Here, methylcellulose–phenol red (MCPR) films are evaluated as multimodal sensing substrates using model bioaerosols consisting of sodium sulfate, bovine serum albumin (BSA), and polystyrene latex [...] Read more.
Breath aerosol analysis requires low-cost sensing substrates capable of capturing aerosolized biomolecular components while preserving chemically interpretable readouts. Here, methylcellulose–phenol red (MCPR) films are evaluated as multimodal sensing substrates using model bioaerosols consisting of sodium sulfate, bovine serum albumin (BSA), and polystyrene latex particles under acidic, neutral, and alkaline pH conditions. ATR-FTIR spectroscopy revealed inverse pH-dependent trends in sulfate (1000–1100 cm−1) and protein amide (1500–1700 cm−1) spectral regions. A sulfate-to-protein AUC ratio increased from 0.86 ± 0.01 at pH 4 to 3.56 ± 0.32 at pH 10, demonstrating ratiometric compositional discrimination of ionic and proteinaceous aerosol fractions. UV–Vis spectroscopy showed pH-dependent λmax shifts from 432 to 556 nm, confirming the preservation of phenol red optical responsiveness after aerosol exposure. FTIR-derived ratio metrics correlated linearly with optical responses, indicating coupled vibrational and optical sensing behavior. SEM-EDS analysis of methylcellulose capture films confirmed deposition of sulfate, proteinaceous, and particulate aerosol components, supporting the platform’s suitability for multimodal spectroscopic sensing. These findings establish MCPR films as integrated capture-and-sensing substrates capable of coupling optical pH responsiveness with label-free vibrational analysis, supporting future development of low-cost breath-relevant aerosol sensing platforms. Full article
(This article belongs to the Topic New Advances in Multispectral Imaging Technology)
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30 pages, 449 KB  
Review
Kappaphycus alvarezii-Based Bioinputs for Sustainable Agriculture: Advances in Biofertilizers, Biostimulants and Controlled-Release Technologies
by Natália Fernandes Rodrigues, Danielle França de Oliveira Torchia, Tadeu Augusto van Tol de Castro, Rafael Gomes da Mota Gonçalves, Domingos Sávio Neto and Andrés Calderín García
Sustainability 2026, 18(12), 5863; https://doi.org/10.3390/su18125863 - 8 Jun 2026
Viewed by 331
Abstract
The red macroalga Kappaphycus alvarezii, widely cultivated for carrageenan extraction, has emerged as a promising blue economy resource of bioactive compounds for sustainable agriculture. However, knowledge regarding the composition, mechanisms of action, agronomic effects, and large-scale applicability of K. alvarezii-based products [...] Read more.
The red macroalga Kappaphycus alvarezii, widely cultivated for carrageenan extraction, has emerged as a promising blue economy resource of bioactive compounds for sustainable agriculture. However, knowledge regarding the composition, mechanisms of action, agronomic effects, and large-scale applicability of K. alvarezii-based products remains fragmented. Therefore, this review provides an overview of the potential of K. alvarezii and its by-products for the development of agricultural bioinputs, addressing species diversity, cultivation practices, chemical characterization of bioactive compounds, and their agronomic applications. Literature evidence indicates that K. alvarezii biomass is rich in sulfated polysaccharides, phenolic compounds, photoprotective pigments, fatty acids, and metabolites with hormone-like activity, which have been associated with enhanced plant growth, increased photosynthetic efficiency, and improved tolerance to biotic and abiotic stresses, resulting in productivity gains in crops such as rice, maize, sugarcane, soybean, and vegetables. In addition, biomass represents a potential source of potassium and micronutrients that can complement conventional fertilization. Recent technological advances, as well as regulatory aspects and challenges related to the integration of these products into the global agricultural market, are also discussed. Overall, the evidence highlights the potential of K. alvarezii as a renewable resource for the development of innovative agricultural bioinputs, as biofertilizers and plant biostimulants. Full article
20 pages, 4802 KB  
Article
Study on the Synthesis of Micron-Sized Plate-like TS-1 Using Sodium Persulfate as a Morphology-Regulating Additive
by Shengjie Zhu, Xiaomin Zhang, Lei Dong, Yangyang Yuan, Xiuyun Ma and Lei Xu
Catalysts 2026, 16(6), 517; https://doi.org/10.3390/catal16060517 - 3 Jun 2026
Viewed by 344
Abstract
Micron-sized plate-like TS-1 zeolites are designed to combine the mass transfer efficiency of MFI straight channels along the b-axis by maximizing the exposure of these channel openings on the a-c crystal surface with the recoverability advantage of micrometer-scale crystals. In this study, micron-sized [...] Read more.
Micron-sized plate-like TS-1 zeolites are designed to combine the mass transfer efficiency of MFI straight channels along the b-axis by maximizing the exposure of these channel openings on the a-c crystal surface with the recoverability advantage of micrometer-scale crystals. In this study, micron-sized plate-like TS-1 was successfully synthesized by introducing sodium persulfate (Na2S2O8) as an inorganic morphology-regulating additive. Through comparative experiments with ammonium persulfate, potassium persulfate, sodium carbonate, and sodium sulfate, the regulatory role of persulfate anion (S2O82−), rather than the sodium cation, was identified. By varying the Na2S2O8/SiO2 molar ratio from 0.03 to 0.07, plate-like crystals with a- and c-axis dimensions in the micrometer range and b-axis thickness of 400–1100 nm were obtained. This morphology-regulation strategy was shown to be universal in both steam-assisted crystallization (SAC) and hydrothermal synthesis methods. Furthermore, post-treatment with tetrapropylammonium hydroxide (TPAOH) was applied to introduce additional textural porosity and construct a hierarchical pore structure. The optimized sample (TS-1-0.06SP-HT-P) achieved a total surface area of 444 m2 g−1 and a pore volume of 0.28 cm3 g−1. The catalytic performance of the hierarchically porous samples was evaluated using 1-hexene epoxidation and phenol hydroxylation as model reactions. Catalytic stability tests using phenol hydroxylation (cat. 300 mg, phenol 36 mmol, n(phenol):n(H2O2) = 2, H2O 4 mL, 353 K, 1 h) showed that TS-1-0.06SP-HT-P maintained stable performance over five consecutive cycles, with phenol conversion remaining at 20.8–22.3% and hydroquinone plus catechol selectivity at 73.0–78.1%. This work provides a feasible approach for the plate-like morphology regulation and performance optimization of TS-1 zeolites. Full article
(This article belongs to the Section Catalytic Materials)
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27 pages, 18914 KB  
Article
First Results on the Production of Natural Colorants by Amazonian Freshwater Fungi: Influence of Carbon Sources and Biological Potential
by Anne Terezinha Fernandes de Souza, Dorothy Ívila de Melo Pereira, Cleudiane Pereira de Andrade Negreiros, Italo Pereira de Lima, Rayssa Souza dos Santos, Liss Stone de Holanda Rocha, Yuliana Padrón-Antonio, Cleiton Fantin, António M. Jordão and Patrícia Melchionna Albuquerque
Processes 2026, 14(10), 1652; https://doi.org/10.3390/pr14101652 - 20 May 2026
Viewed by 449
Abstract
The increasing demand for safer and environmentally sustainable products has intensified the search for natural alternatives to synthetic dyes. Filamentous fungi are promising sources of natural pigments due to their metabolic diversity and the feasibility of large-scale production. In this study, filamentous fungi [...] Read more.
The increasing demand for safer and environmentally sustainable products has intensified the search for natural alternatives to synthetic dyes. Filamentous fungi are promising sources of natural pigments due to their metabolic diversity and the feasibility of large-scale production. In this study, filamentous fungi isolated from Amazonian freshwater environments were evaluated for their potential to produce natural pigment-associated metabolites under different nutritional conditions. Forty-five fungal isolates were screened in solid media and subsequently cultivated in submerged fermentation using three media: potato dextrose broth supplemented with yeast extract (BD + YE); malt extract broth (ME); and yeast extract–sucrose broth supplemented with magnesium sulfate (YES). Among the 39 pigment-producing isolates, seven were selected for further investigation. Sucrose favored the highest absorbance values of pigment extracts, particularly for isolates identified as Talaromyces amestolkiae. In addition, the extract of T. amestolkiae TA10P5-3 exhibited the highest absorbance value (6.83 abs. units at 400 nm) when cultivated in YES medium, indicating stronger chromophore-associated spectral signals. This extract also showed antimicrobial activity against Pseudomonas aeruginosa (625 μg/mL), Staphylococcus epidermidis (312 μg/mL), and Candida tropicalis (625 μg/mL). Finally, the TA10P5-3 extract presented high total phenolic content (246.30 mg GAE/g) and antioxidant activity (EC50 = 5470 μg/mL). These findings highlight Amazonian freshwater fungi as promising sources of natural pigments with potential industrial applications. Full article
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66 pages, 6635 KB  
Review
Genus Myricaria, the Smaller Sister of Tamarisks—Ornamental Value, Phytochemistry, Biological Activities and Traditional Uses
by Justyna Makowska-Wąs, Danuta Sobolewska, Karolina Grabowska, Dagmara Wróbel-Biedrawa and Irma Podolak
Life 2026, 16(5), 832; https://doi.org/10.3390/life16050832 - 19 May 2026
Viewed by 1399
Abstract
The genus Myricaria is one of the four genera within the Tamaricaceae family. It comprises 13 species distributed across Eurasia. Phytochemical studies carried out on Myricaria plants revealed the presence of flavonoids (including rare, sulfated derivatives), tannins, phenolic acid derivatives, triterpenoids, steroids, and [...] Read more.
The genus Myricaria is one of the four genera within the Tamaricaceae family. It comprises 13 species distributed across Eurasia. Phytochemical studies carried out on Myricaria plants revealed the presence of flavonoids (including rare, sulfated derivatives), tannins, phenolic acid derivatives, triterpenoids, steroids, and alkanediols. Studies on the extracts and compounds isolated from the described to date have demonstrated various biological activities, including antioxidant, anti-inflammatory, cytotoxic, antimicrobial, analgesic, antinociceptive, cholinergic, and glucose absorption reducing properties. This work provides a comprehensive overview of the botanical and detailed phytochemical characteristics, ornamental value, pharmacological properties, and traditional uses of the Myricaria genus representatives. The article fills a longstanding gap in the literature as no other integrative description is currently available. Full article
(This article belongs to the Special Issue Bioactive Chemical Constituents of Ornamental Plants)
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30 pages, 7122 KB  
Article
New Cross-Linked Polymeric Materials Modified with Antimicrobial Compounds in Relation to Their Biological Activities and Biodegradation by the Laccase-Producing Fungus Cerrena unicolor
by Karolina Kiełczewska-Klim, Dawid Stefaniuk, Marcin Grąz, Rafał Typek, Bożena Pawlikowska-Pawlęga, Anna Pawlik, Beata Podkościelna and Magdalena Jaszek
Biomolecules 2026, 16(5), 731; https://doi.org/10.3390/biom16050731 - 15 May 2026
Viewed by 457
Abstract
This study characterizes novel cross-linked polymeric composites based on bisphenol A glycerolate dimethacrylate (BPA.DM) as the primary matrix, incorporating 1-vinyl-2-pyrrolidone (NVP) or 2-hydroxyethyl methacrylate (HEMA) as active diluents, and modified with antimicrobial agents: zinc oxide (ZnO), copper(II) sulfate (CuSO4), nanosilver (Ag), [...] Read more.
This study characterizes novel cross-linked polymeric composites based on bisphenol A glycerolate dimethacrylate (BPA.DM) as the primary matrix, incorporating 1-vinyl-2-pyrrolidone (NVP) or 2-hydroxyethyl methacrylate (HEMA) as active diluents, and modified with antimicrobial agents: zinc oxide (ZnO), copper(II) sulfate (CuSO4), nanosilver (Ag), and benzethonium chloride (BEN). Release kinetics of active components into water and LH medium were measured over 20 days using HPLC (bisphenol A, benzethonium chloride), GF AAS (Cu, Zn, Ag), and GC–MS, revealing highest silver release from HEMA+Ag composites (1671 µg/L), substantial copper release from HEMA (354 mg/L) and NVP (319 mg/L) systems, while benzethonium chloride exhibited significantly lower migration. The effect of NVP- and HEMA-containing composites on the metabolism of the Cerrena unicolor was also assessed. Scanning electron microscopy (SEM) and optical profilometry confirmed extensive surface degradation by C. unicolor mycelium, manifesting as cracks, increased porosity, and altered surface across HEMA- and NVP-based composites after 21-day incubation. Biochemical analysis of the fungus post-culture liquids demonstrated that both composite types markedly enhanced extracellular laccase activity at all tested time points (7, 14, 21 days), with ethanol-sterilized samples inducing a slower-migrating laccase isoform identified via zymography. These materials also increased total protein concentration and superoxide anion radical levels while reducing phenolic compounds relative to controls. The findings demonstrate that antimicrobial-modified BPA.DM composites not only undergo controlled biodegradation by C. unicolor but crucially serve as potential laccase inducers, highlighting their dual utility in bioactive material design and fungal enzyme biotechnology. Full article
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19 pages, 2334 KB  
Article
Assessing the Photosynthetic Activity of Phytoplankton in Kalmius River Under the Conditions of an Urban Environment
by Sergey Chufitskiy, Besarion Meskhi, Victoria Shevchenko, Mary Odabashyan, Lusine Gukasyan, Arkady Mirzoyan and Denis Kozyrev
Diversity 2026, 18(5), 297; https://doi.org/10.3390/d18050297 - 15 May 2026
Viewed by 276
Abstract
Pollution of rivers and large water bodies, including reservoirs, by wastewater from various sources is one of the most critical issues in the Donetsk region, requiring continuous monitoring and assessment of surface water quality. The research aims to assess the state of the [...] Read more.
Pollution of rivers and large water bodies, including reservoirs, by wastewater from various sources is one of the most critical issues in the Donetsk region, requiring continuous monitoring and assessment of surface water quality. The research aims to assess the state of the Kalmius River under anthropogenic pressure, as well as to find correlations between the species composition, photosynthetic activity of phytoplankton, and the degree of water pollution. This study presents the results of biomonitoring of the Kalmius River and its tributaries within Donetsk City, which are under intense anthropogenic pressure. Pollution of the river channel by phenol, anionic surfactants, Ferrum ions, chlorides, and sulfates was identified. Based on the combinatorial pollution index, the water in the Kalmius River and its tributaries can be classified as polluted. The pigment composition of water samples was analyzed, and the species composition of river phytoplankton was determined. Dominant species include Chlorella vulgaris Beij., Dictyosphaerium pulchellum H.C.Wood, Scenedesmus quadricauda Brébisson, and Oscillatoria agardhii M.A.Gomont. Photosynthetic activity of the river’s algal flora was assessed based on chlorophyll fluorescence induction curves of natural phytoplankton. A correlation was established between surface water pollution levels and changes in the photosynthetic apparatus of microalgae cells. A strong negative correlation was found between the content of nitrate nitrogen in the aquatic environment and the photosynthetic activity, pigment composition, and abundance of the main dominant forms of phytoplankton, particularly the microalgae of the genus Cyclotella. The data obtained shows that the Kalmius River’s pollution has a significant impact on phytoplankton biodiversity, leading to the growth of cyanobacteria species. Full article
(This article belongs to the Section Freshwater Biodiversity)
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32 pages, 1519 KB  
Review
Pharmacological Properties and Phytochemical Profile of Sargassum filipendula Extracts
by Varun Jaiswal and Hae-Jeung Lee
Mar. Drugs 2026, 24(5), 153; https://doi.org/10.3390/md24050153 - 26 Apr 2026
Viewed by 1734
Abstract
Sargassum filipendula is a widely distributed, edible brown alga that possesses a rich nutritional profile. Several studies have demonstrated that the components/extracts of S. filipendula (SFE) possess diverse pharmacological potential against both infectious and non-infectious diseases. These include antibacterial and antifungal properties, as [...] Read more.
Sargassum filipendula is a widely distributed, edible brown alga that possesses a rich nutritional profile. Several studies have demonstrated that the components/extracts of S. filipendula (SFE) possess diverse pharmacological potential against both infectious and non-infectious diseases. These include antibacterial and antifungal properties, as well as antioxidant, anti-aging, anti-osteoporosis, antiviral, antiprotozoal, and immunomodulatory effects. Furthermore, SFE has shown significant anticancer activity across various malignant cell lines. The unique phytochemical profile of this species, characterized by the presence of sulfated polysaccharides (primarily fucoidan), carotenoids, phenols, glycolipids, and phlorotannins, serves as the foundation for these wide-ranging pharmacological activities. Studies have demonstrated that SFE can modulate key molecular targets, such as glycogen synthase kinase-3 beta, and activate the mitochondrial-dependent apoptosis pathway, providing a robust mechanistic basis for the observed pharmacological activities. Recent evaluations of nutritional parameters and techno-functional properties confirm the rich nutritional profile of S. filipendula, supporting its application in a diverse range of food products. Despite its diverse bioactive phytochemicals and broad efficacy against infectious and non-infectious diseases, research on S. filipendula remains largely restricted to in vitro preclinical studies. The lack of a comprehensive compilation of its pharmacological activities, phytochemical profiles, and molecular targets hinders its development as a therapeutic agent. This review aims to bridge this gap by compiling the existing knowledge, identifying research deficiencies, particularly the lack of in vivo data and safety assessments for high-dose therapeutic applications, while proposing suggestions for transitioning S. filipendula into a viable therapeutic or functional supplement. Full article
(This article belongs to the Section Marine Pharmacology)
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29 pages, 7293 KB  
Article
Synergistic Virus Neutralizing Activities of European Black Elderberry Fruit Extract and Iota-Carrageenan Against SARS-CoV-2, Influenza A Virus and Respiratory Syncytial Virus
by Christian Setz, Melanie Setz, Pia Rauch, Oskar Schleicher, Stephan Plattner, Andreas Grassauer and Ulrich Schubert
Nutrients 2026, 18(8), 1205; https://doi.org/10.3390/nu18081205 - 10 Apr 2026
Viewed by 1052
Abstract
Background/Objectives: Seasonal waves of respiratory viruses—including SARS-CoV-2, influenza A virus (IAV), and respiratory syncytial virus (RSV)—continue to pose a global health burden and highlight the need for antiviral agents that are effective, safe, broadly active, affordable, and widely accessible. Current interventions are limited [...] Read more.
Background/Objectives: Seasonal waves of respiratory viruses—including SARS-CoV-2, influenza A virus (IAV), and respiratory syncytial virus (RSV)—continue to pose a global health burden and highlight the need for antiviral agents that are effective, safe, broadly active, affordable, and widely accessible. Current interventions are limited by the need for their early administration, the risk of resistance, their costs, and the restricted availability in large parts of the world. For certain natural products, such as European black elderberry (Sambucus nigra L.) fruit extract (ElderCraft®; EC) and the seaweed-derived sulfated polymer iota-carrageenan (IC), antiviral activities against respiratory viruses, particularly IAV and SARS-CoV-2, have previously been shown. Here, we assessed the antiviral activity of IC and an anthocyanin-standardized EC extract against SARS-CoV-2, IAV, and RSV, either as monotherapy or in multiple-dose combinations. Methods: MDCKII cells were infected with IAVPR8, human Calu-3 lung epithelial cells with the SARS-CoV-2 Omicron variant, and HEp-2 cells with RSV (A2 strain). Inhibitors were administered either by pre-incubation of cell-free virions prior to infection or, in separate time-of-addition experiments, during or post-infection. Viral replication was quantified by qRT-PCR or intracellular immunostaining. Cytotoxicity was evaluated using a neutral red uptake assay. Results: Most intriguingly, both EC and IC are able to neutralize virions derived from SARS-CoV-2, IAV, or RSV extracellularly in a dose-dependent manner. Notably, EC and IC alone exhibited strong anti-RSV activity, which was not reported previously. Most importantly, combined treatment with IC and EC caused a pronounced synergistic antiviral effect against the tested viruses, as confirmed by the Bliss independence model, without any detectable impact on cell viability. Finally, solutions prepared from matrix-standardized mono- or combi-lozenges, containing IC and/or EC in high or low doses, reproduced the antiviral and synergistic combination effects observed with the pure compounds. Conclusions: In summary, these findings support further development of EC and IC as a topically accessible, virion-neutralizing combination (e.g., lozenges) to provide additional protection against major respiratory viruses and potentially strengthen pandemic preparedness. Full article
(This article belongs to the Section Phytochemicals and Human Health)
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18 pages, 2039 KB  
Article
Impact of Surface Water Pollution on Biodiversity and Photosynthetic Activity of Phytoplankton in the Kalmius River
by Sergey Chufitskiy, Besarion Meskhi, Anastasiya Olshevskaya, Victoria Shevchenko, Mary Odabashyan, Denis Kozyrev, Arkady Mirzoyan, Anna Vershinina and Lusine Gukasyan
Diversity 2026, 18(3), 188; https://doi.org/10.3390/d18030188 - 20 Mar 2026
Cited by 1 | Viewed by 796
Abstract
In order to determine the condition of drinking water sources in Donetsk Region and assess potential threats related to water pollution from mining and industrial wastewater, it is extremely important to monitor surface waters, which should include an assessment of the condition of [...] Read more.
In order to determine the condition of drinking water sources in Donetsk Region and assess potential threats related to water pollution from mining and industrial wastewater, it is extremely important to monitor surface waters, which should include an assessment of the condition of gydrobionts. Additionally, declining surface water quality in the region contributes to pollution in the coastal waters of the Sea of Azov. This study presents the monitoring results for the southern part of the Kalmius River basin. Analysis of water samples revealed contamination by phenol, sulfates, chlorides, anionic surfactants, iron, elevated water hardness, and significant exceedances of suspended solids and total dissolved solids. The iron concentration at the Kalmius River estuary reached 0.81 mg∙L−1, exceeding the permissible limit by 2.5-fold. Sulfate and total dissolved solids concentrations attained 1673 and 160 mg∙L−1, respectively. Changes in the species composition of phytoplankton were observed in response to variations in iron, manganese, and phenol concentrations in the water. Specifically, elevated iron levels led to increased abundance of the metal-sensitive species Cyclotella meneghiniana Kützing. Principal component analysis of the data revealed a relationship between increased phenol concentrations in the aquatic environment and a mean 20% reduction in phytoplankton cell photosynthetic activity, as well as the influence of manganese ions on cell abundance and photopigment content. Thus, phytoplankton cell fluorescence, alongside shifts in species composition and photosynthetic pigment content, can serve as an additional indicator of surface water pollution by iron and phenol. Full article
(This article belongs to the Section Freshwater Biodiversity)
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23 pages, 6401 KB  
Article
Jabuticaba (Myrciaria cauliflora) Modulates Intestinal Inflammation, Liver Homeostasis, and Brain Gene Expression Along the Gut–Liver–Brain Axis in a DSS-Induced In Vivo Model
by Stephanie Michelin Santana Pereira, Vinícius Parzanini Brilhante de São José, Melissa Y. Huang, Lívya Alves Oliveira, Kelly Aparecida Dias, Júlia D’Almeida Francisquini, Italo Tuler Perrone, Ceres Mattos Della Lucia and Elad Tako
Nutrients 2026, 18(6), 903; https://doi.org/10.3390/nu18060903 - 12 Mar 2026
Cited by 1 | Viewed by 1242
Abstract
Background/Objectives: Dextran sulfate sodium (DSS) is widely used to induce intestinal injury, reducing intestinal barrier integrity and thus contributing to systemic inflammation and oxidative stress, which may affect liver homeostasis and central nervous system function. In this context, the intake of phenolic compounds [...] Read more.
Background/Objectives: Dextran sulfate sodium (DSS) is widely used to induce intestinal injury, reducing intestinal barrier integrity and thus contributing to systemic inflammation and oxidative stress, which may affect liver homeostasis and central nervous system function. In this context, the intake of phenolic compounds and anthocyanins from fruits such as jabuticaba has gained attention due to their antioxidant and anti-inflammatory properties. This study evaluated the effects of jabuticaba in the form of freeze-dried whole fruit, freeze-dried peel, and microencapsulated peel extract on DSS-induced damage to the gut–liver–brain axis in an in ovo model. Methods: Fertile eggs were assigned to five groups: water, DSS, DSS plus whole jabuticaba (WJ), DSS plus jabuticaba peel (JP), and DSS plus microencapsulated jabuticaba peel (JM). Duodenal, colon, and liver gene expressions; and histomorphometry, cecal microbiota, and brain gene expressions were evaluated at hatch. Results: DSS administration increased NF-κB expression and reduced MUC-2 in the duodenum, induced colonic inflammation, altered cecal microbiota, and caused hepatic oxidative stress, evidenced by elevated iNOS and enlarged fat globules, while reducing brain BDNF levels. Jabuticaba treatments mitigated intestinal, hepatic, and neural damage by reducing inflammatory markers; enhancing MUC-2, ZO-2, JAM-2, and claudin-1 expression; increasing villus area and goblet cell numbers; normalizing CAT and SOD activities in the liver; decreasing COX-2; increasing dopamine; and restoring BDNF in the brain. Conclusions: This study demonstrates that jabuticaba exerts protective effects along the gut–liver–brain axis, highlighting its potential as a functional food to support intestinal, hepatic, and brain health. Full article
(This article belongs to the Special Issue Anti-Inflammatory Effects of Plant-Based Diets on Metabolic Health)
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18 pages, 2275 KB  
Article
Phytochemical Analysis of Plant Nanophyton iliense U.P. Pratov from Kazakhstan Using LC-MS
by Kudaibergenova Moldir K., Datkhayev Ubaidilla M., Bharathi Avula, Kumar Katragunta, Kiran Kumar Tatapudi, Jennyfer A. Aldana-Mejía, Ikhlas A. Khan, Akhtayeva Nursulu Z., Mukhametzhan Ayala S., Kiyekbayeva Lashyn N. and Samir A. Ross
Molecules 2026, 31(6), 918; https://doi.org/10.3390/molecules31060918 - 10 Mar 2026
Cited by 1 | Viewed by 1341
Abstract
To date, the phytochemical composition of the aerial parts of Nanophyton iliense U.P. Pratov has not been comprehensively investigated. In the present study, qualitative metabolite profiling of the methanolic extract of the aerial parts was performed using liquid chromatography coupled with diode-array detection [...] Read more.
To date, the phytochemical composition of the aerial parts of Nanophyton iliense U.P. Pratov has not been comprehensively investigated. In the present study, qualitative metabolite profiling of the methanolic extract of the aerial parts was performed using liquid chromatography coupled with diode-array detection and quadrupole time-of-flight mass spectrometry (LC-DAD-QToF-MS) operating in both positive and negative electrospray ionization modes. A total of 81 metabolites were tentatively identified based on accurate mass measurements, MS/MS fragmentation patterns obtained in all-ion MS/MS mode, and comparison with previously reported literature data. The detected compounds included hydroxycinnamic acid amides, phenolic acids, flavonoids (including glycosides), amino acids, organic acids, sulfated derivatives, and nucleosides. Among them, the flavonoid narcissin (isorhamnetin-3-O-rutinoside) was isolated from the extract, and its structure was confirmed by 1H and 13C NMR spectroscopy supported by COSY, HSQC, and HMBC experiments. Additionally, a compound with the molecular formula C17H14O5 was detected; however, its structure could not be conclusively established based on the available spectroscopic data and is therefore reported as an unidentified metabolite. The present study provides the first systematic qualitative characterization of the metabolite profile of N. iliense and establishes a foundation for future quantitative and bioactivity-oriented investigations of this species. Full article
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