Prospection of the quality and bioactive potential of the seedless watermelon

Microorganisms serve as attractive resources, owing to their ability to synthesize structurally-diverse substanceswith various bioactivities. Within the Bacteria domain, members of the genus Streptomyces have demonstrated remarkableability to produce clinically useful, secondary metabolites such as anticancer, antioxidants, antivirals and antibacterials.Streptomyces pluripotens MUSC 135T was isolated as novel strain from mangrove forest in Malaysia. This strain exhibitedbroad spectrum bacteriocin against several pathogens including methicillin-resistant Staphylococcus aureus (MRSA) strainATCC BAA-44, Salmonella typhi ATCC 19430T and Aeromonas hydrophila ATCC 7966T. Thus, the strain was selected forwhole genome sequencing as an attempt to explore its bioactive potential. Here we report the first complete genome of S.pluripotens MUSC 135T genome which comprise of 7.35 Mbp with G+C content of 69.9 %. A total of 6,404 open readingframes (ORFs) were predicted, along with 18 rRNA and 69 tRNA genes. Using bacteriocin mining tool, BAGEL detectedeights gene clusters associated with bacteriocin production including lanthipeptides and linear azol(in)e-containing peptides(LAPs). Members of Streptomyces have contributed greatly towards improving lives, particularly against deadly infectionsand chronic diseases. The availability of S. pluripotens MUSC 135T genome sequence has opened new window for drugdiscovery, particularly for effective drugs against harmful pathogens such as MRSA and certainly deserves further detailedstudy.

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The Role of High-Resolution Analytical Techniques in the Development of Functional Foods

International Journal of Molecular Sciences ◽

10.3390/ijms22063220 ◽

2021 ◽

Vol 22 (6) ◽

pp. 3220

Author(s):

Álvaro Fernández-Ochoa ◽

Francisco Javier Leyva-Jiménez ◽

María De la Luz Cádiz-Gurrea ◽

Sandra Pimentel-Moral ◽

Antonio Segura-Carretero

Keyword(s):

High Resolution ◽

Functional Foods ◽

Intervention Studies ◽

Analytical Techniques ◽

Nutritional Intervention ◽

Bioactive Properties ◽

Metabolic Reactions ◽

Bioactive Potential ◽

Endogenous Metabolites

The approaches based on high-resolution analytical techniques, such as nuclear magnetic resonance or mass spectrometry coupled to chromatographic techniques, have a determining role in several of the stages necessary for the development of functional foods. The analyses of botanical extracts rich in bioactive compounds is one of the fundamental steps in order to identify and quantify their phytochemical composition. However, the compounds characterized in the extracts are not always responsible for the bioactive properties because they generally undergo metabolic reactions before reaching the therapeutic targets. For this reason, analytical techniques are also applied to analyze biological samples to know the bioavailability, pharmacokinetics and/or metabolism of the compounds ingested by animal or human models in nutritional intervention studies. In addition, these studies have also been applied to determine changes of endogenous metabolites caused by prolonged intake of compounds with bioactive potential. This review aims to describe the main types and modes of application of high-resolution analytical techniques in all these steps for functional food development.

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Phytochemical Composition and Biological Activities of Scorzonera Species

International Journal of Molecular Sciences ◽

10.3390/ijms22105128 ◽

2021 ◽

Vol 22 (10) ◽

pp. 5128

Author(s):

Karolina Lendzion ◽

Agnieszka Gornowicz ◽

Krzysztof Bielawski ◽

Anna Bielawska

Keyword(s):

Biological Activities ◽

Folk Medicine ◽

Quinic Acid ◽

Hepatoprotective Activity ◽

Phytochemical Composition ◽

Starting Point ◽

Microbial Infections ◽

Bacteria And Fungi ◽

Bioactive Potential

The genus Scorzonera comprises nearly 200 species, naturally occurring in Europe, Asia, and northern parts of Africa. Plants belonging to the Scorzonera genus have been a significant part of folk medicine in Asia, especially China, Mongolia, and Turkey for centuries. Therefore, they have become the subject of research regarding their phytochemical composition and biological activity. The aim of this review is to present and assess the phytochemical composition, and bioactive potential of species within the genus Scorzonera. Studies have shown the presence of many bioactive compounds like triterpenoids, sesquiterpenoids, flavonoids, or caffeic acid and quinic acid derivatives in extracts obtained from aerial and subaerial parts of the plants. The antioxidant and cytotoxic properties have been evaluated, together with the mechanism of anti-inflammatory, analgesic, and hepatoprotective activity. Scorzonera species have also been investigated for their activity against several bacteria and fungi strains. Despite mild cytotoxicity against cancer cell lines in vitro, the bioactive properties in wound healing therapy and the treatment of microbial infections might, in perspective, be the starting point for the research on Scorzonera species as active agents in medical products designed for miscellaneous skin conditions.

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Bioactive potential of natural biomaterials: identification, retention and assessment of biological properties

Signal Transduction and Targeted Therapy ◽

10.1038/s41392-021-00512-8 ◽

2021 ◽

Vol 6 (1) ◽

Author(s):

Kieran Joyce ◽

Georgina Targa Fabra ◽

Yagmur Bozkurt ◽

Abhay Pandit

Keyword(s):

Tissue Engineering ◽

Therapeutic Potential ◽

Biological Properties ◽

Biological Assessment ◽

Cross Linking ◽

Natural Polymers ◽

Drug Delivery Device ◽

Biomedical Device ◽

Wide Range ◽

Bioactive Potential

AbstractBiomaterials have had an increasingly important role in recent decades, in biomedical device design and the development of tissue engineering solutions for cell delivery, drug delivery, device integration, tissue replacement, and more. There is an increasing trend in tissue engineering to use natural substrates, such as macromolecules native to plants and animals to improve the biocompatibility and biodegradability of delivered materials. At the same time, these materials have favourable mechanical properties and often considered to be biologically inert. More importantly, these macromolecules possess innate functions and properties due to their unique chemical composition and structure, which increase their bioactivity and therapeutic potential in a wide range of applications. While much focus has been on integrating these materials into these devices via a spectrum of cross-linking mechanisms, little attention is drawn to residual bioactivity that is often hampered during isolation, purification, and production processes. Herein, we discuss methods of initial material characterisation to determine innate bioactivity, means of material processing including cross-linking, decellularisation, and purification techniques and finally, a biological assessment of retained bioactivity of a final product. This review aims to address considerations for biomaterials design from natural polymers, through the optimisation and preservation of bioactive components that maximise the inherent bioactive potency of the substrate to promote tissue regeneration.

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The Bioactive Potential of Trawl Discard: Case Study from a Crinoid Bed Off Blanes (North-Western Mediterranean)

Marine Drugs ◽

10.3390/md19020083 ◽

2021 ◽

Vol 19 (2) ◽

pp. 83

Author(s):

Alfredo García-de-Vinuesa ◽

Montserrat Demestre ◽

Arnau Carreño ◽

Josep Lloret

Keyword(s):

Bioactive Compounds ◽

Fish Habitat ◽

Antibacterial Properties ◽

Marine Species ◽

Western Mediterranean ◽

Bioactive Molecules ◽

Added Value ◽

Future Research ◽

Trawl Survey ◽

Bioactive Potential

Although knowledge of the bioactive compounds produced by species inhabiting coastal waters is increasing, little is known about the bioactive potential produced by marine species occupying deeper habitats with high biodiversity and productivity. Here, we investigate about the bioactive potential of molecules produced by species that inhabit the crinoid beds, a poorly known essential fish habitat affected by trawling, wherein large amounts of commercial and noncommercial species are discarded. Based on a trawl survey conducted in 2019, 14% of the 64 species discarded on crinoid beds produce molecules with some type of bioactive potential, including; soft corals (Alcyonium palmatum); tunicates (Ascidia mentula); bony fish, such as horse mackerel (Trachurus trachurus); European hake (Merluccius merluccius); and chondrichthyans, such as small-spotted catshark (Scyliorhinus canicula). In addition, 16% of the discarded species had congeneric species that produce compounds with bioactive potential, indicating that such species might also possess similar types of bioactive molecules. Molecules with antioxidant, antitumour, antihypertensive, and antibacterial properties were the most frequent, which could provide the basis for future research aiming to discover new marine-based drugs and compounds for other human uses. Among all species or genera that produce compounds with bioactive potential, 68% presented medium or high vulnerability to trawling. Results show that the discarded catch contains many species, which produce different bioactive compounds that represent an added-value resource. These results highlight the importance of manage properly crinoid beds, to ensure that species that produce molecules with bioactive potential inhabiting these habitats are protected.

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Hexane extract from Spiranthera odoratissima A. St.-hil. leaves: chemical composition and its bioactive potential against Candida pathogenic species, Leishmania amazonensis and Xylella fastidiosa

Natural Product Research ◽

10.1080/14786419.2021.1931188 ◽

2021 ◽

pp. 1-6

Author(s):

Amanda de O. Souza ◽

Paulo S. Pereira ◽

Cassia C. Fernandes ◽

Géssica Andrade ◽

Regina H. Pires ◽

...

Keyword(s):

Chemical Composition ◽

Xylella Fastidiosa ◽

Leishmania Amazonensis ◽

Hexane Extract ◽

Pathogenic Species ◽

Bioactive Potential

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Chitin Degradation Machinery and Secondary Metabolite Profiles in the Marine Bacterium Pseudoalteromonas rubra S4059

Marine Drugs ◽

10.3390/md19020108 ◽

2021 ◽

Vol 19 (2) ◽

pp. 108

Author(s):

Xiyan Wang ◽

Thomas Isbrandt ◽

Mikael Lenz Strube ◽

Sara Skøtt Paulsen ◽

Maike Wennekers Nielsen ◽

...

Keyword(s):

Secondary Metabolite ◽

Genetic Manipulation ◽

Genome Mining ◽

Hydrolytic Enzymes ◽

Metabolite Profile ◽

Chitinolytic Enzyme ◽

Chitin Degradation ◽

Metabolite Profiles ◽

Bioactive Potential ◽

Pseudoalteromonas Rubra

Genome mining of pigmented Pseudoalteromonas has revealed a large potential for the production of bioactive compounds and hydrolytic enzymes. The purpose of the present study was to explore this bioactivity potential in a potent antibiotic and enzyme producer, Pseudoalteromonas rubra strain S4059. Proteomic analyses (data are available via ProteomeXchange with identifier PXD023249) indicated that a highly efficient chitin degradation machinery was present in the red-pigmented P. rubra S4059 when grown on chitin. Four GH18 chitinases and two GH20 hexosaminidases were significantly upregulated under these conditions. GH19 chitinases, which are not common in bacteria, are consistently found in pigmented Pseudoalteromonas, and in S4059, GH19 was only detected when the bacterium was grown on chitin. To explore the possible role of GH19 in pigmented Pseudoalteromonas, we developed a protocol for genetic manipulation of S4059 and deleted the GH19 chitinase, and compared phenotypes of the mutant and wild type. However, none of the chitin degrading ability, secondary metabolite profile, or biofilm-forming capacity was affected by GH19 deletion. In conclusion, we developed a genetic manipulation protocol that can be used to unravel the bioactive potential of pigmented pseudoalteromonads. An efficient chitinolytic enzyme cocktail was identified in S4059, suggesting that this strain could be a candidate with industrial potential.

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