Partial characterization and antioxidant and antiproliferative activities of the aqueous extracellular polysaccharides from the thermophilic microalgae Graesiella sp.

Trabelsi, Lamia; Chaieb, Olfa; Mnari, Amira; Abid-Essafi, Salwa; Aleya, Lotfi

doi:10.1186/s12906-016-1198-6

Cited by 69 publications

(21 citation statements)

References 44 publications

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“…on ferrous ion-chelating ability was 0.33 mg/mL (stronger than EDTA), and on hydroxyl radical scavenging was 0.87 mg/mL (ascorbic acid was 1.1 mg/mL) ( Table 1). The strong antioxidant activity may be related to its structure, high uronic acid (24%) and high protein (12%) ( Table 1) [51]. Furthermore, the in vivo antioxidant effects of microalgal EPS need to be further studied.…”

Section: Microalgal Polysaccharidesmentioning

confidence: 99%

The Antioxidant Activity of Polysaccharides Derived from Marine Organisms: An Overview

et al. 2019

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Marine-derived antioxidant polysaccharides have aroused extensive attention because of their potential nutritional and therapeutic benefits. However, the comprehensive comparison of identified marine-derived antioxidant polysaccharides is still inaccessible, which would facilitate the discovery of more efficient antioxidants from marine organisms. Thus, this review summarizes the sources, chemical composition, structural characteristics, and antioxidant capacity of marine antioxidant polysaccharides, as well as their protective in vivo effects mediated by antioxidative stress reported in the last few years (2013–2019), and especially highlights the dominant role of marine algae as antioxidant polysaccharide source. In addition, the relationships between the chemical composition and structural characteristics of marine antioxidant polysaccharides with their antioxidant capacity were also discussed. The antioxidant activity was found to be determined by multiple factors, including molecular weight, monosaccharide composition, sulfate position and its degree.

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Section: Microalgal Polysaccharidesmentioning

confidence: 99%

The Antioxidant Activity of Polysaccharides Derived from Marine Organisms: An Overview

et al. 2019

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“…They can be used as thickeners, emulsifying agents and biosurfactants, with applications in the food and biomedical industry. Antibacterial (Mundt et al 2001), antioxidant (Trabelsi et al 2016) and anti-in ammatory properties (Xiao et al 2018) have already been reported for EPS of cyanobacteria.…”

Section: Introductionmentioning

confidence: 86%

Influence of culture conditions on the production of extracellular polymeric substances (EPS) by Arthrospira platensis

Silva

Azero

Teixeira

et al. 2020

Preprint

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Arthrospira platensis is a cyanobacterium that is of great biotechnological interest, particularly for the food industry, as it possesses a high content of proteins, pigments, lipids and carbohydrates. Cyanobacteria produce extracellular polymeric substances (EPS), which are co-products of secondary metabolism that present thickening or gelling properties. A 3-level factorial design was used to study the combined effect of different nitrate concentrations and photon flux density (PFD) values to evaluate the biomass and EPS production of A. platensis. The best result in terms of biomass production was obtained under condition 6 (2 g.L-1 NaNO3 and 600 μE.m-2.s-1) yielding a concentration of 1.292 g.L-1. However, condition 1 (0.25 g.L-1 NaNO3 and 200 μE.m-2.s-1) produced the greatest EPS yield (111 mg.g-1), followed by condition 9 (2 g.L-1 NaNO3 and 1000 μE.m-2.s-1). FTIR analyses of EPS samples indicated the presence of carboxylate and sulfate functional groups, and rheological studies of the EPS at 5 and 10 g.L-1 revealed a dilute solution behavior.

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“…They can either be loosely attached to the cell wall or excreted into the environment [27,28]. Many microalgae, especially a variety of red algae and cyanobacteria, are producers of structurally diverse EPS.…”

Section: Exopolysaccharides (Eps)mentioning

confidence: 99%

Extracellular Metabolites from Industrial Microalgae and Their Biotechnological Potential

2016

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Industrial microalgae, as a big family of promising producers of renewable biomass feedstock, have been commercially exploited for functional food, living feed and feed additives, high-value chemicals in nutraceuticals, cosmeceuticals, and chemical reagents. Recently, microalgae have also been considered as a group that might play an important role in biofuel development and environmental protection. Almost all current products of industrial microalgae are derived from their biomass; however, large amounts of spent cell-free media are available from mass cultivation that is mostly unexploited. In this contribution we discuss that these media, which may contain a remarkable diversity of bioactive substances are worthy to be recovered for further use. Obviously, the extracellular metabolites from industrial microalgae have long been neglected in the development of production methods for valuable metabolites. With the advances in the last ten years, more and more structures and properties from extracellular metabolites have been identified, and the potential utilization over wide fields is attracting attention. Some of these extracellular metabolites can be potentially used as drugs, antioxidants, growth regulators or metal chelators. The purpose of this review is to provide an overview of the known extracellular metabolites from industrial microalgae which might be of commercial interest. The attention mainly focuses on the reports of extracellular bioactive metabolites and their potential application in biotechnology.

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Partial characterization and antioxidant and antiproliferative activities of the aqueous extracellular polysaccharides from the thermophilic microalgae Graesiella sp.

Cited by 69 publications

References 44 publications

The Antioxidant Activity of Polysaccharides Derived from Marine Organisms: An Overview

The Antioxidant Activity of Polysaccharides Derived from Marine Organisms: An Overview

Influence of culture conditions on the production of extracellular polymeric substances (EPS) by Arthrospira platensis

Extracellular Metabolites from Industrial Microalgae and Their Biotechnological Potential

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