Investigation of in vitro digestibility of dietary microalga Chlorella vulgaris and cyanobacterium Spirulina platensis as a nutritional supplement

Köse, Ayşe; Özen, Mehmet Özgün; Elibol, Murat; Öncel, Suphi Ş.

doi:10.1007/s13205-017-0832-4

Cited by 58 publications

(27 citation statements)

References 31 publications

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“…To destroy the cells, homogenization under pressure or enzymatic hydrolysis was used, followed by ultrafiltration/diafiltration. Kose et al [ 58 ] obtained protein hydrolysates from the microalgae Chlorella vulgaris, Chlorella cyanobacterium and Spirulina platensis and evaluated their digestibility in in vitro experiments. The studied hydrolysates showed rather high digestibility values and low cytotoxicity.…”

Section: Microalgae Proteins Extraction Methodsmentioning

confidence: 99%

Microalgae: A Promising Source of Valuable Bioproducts

et al. 2020

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Microalgae are a group of autotrophic microorganisms that live in marine, freshwater and soil ecosystems and produce organic substances in the process of photosynthesis. Due to their high metabolic flexibility, adaptation to various cultivation conditions as well as the possibility of rapid growth, the number of studies on their use as a source of biologically valuable products is growing rapidly. Currently, integrated technologies for the cultivation of microalgae aiming to isolate various biologically active substances from biomass to increase the profitability of algae production are being sought. To implement this kind of development, the high productivity of industrial cultivation systems must be accompanied by the ability to control the biosynthesis of biologically valuable compounds in conditions of intensive culture growth. The review considers the main factors (temperature, pH, component composition, etc.) that affect the biomass growth process and the biologically active substance synthesis in microalgae. The advantages and disadvantages of existing cultivation methods are outlined. An analysis of various methods for the isolation and overproduction of the main biologically active substances of microalgae (proteins, lipids, polysaccharides, pigments and vitamins) is presented and new technologies and approaches aimed at using microalgae as promising ingredients in value-added products are considered.

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Section: Microalgae Proteins Extraction Methodsmentioning

confidence: 99%

Microalgae: A Promising Source of Valuable Bioproducts

et al. 2020

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“…Several authors have previously reported that A. platensis biomass shows 10% to 20% higher IVDMD [17,74] and up to 50% higher IVPD [32] than C. vulgaris biomass. The different IVDMD and IVPD values between A. platensis and C. vulgaris biomass are probably related to differences in cell wall structure, considering that while cyanobacteria have thin cell walls composed by peptidoglycan, green algae such as C. vulgaris have thick and rigid cellulosic cell walls [75].…”

Section: In Vitro Digestibilitymentioning

confidence: 97%

Microalgae as Functional Ingredients in Savory Food Products: Application to Wheat Crackers

Batista

Niccolai

Bursic

et al. 2019

Foods

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Crackers are widely consumed snack foods and there is an increasing trend in adding functional ingredients to their composition. In the present work, the dried biomasses of four microalgae strains—Arthrospira platensis F&M-C256, Chlorella vulgaris Allma, Tetraselmis suecica F&M-M33, and Phaeodactylum tricornutum F&M-M40—were used as a source of proteins, antioxidants, and other bioactive molecules in artisanal wheat crackers. Two incorporation levels were tested: 2% (w/w) and 6% (w/w). The impact of microalgae addition was evaluated in terms of physical properties, biochemical composition, antioxidant activity, in vitro digestibility, and sensory characteristics. Microalgae crackers presented stable color and texture throughout eight weeks of storage. Microalgae crackers were slightly thinner and lighter than the control but presented a similar density in agreement with scanning electron microscope images, indicating that gas retention was not greatly affected by microalgae addition. Regarding biochemical composition, 6% A. platensis and C. vulgaris crackers presented a significantly higher protein content (13.2–13.5%), for which they could be claimed to be a “source of protein” according to the Regulation (EC) No. 1924/2006. A. platensis crackers showed the highest antioxidant activity and attained better sensory analysis scores. T. suecica and P. tricornutum crackers showed high phenolic content and antioxidant activity but attained low sensory scores mainly because of their unattractive fishy off-flavor.

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“…Biofertilizer products derived from algae are obtained from biosecure species, which do not produce toxins or allergens, guaranteeing in this manner, not only the safety of the operators but also of the food fertilized with these products. Because of its biological origin, biofertilizers derived from algae do not contravene any of the assumptions of organic production, and they do represent an alternative for quality production (da Silva Ferreira and Sant'Anna, 2017; Kose et al, 2017;Rossi et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Biofertilization With Chlorophyta and Cyanophyta: An Alternative for Organic Food Production

2020

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Chlorophyta and Cyanophyta are photosynthetic organisms characterized by their biochemical plasticity, which has allowed them to develop in different environments and have a faster growth rate than plants. Depending on the species and environmental conditions, these organisms can produce nitrogenous enzymes, for atmospheric nitrogen fixation; phosphatases, that solubilize phosphorus; phytohormones, that promote plant growth; and hygroscopic polysaccharides, that prevent erosion and improve soil characteristics. In this sense, the aim of this review was to analyze the available information on the use of Chlorophyta and Cyanophyta as biofertilizers and their potential application in organic food production. Multiple studies and researches were found demonstrating the advantages of these microorganisms when being used to improve plants productivity, and also at the same time, leading to sustainable agriculture that is respectful to the environment. However, their high production cost has become a limiting factor for their commercialization.

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Investigation of in vitro digestibility of dietary microalga Chlorella vulgaris and cyanobacterium Spirulina platensis as a nutritional supplement

Cited by 58 publications

References 31 publications

Microalgae: A Promising Source of Valuable Bioproducts

Microalgae: A Promising Source of Valuable Bioproducts

Microalgae as Functional Ingredients in Savory Food Products: Application to Wheat Crackers

Biofertilization With Chlorophyta and Cyanophyta: An Alternative for Organic Food Production

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