Concentration and characterization of microalgae proteins from Chlorella pyrenoidosa

Ashish G. Waghmare , Manoj K. Salve , Jean Guy LeBlanc , Shalini S. Arya

Bioresources and Bioprocessing ›› 2016, Vol. 3 ›› Issue (1) : 16

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Bioresources and Bioprocessing ›› 2016, Vol. 3 ›› Issue (1) : 16 DOI: 10.1186/s40643-016-0094-8
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Concentration and characterization of microalgae proteins from Chlorella pyrenoidosa

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Abstract

Background

Many methods are available for the concentration of proteins; however, most are not easily scalable due to costs, the need of specialized instruments and skilled workers or are very time-consuming. Three-phase partitioning (TPP) is a separation technique that has gained a lot of interest due to its rapid, simple and scalable use for concentration, isolation and decontamination of proteins from crude samples with high recovery yields. In the present work, the effect of various parameters of TPP was evaluated to optimize the concentration of proteins from Chlorella pyrenoidosa (CP), is green algae that increasingly being used as food supplements because of its positive impacts on human health.

Results

Chlorella pyrenoidosa was cultivated in a closed system under controlled conditions. After reaching maximum growth, the microalgae was harvested, dried and powdered. Afterwards, TPP of CP cell lysate was done to concentrate protein content. To maximize protein concentration, various parameters were optimized such as solvent (t-butanol), ammonium sulphate concentration (40 % w/v), solid load (0.75 g/20 mL), pH (6), incubation time (20 min), slurry to butanol ratio (1:1.5) and enzymatic treatment (combination of Stargen™ and Carezyme™). Also, total starch, cellulose and carbohydrate content before and after the enzymatic treatment were determined to comprehend the impact of enzymatic treatment on protein concentration. Using these optimized parameters, 78.1 % w/w protein concentration was obtained in middle protein concentrate phase. This protein concentrate was characterizedfor proximate composition, colour analysis, water holding capacity, oil-holding capacity, foaming capacity, foam stability, amino acid composition, protein quality and thermal properties.

Conclusion

Various process parameters of TPP influence the protein concentration of middle protein concentrate phase. Enzymatically treated biomass also enhanced protein concentration in middle protein concentrate phase. Characterization of protein concentrate revealed the presence high-quality protein. Therefore, it is possible to implement TPP at an industrial scale for protein concentration.

Keywords

Microalgae / Three-phase partitioning / Protein concentrate / Enzymatic treatment / Protein quality

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Ashish G. Waghmare, Manoj K. Salve, Jean Guy LeBlanc, Shalini S. Arya. Concentration and characterization of microalgae proteins from Chlorella pyrenoidosa. Bioresources and Bioprocessing, 2016, 3(1): 16 DOI:10.1186/s40643-016-0094-8

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References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

AOAC (Association of Official Analytical Chemists) (2001) Official methods of analysis, 16th edn. Washington
[2]

Barbarino E, Lourenço SO. An evaluation of methods for extraction and quantification of protein from marine macro- and microalgae. J Appl Phycol, 2005, 17: 447-460.

[3]

Becker EW. Micro-algae as a source of protein. Biotechnol Adv, 2007, 25(2): 207-210.

[4]

Bertol TM, Moraes N, Franke MR. Partial substitution of soybean meal by texturized soybean protein in diets for weaned piglets. J Anim Sci, 2001, 30: 141-149.
[5]

Bishop WM, Zubeck HM. Evaluation of microalgae for use as nutraceuticals and nutritional supplements. J Nutr Food Sci, 2012, 2: 5.

[6]

Cano-Medina A, Jimenez-Islas H, Dendooven L, Herrera RP, Gonzalez-Alatorre G, Escamilla-Silva EM. Emulsifying and foaming capacity and emulsion and foam stability of sesame protein concentrates. Food Res Int, 2011, 44(3): 684-692.

[7]

Chacon-Lee TL, Gonzalez-Marino GE. Microalgae for “healthy” foods-possibilities and challenges. Compr Rev Food Sci F, 2010, 9: 655-675.

[8]

Cherng JY, Shih MF. Potential hypoglycemic effects of Chlorella in streptozotocin-induced diabetic mice. Life Sci, 2005, 77: 980-990.

[9]

Dhananjay SK, Mulimani VH. Three-phase partitioning of α-galactosidase from fermented media of Aspergillus oryzae and comparison with conventional purification techniques. J Ind Microbiol Biotechnol, 2009, 36: 123-128.

[10]

Eskilsson CS, Bjorklund E, Karlsson L, Torstensson A. Microwave-assisted extraction of felodipine tablets. J Chromatogr A, 1999, 1: 59-70.

[11]

FAO/WHO/UNU (2007) Protein and amino acid requirements in human nutrition. WHO, pp 150 http://whqlibdoc.who.int/trs/WHO_TRS_935_eng.pdf
[12]

Gao K. Chinese studies on the edible blue-green alga, Nostoc flagelliforme—A review. J Appl Phycol, 1998, 10: 37-49.

[13]

Garcia JMR, Fernandez FGA, Sevilla JMF. Development of a process for the production of l-amino-acids concentrates from microalgae by enzymatic hydrolysis. Bioresource Technol, 2012, 112: 164-170.

[14]

Garg R, Thorat BN. Nattokinase purification by three phase partitioning and impact of t-butanol on freeze drying. Sep Purif Technol, 2014, 131: 19-26.

[15]

GE Healthcare Bio-Sciences (2010) Strategies for protein purification. Amersham Biosciences, Uppsala. http://proteins.gelifesciences.com
[16]

Ghribi AM, Gafsi IM, Blecker C, Danthine S, Attia H, Besbes S. Effect of drying methods on physicochemical and functional properties of chickpea protein concentrates. J Food Eng, 2015, 165: 179-188.

[17]

Halperin SA, Smith B, Nolan C, Shay J, Kralovec J. Safety and immunoenhancing effect of a Chlorella-derived dietary supplement in healthy adults undergoing influenza vaccination: randomized, double-blind, placebo-controlled trial. Can Med Assoc J, 2003, 169: 111-117.
[18]

Han SW, Chee KM, Cho SJ. Nutritional quality of rice bran protein in comparison to animal and vegetable protein. Food Chem, 2015, 172: 766-769.

[19]

Harde SM, Singhal RS. Extraction of forskolin from Coleus forskohlii roots using three phase partitioning. Sep Purif Technol, 2012, 96: 20-25.

[20]

Huddleston J, Veide A, Kohlez K, Flanagan J, Enfors SO, Lyddiatt A. The molecular basis of partitioning in ATPS: review. Trends Biotechnol, 1991, 9: 381-388.

[21]

Huesgen AG (1999) Sensitive and reliable amino acid analysis in protein hydrolysates using the HP 1100 Series HPLC, Hewlett-Packard, Technical Note
[22]

Ibanoglu E. Effect of hydrocolloids on the thermal denaturation of proteins. Food Chem, 2005, 90: 621-626.

[23]

Jones OG. Recent advances in the functionality of non-animal-sourced proteins contributing to their use in meat analogs. Curr Opin Food Sci, 2016, 7: 7-13.

[24]

Kaur M, Singh N. Characterization of protein isolates from different Indian chickpea (Cicer arietinum L.) cultivars. Food Chem, 2007, 102(1): 366-374.

[25]

Ketnawa S, Benjakul S, Martínez-Alvarez O, Rawdkuen S. Three-phase partitioning and proteins hydrolysis patterns of alkaline proteases derived from fish viscera. Sep Purif Technol, 2014, 132: 174-181.

[26]

Lee SK, Fox HM, Kies C, Dam R. The supplementary value of algae protein in human diets. J Nutr, 1967, 92: 281-285.
[27]

Lisboa CR, Pereira AM, Ferreira SP, Costa JA. Utilisation of Spirulina sp. and Chlorella pyrenoidosa biomass for the production of enzymatic protein hydrolysates. . Int J Eng Res Appl, 2014, 4(5): 29-38.
[28]

Lopez CVG, Garcia MCC, Fernandez FGA, Bustos CS, Chisti Y, Sevilla JMF. Protein measurements of micro-algal and cyanobacterial biomass. Bioresoure Technol, 2010, 101: 7587-7591.

[29]

Lourenco SO, Barbarino E, Lavin PL, Lanfer Marquez UM, Aidar E. Distribution of intracellular nitrogen in marine microalgae: calculation of new nitrogen-to-protein conversion factors. Eur J Phycol, 2004, 39(1): 17-32.

[30]

Merchant RE, Andre CA. A review of recent clinical trials of the nutritional supplement Chlorella pyrenoidosa in the treatment of fibromyalgia, hypertension, and ulcerative colitis. Altern Ther Health Med, 2001, 7: 79-91.
[31]

Merchant RE, Andre CA, Sica DA. Nutritional supplementation with Chlorella pyrenoidosa for mild to moderate hypertension. J Med Food, 2002, 5: 141-152.

[32]

Mizoguchi T, Takehara I, Masuzawa T, Saito T, Naoki Y. Nutrigenomic studies of effects of Chlorella on subjects with high-risk factors for lifestyle-related disease. J Med Food, 2008, 3: 395-404.

[33]

Narayan AV, Madhusudhan MC, Raghavarao KS. Extraction and purification of ipomoea peroxidase employing three phase partitioning. Appl Biochem Biotechnol, 2008, 151: 263-272.

[34]

Ozer B, Akardere E, Çelem EB, Onal S. Three-phase partitioning as a rapid and efficient method for purification of invertase from tomato. Biochem Eng J, 2010, 50: 110-115.

[35]

Persson JA, Wennerholm M, O’Halloran S (2008) Handbook for kjeldahl digestion, FOSS, DK-3400 Hilleroed, Denmark
[36]

Phongthai S, Rawdkuen S. Preparation of rice bran protein isolates using three-phase partitioning and its properties. Food Appl Biosci J, 2015, 3(2): 137-149.
[37]

Rawdkuen S, Vanabun A, Benjakul S. Recovery of proteases from the viscera of farmed giant catfish (Pangasianodon gigas) by three-phase partitioning. Process Biochem, 2012, 47: 2566-2569.

[38]

Richmond A. Handbook of micro-algal mass culture, 1990, Boca Raton: CRC Press.
[39]

Roe S. Protein purification techniques: a practical approach, 2000, 2, Oxford: Oxford University Press.
[40]

Safi C, Liu DZ, Yap BHJ, Martin GJO, Vaca-Garcia C, Pontalier PY. A two-stage ultrafiltration process for separating multiple components of Tetraselmis suecica after cell disruption. J Appl Phycol, 2014, 26(6): 2379-2387.

[41]

Safi C, Ursu AV, Laroche C, Zebib B, Merah O, Pontalier PY, Vaca-Garcia C. Aqueous extraction of proteins from microalgae: effect of different cell disruption methods. Algal Res, 2014, 3: 61-65.

[42]

Şen A, Eryılmaz M, Bayraktar H, Onal S. Purification of α-galactosidase from pepino (Solanum muricatum) by three-phase partitioning. Sep Purif Technol, 2011, 83: 130-136.

[43]

Smith DM, Nielsen SS. Heldman DR. Protein separation and characterization procedures. Food analysis, 2010, Berlin: Springer, 261-281.

[44]

Sonawane SK, Bagul MB, LeBlanc JG, Arya SS. Nutritional, functional, thermal and structural characteristics of Citrullus lanatus and Limonia acidissima seed flours. J Food Meas Ch, 2015
[45]

Takeshita T, Ota S, Yamazaki T, Hirata A, Zachleder V, Kawano S. Starch and lipid accumulation in eight strains of six Chlorella species under comparatively high light intensity and aeration culture conditions. Bioresoure Technol, 2014, 158: 127-134.

[46]

Tana ZJ, Wanga CY, Yi YJ, Wanga HY, Zhoua WL, Tana SY, Li FF. Three phase partitioning for simultaneous purification of aloe polysaccharide and protein using a single-step extraction. Process Biochem, 2015, 50: 482-486.

[47]

Thayumanavan B, Sadasivam S. Physicochemical basis for the preferential uses of certain rice varieties. Plant Food Hum Nutr, 1984, 34: 253-259.

[48]

Ursu AV, Marcati A, Sayd T, Sante-Lhoutellier V, Djelveh G, Michaud P. Extraction, fractionation and functional properties of proteins from the microalgae Chlorella vulgaris. Bioresource Technol, 2014, 157: 134-139.

[49]

Ustunol Z. Applied food protein chemistry, 2015, Chichester: John Wiley & Sons Ltd.
[50]

Vetal MD, Rathod VK. Three phase partitioning a novel technique for purification of peroxidase from orange peels (Citrus sinenses). Food Bioprod Process, 2014, 487: 6.
[51]

Viegas CV, Hachemi I, Maki-Arvela P, Smeds A, Aho A, Murzin DY. Algal products beyond lipids: comprehensive characterization of different products in direct saponification of green alga Chlorella sp. Algal Res, 2015, 11: 156-164.

[52]

Vinoth Kumar V, Premkumar MP, Sathyaselvabala VK, Dineshkirupha S, Nandagopal J, Sivanesan S. Aspergillus nigerexo-inulinase purification by three phase partitioning. Eng Life Sci, 2011, 11: 607-614.

[53]

Walsh G. Pharmaceutical biotechnology, Concept and applications, 2007, Chichester: Wiley.
[54]

Wang X, Zhang X. Optimal extraction and hydrolysis of Chlorella pyrenoidosa proteins. Bioresource Technol, 2012, 126: 307-313.

[55]

Yi L, Lakemond CMM, Sagis LMC, Eisner-Schadler V, van Huis A, van Boekel MAJS. Extraction and characterisation of protein fractions from five insect species. Food Chem, 2013, 141(4): 3341-3348.

Funding

UGC-SAP, Government of India

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