Abstract
Microalgae (including the cyanobacteria) are established commercial sources of high-value chemicals such as β-carotene, astaxanthin, docosahexaenoic acid, eicosahexaenoic acid, phycobilin pigments and algal extracts for use in cosmetics. Microalgae are also increasingly playing a role in cosmaceuticals, nutraceuticals and functional foods. In the last few years, there has been renewed interest in microalgae as commercial sources of these and other high-value compounds, driven in part by the attempts to develop commercially viable biofuels from microalgae. This paper briefly reviews the main existing and potential high-value products which can be derived from microalgae and considers their commercial development with a particular focus on the various aspects which need to be considered on the path to commercialisation, using the experience gained in the commercialisation of existing algae products. These considerations include the existing and potential market size and market characteristics of the product, competition by chemically synthesised products or by ‘natural’ compounds from other organisms such as fungi, bacteria, higher plants, etc., product quality requirements and assurance, and the legal and regulatory environment.
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References
Achitouv E, Metzger P, Rager M, Largeau C (2004) C31–C34 methylated squalenes from a Bolivian strain of Botryococcus braunii. Phytochem 65:3159–3165
Alonso L, Grima EM, Perez JAS, Sanchez JLG, Camacho FG (1992) Fatty acid variation among different isolates of a single strain of Isochrysis galbana. Phytochem 31:3901–3904
Arad S, Levy-Ontman O (2010) Red microalgal cell-wall polysaccharides: biotechnological aspects. Curr Opin Biotechnol 21:358–364
Arad S, Cohen E, Ben-Amotz A (1993) Accumulation of canthaxanthin in Chlorella emersonii. Physiol Plant 87:232–236
Arad S, Cohen E, Yaron A (1996) Non-soluble colouring material used in cosmetics and food preparations. Europe Patent 693535
Arai S (1996) Studies on functional foods in Japan: state of the art. Biosci Biotech Biochem 60:9–15
Ausich RL, Sanders DJ (1999) Process for the isolation and purification of lycopene crystals. USA Patent 5858700
Bagchi D (2006) Nutraceuticals and functional foods regulations in the United States and around the world. Toxicology 221:1–3
Baker JT (1984) Seaweeds in pharmaceutical studies and applications. Hydrobiologia 116(117):29–40
Balskus EP, Walsh CT (2010) The genetic and molecular basis for sunscreen biosynthesis in cyanobacteria. Science 329:1653–1656
Barclay WR (1994) Process for growing Thraustochytrium and Schizochytrium using non-chloride salts to produce a microfloral biomass having omega-3-highly unsaturated fatty acids. USA Patent 5,340,742
Barclay W, Weaver C, Metz J, Hansen J (2010) Development of docosahexaenoic acid production technology using Schizochytrium: historical perspective and update. In: Cohen Z, Ratledge C (eds) Single cell oils. Microbial and algal oils. AOCS Press, Urbana, pp 75–96
Batista AP, Nunes MC, Fradinho P, Gouveia L, Sousa I, Raymundo A, Franco JM (2012) Novel foods with microalgal ingredients—effect of gel setting conditions on the linear viscoelasticity of Spirulina and Haematococcus gels. J Food Eng 110:182–189
Belay A (1997) Mass culture of Spirulina outdoors—the Earthrise Farms experience. In: Vonshak A (ed) Spirulina platensis (Arthrospira): physiology, cell-biology and biochemistry. Taylor & Francis, London, pp 131–158
Belay A (2008) Spirulina (Arthrospira): production and quality assurance. In: Gershwin ME, Belay A (eds) Spirulina in human nutrition and health. CRC Press, Boca Raton, pp 1–25
Ben-Amotz A, Avron M (1989) The biotechnology of mass culturing Dunaliella for products of commercial interest. In: Cresswell RC, Rees TAV, Shah N (eds) Algal and cyanobacterial biotechnology. Longman Scientific & Technical, Harlow, pp 91–114
Ben-Amotz A, Lers A, Avron M (1988) Stereoisomers of ß-carotene and phytoene in the alga Dunaliella bardawil. Plant Physiol 86:1286–1291
Bhati R, Mallick N (2012) Production and characterization of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) co-polymer by a N2-fixing cyanobacterium, Nostoc muscorum Agardh. J Chem Technol Biotechnol 87:505–512
Bigogno C, Khozin-Goldberg I, Boussiba S, Vonshak A, Cohen Z (2002) Lipid and fatty acid composition of the green oleaginous alga Parietochloris incisa, the richest plant source of arachidonic acid. Phytochem 60:497–503
Bixler HJ, Porse H (2011) A decade of change in the seaweed hydrocolloids industry. J Appl Phycol 23:321–335
Blanco AM, Moreno J, Del Campo JA, Rivas J, Guerrero MG (2007) Outdoor cultivation of lutein-rich cells of Muriellopsis sp. in open ponds. Appl Microbiol Biotechnol 73:1259–1266
Borowitzka MA (1988a) Fats, oils and hydrocarbons. In: Borowitzka MA, Borowitzka LJ (eds) Micro-algal biotechnology. Cambridge University Press, Cambridge, pp 257–287
Borowitzka MA (1988b) Vitamins and fine chemicals. In: Borowitzka MA, Borowitzka LJ (eds) Micro-algal biotechnology. Cambridge University Press, Cambridge, pp 153–196
Borowitzka MA (1992) Algal biotechnology products and processes: matching science and economics. J Appl Phycol 4:267–279
Borowitzka MA (1995) Microalgae as sources of pharmaceuticals and other biologically active compounds. J Appl Phycol 7:3–15
Borowitzka MA (1999a) Economic evaluation of microalgal processes and products. In: Cohen Z (ed) Chemicals from microalgae. Taylor & Francis, London, pp 387–409
Borowitzka MA (1999b) Pharmaceuticals and agrochemicals from microalgae. In: Cohen Z (ed) Chemicals from microalgae. Taylor & Francis, London, pp 313–352
Borowitzka MA (2010) Carotenoid production using microorganisms. In: Cohen Z, Ratledge C (eds) Single cell oils: microbial and algal oils. AOCS Press, Urbana, pp 225–240
Borowitzka MA (2013) Energy from microalgae: a short history. In: Borowitzka MA, Moheimani NR (eds) Algae for biofuels and energy. Spinger, Dordrecht, pp 1–15
Borowitzka MA, Borowitzka LJ (1988) Dunaliella. In: Borowitzka MA, Borowitzka LJ (eds) Micro-algal biotechnology. Cambridge University Press, Cambridge, pp 27–58
Borowitzka LJ, Borowitzka MA (1989) ß-Carotene (Provitamin A) production with algae. In: Vandamme EJ (ed) Biotechnology of vitamins, pigments and growth factors. Elsevier Applied Science, London, pp 15–26
Borowitzka MA, Huisman JM (1993) The ecology of Dunaliella salina (Chlorophyceae, Volvocales)—effect of environmental conditions on aplanospore formation. Bot Mar 36:233–243
Boussiba S, Vonshak A, Cohen Z, Richmond A (1997) A procedure for large-scale production of astaxanthin from Haematococcus. PCT Patent 9:728,274
Chacón-Lee TL, González-Mariño GE (2010) Microalgae for “healthy” foods—possibilities and challenges. Compr Rev Food Sc Food Saf 9:655–675
Chetsumon A, Maeda I, Umeda F, Yagi K, Miura Y, Mizoguchi T (1994) Antibiotic production by the immobilized cyanobacterium, Scytonema sp TISTR 8208, in a seaweed-type photobioreactor. J Appl Phycol 6:539–543
Chiuh C, Chang S, Chen Y, Hu I (2012) Pharmaceutical composition for inhibiting infection and replication of influenza A and B virus, and the manufacture thereof. European Patent Application EP2455448
Choudhari SM, Ananthanarayan L, Singhal RS (2008) Use of metabolic stimulators and inhibitors for enhanced production of b-carotene and lycopene by Blakeslea trispora NRRL 2895 and 2896. Bioresour Technol 99:3166–3173
Chrismadha T, Borowitzka MA (1994) Effect of cell density and irradiance on growth, proximate composition and eicosapentaenoic acid production of Phaeodactylum tricornutum grown in a tubular photobioreactor. J Appl Phycol 6:67–74
Cohen Z (1999) Porphyridium cruentum. In: Cohen Z (ed) Chemicals from microalgae. Taylor & Francis, London, pp 1–24
Cohen Z, Khozin-Goldberg I (2010) Searching for polyunsaturated fatty acid-rich microalgae. In: Cohen Z, Ratledge C (eds) Single cell oils: microbial and algal oils. AOCS Publishing, Urbana, pp 201–224
Coppens P, da Silva MF, Pettman S (2006) European regulations on nutraceuticals, dietary supplements and functional foods: a framework based on safety. Toxicology 221:59–74
Coragliotti A, Franklin S, Day AG, Decker SM (2012) Microalgal polysaccharide compositions. USA Patent Application 2012/0202768
Costa Perez J (2003) Method of producing beta-carotene by means of mixed culture fermentation using (+) and (−) strains of Blakeslea trispora. European Patent Application 1,367,131
Cysewski GR, Lorenz RT (2004) Industrial production of microalgal cell-mass and secondary products—species of high potential: Haematococcus. In: Richmond A (ed) Microalgal culture: biotechnology and applied phycology. Blackwell Science, Oxford, pp 281–288
Del Campo JA, Rodríguez H, Moreno J, Vargas MA, Rivas J, Guerrero MG (2001) Lutein production by Muriellopsis sp. in an outdoor tubular photobioreactor. J Biotechnol 85:289–295
Del Campo JA, Rodríguez H, Moreno J, Vargas MÁ, Rivas J, Guerrero MG (2004) Accumulation of astaxanthin and lutein in Chlorella zofingiensis (Chlorophyta). Appl Microbiol Biotechnol 64:848–854
Demain AL (2007) The business of biotechnology. Ind Biotechnol 3:269–283
Deng R, Chow T-J (2010) Hyperlipidemic, antioxidant and antiinflammatory activities of microalgae Spirulina. Cardiovasc Ther 28:e33–e45
De Philippis R, Sili C, Paperi R, Vincenzini M (2001) Exopolysaccharide-producing cyanobacteria and their possible exploitation: a review. J Appl Phycol 13:293–299
De Philippis R, Colica G, Micheletti E (2011) Exopolysaccharide-producing cyanobacteria in heavy metal removal from water: molecular basis and practical applicability of the biosorption process. Appl Microbiol Biotechnol 92:697–708
Doncheck JA, Huss RJ, Running JA, Skatrud TJ (1996) L-ascorbic acid containing biomass of Chlorella pyrenoidosa. USA Patent 5,521,090
Douglas DJ, Bates SS (1992) Production of domoic acid, a neurotoxic amino acid, by an axenic culture of the marine diatom Nitzschia pungens f multiseries Hasle. Can J Fish Aquat Sci 49:85–90
Durand-Chastel H (1980) Production and use of Spirulina in Mexico. In: Shelef G, Soeder CJ (eds) Algae biomass. Elsevier/North Holland Biomedical Press, Amsterdam, pp 51–64
EFSA Panel on Food Additives and Nutrient Sources added to Food (ANS) (2012) Guidance for submission for food additive evaluations. EFSA J 10(7):2760
EFSA Scientific Committee (2009) Guidance on safety assessment of botanicals and botanical preparations intended for use as ingredients in food supplements. EFSA J 7(9):1249
Eriksen NT (2008) Production of phycocyanin—a pigment with applications in biology, biotechnology, foods and medicine. Appl Microbiol Biotechnol 80:1–14
Fabregas J, Aran J, Morales ED, Lamela T, Otero A (1997) Modification of sterol concentration in marine microalgae. Phytochem 46:1189–1191
Fan K, Aki T, Chen F, Jiang Y (2010) Enhanced production of squalene in the thraustochytrid Aurantiochytrium mangrovei by medium optimization and treatment with terbinafine. World J Microbiol Biotechnol 26:1303–1309
Fehling J, Stoecker DK, Baldauf SL (2007) Photosynthesis and the eukaryote tree of life. In: Falkowski PG, Knoll AH (eds) Evolution of primary producers in the sea. Academic, NY, pp 75–107
Fernández-Sevilla J, Acién Fernández F, Molina Grima E (2010) Biotechnological production of lutein and its applications. Appl Microbiol Biotechnol 86:27–40
Francavilla M, Trotta P, Luque R (2010) Phytosterols from Dunaliella tertiolecta and Dunaliella salina: a potentially novel industrial application. Bioresour Technol 101:4144–4150
Francavilla M, Colaianna M, Zotti M, Morgese MG, Trotta P, Tucci P, Schiavone S, Cuomo V, Trabace L (2012) Extraction, characterization and in vivo neuromodulatory activity of phytosterols from microalga Dunaliella tertiolecta. Curr Med Chem 19:3058–3067
Frost & Sullivan (2010) Frost & Sullivan and the Global Organisation for EPA and DHA omega-3 global overview of the marine and algal oil EPA and DHA omega-3 ingredients market. Chicago
Garcia-Pichel F, Castenholz RW (1993) Occurrence of UV-absorbing, mycosporine-like compounds among cyanobacterial isolates and an estimate of their screening capacity. Appl Environ Microbiol 59:163–169
Gellenbeck K (2012) Utilization of algal materials for nutraceutical and cosmeceutical applications—what do manufacturers need to know? J Appl Phycol 24:309–313
Gerwick WH, Moore BS (2012) Lessons from the past and charting the future of marine natural products drug discovery and chemical biology. Chem Biol 19:85–98
Gerwick WH, Roberts MA, Proteau PJ, Chen JL (1994) Screening cultured marine microalgae for anticancer-type activity. J Appl Phycol 6:143–149
Glazer AN (1994) Phycobiliproteins—a family of valuable, widely used fluorophores. J Appl Phycol 6:105–112
Glazer A, Streyer L (1984) Phycoflours. Trends Biochem Sci 8:423–427
Goiris K, Muylaert K, Fraeye I, Foubert I, De Brabanter J, De Cooman L (2012) Antioxidant potential of microalgae in relation to their phenolic and carotenoid content. J Appl Phycol. doi:10.1007/s10811-012-9804-6:1-10
Gouveia L, Batista AP, Sousa I, Raymundo A, Banderra NM (2008a) Microalgae in novel food products. In: Konstantinos N, Papadopoulos N (eds) Food chemistry research developments. Nova, New York, pp 75–111
Gouveia L, Coutinho C, Mendonca E, Batista AP, Sousa I, Banderra NM, Raymundo A (2008b) Functional biscuits with PUFA-ω3 from Isochrysis galbana. J Sci Food Agric 88:891–896
GRAS (2012) GRAS Notice 000424: notice to US Food and Drug Administration the use of CyaninPlus™ is generally recognised as safe. www.accessdata.fda.gov/scripts/fcn/gras_notices/GRN000424.pdf. Accessed 12 Dec 2012
Grobbelaar JU (2003) Quality control and assurance: crucial for the sustainability of the applied phycology industry. J Appl Phycol 15:209–215
Grung M, D’Souza FML, Borowitzka MA, Liaaen-Jensen S (1992) Algal carotenoids 51. Secondary carotenoids 2. Haematococcus pluvialis aplanospores as a source of (3S,3′S)-astaxanthin esters. J Appl Phycol 4:165–171
Haase S, Huchzermeyer B, Rath T (2012) PHB accumulation in Nostoc muscorum under different carbon stress situations. J Appl Phycol 24:157–162
Hammond BG, Mayhew DA, Holson JF, Nemec MD, Mast RW, Sander WJ (2001) Safety assessment of DHA-rich microalgae from Schizochytrium sp.: II. Developmental toxicity evaluation in rats and rabbits. Regul Toxicol Pharmacol 33:205–217
Hammond BG, Mayhew DA, Kier LD, Mast RW, Sander WJ (2002) Safety assessment of DHA-rich microalgae from Schizochytrium sp.: IV. Mutagenicity studies. Regul Toxicol Pharmacol 35:255–265
Hanagata N (1999) Secondary carotenoid accumulation in Scenedemus komarekii (Chlorophyceae, Chlorophyta). J Phycol 35:960–966
Harder R, von Witsch H (1942) Die Massenkultur von Diatomeen. Ber Deutsch Bot Ges 60:146–152
Hayashi T, Hayashi K, Maeda M, Kojima I (1996) Calcium spirulan, an inhibitor of enveloped virus replication, from a blue-green alga Spirulina platensis. J Nat Prod 59:83–87
Herrero M, Cifuentes A, Ibanez E (2006) Sub- and supercritical fluid extraction of functional ingredients from different natural sources: plants, food-by-products, algae and microalgae. A review. Food Chem 98:136–148
Hu Q (2004) Industrial production of microalgal cell-mass and secondary products—major industrial species: Arthrospira (Spirulina) platensis. In: Richmond A (ed) Microalgal culture: biotechnology and applied phycology. Blackwell Science, Oxford, pp 264–272
Hu Q, Hu Z, Cohen Z, Richmond A (1997) Enhancement of eicosapentaenoic acid (EPA) and g-linolenic acid (GLA) production by manipulating cell density in outdoor cultures of Monodus subterraneus (Eustigmatophyte) and Spirulina platensis (Cyanobacterium). Eur J Phycol 32:81–88
Hu L, Huang B, Zuo M, Wei H (2008) Preparation of the phycoerythrin subunit liposome in a photodynamic experiment on liver cancer cells. Acta Pharmacol Sin 29:1539–1546
Huerlimann R, De Nys R, Heimann K (2010) Growth, lipid content, productivity, and fatty acid composition of tropical microalgae for scale-up production. Biotechnol Bioeng 107:245–257
Ismail A (2010) Marine lipids overview: markets, regulations and the value chain. Oléagineux, Corps Gras, Lipides 17:205–208
Jäger C, Sättler A, Schröder KR, Rögner M (2002) Use of mixoxanthophyll and/or echinenone for the prophylactic and/or therapeutic treatment of undesirable physical conditions conditioned or favoured by oxidative processes. PCT Patent Application WO02/24183
Jin E, Feth B, Melis A (2003) A mutant of the green alga Dunaliella salina constitutively accumulates zeaxanthin under all growth conditions. Biotechnol Bioeng 81:115–124
Kathrein HR (1964) Production of carotenoids by the cultivation of algae. USA Patent 3,142,135
Katz J, Janik JE, Younes A (2011) Brentuximab vedotin (SGN-35). Clin Cancer Res 17:6428–6436
Kaya K, Nakazawa A, Matsuura H, Honda D, Inouye I, Watanabe MM (2011) Thraustochytrid Aurantiochytrium sp. 18W-13a accummulates high amounts of squalene. Biosci Biotechnol Biochem 75:2246–2248
Kellam SJ, Cannell RJP, Owsianka AM, Walker JM (1988) Results of a large-scale screening programme to detect antifungal activity from marine and freshwater microalgae in laboratory culture. Brit Phycol J 23:45–47
Kilian O, Benemann CSE, Niyogi KK, Vick B (2011) High-efficiency homologous transformation in the oil-producing alga Nannochloropsis sp. Proc Natl Acad Sci U S A 108:21265–21269
Kim S-K, Pangestuti R (2011) Biological properties of cosmeceuticals derived from marine algae. In: Kim S-K (ed) Marine Cosmeceuticals. CRC Press, Boca Raton, pp 191–200
Kim SM, Jung YJ, Kwon ON, Cha KH, Um BH, Chung D, Pan CH (2012) A potential commercial source of fucoxanthin extracted from the microalga Phaeodactylum tricornutum. Appl Biochem Biotechnol 166:1843–1855
Klein B, Walter C, Lange H, Buchholz R (2012) Microalgae as natural sources for antioxidative compounds. J Appl Phycol 24:1133–1139
Koo S, Cha K, Song D-G, Chung D, Pan C-H (2012) Optimization of pressurized liquid extraction of zeaxanthin from Chlorella ellipsoidea. J Appl Phycol 24:725–730
Kroes R, Schaefer EJ, Squire RA, Williams GM (2003) A review of the safety of DHA45-oil. Food Chem Toxicol 41:1433–1446
Kyle DJ (2005) The future development of single cell oils. In: Cohen Z, Ratledge C (eds) Single cell oils. AOCS Publishing, Urbana, pp 239–248
Kyle DJ, Boswell KDB, Gladue RM, Reeb SE (1992) Designer oils from microalgae as nutritional supplements. In: Bills DD, Kung SD (eds) Biotechnology and nutrition. Butterworth-Heinemann, Boston, pp 451–468
Lemoine Y, Schoefs B (2010) Secondary ketocarotenoid astaxanthin biosynthesis in algae: a multifunctional response to stress. Photosynth Res 106:155–177
Li HB, Jiang Y, Chen F (2002) Isolation and purification of lutein from the microalga Chlorella vulgaris by extraction after saponification. J Agric Food Chem 50:1070–1072
Li H-B, Fan K-W, Chen F (2006) Isolation and purification of canthaxanthin from the microalga Chlorella zofingiensis by high-speed counter-current chromatography. J Sep Sci 29:699–703
Lignell A, Inborr J (2002) Method of the prophylactic treatment of mastitis. USA Patent 6,335,015
Llewellyn CA, Airs RL (2010) Distribution and abundance of MAAs in 33 species of microalgae across 13 classes. Mar Drugs 8:1273–1291
Lopez Alonso D, Seguera del Castillo CI (1999) Genetic improvement of EPA content in microalgae. In: Cohen Z (ed) Chemicals from microalgae. Taylor & Francis, London, pp 93–107
Lorenz RT (2002) Method for retarding and preventing sunburn by UV light. USA Patent 6,433,025
Lorenz RT, Cysewski GR (2000) Commercial potential for Haematococcus microalgae as a natural source of astaxanthin. Trends Biotechnol 18:160–167
Lu C, Rao K, Hall D, Vonshak A (2001) Production of eicosapentaenoic acid (EPA) in Monodus subterraneus grown in a helical tubular photobioreactor as affected by cell density and light intensity. J Appl Phycol 13:517–522
Lu Y-M, Xiang W-Z, Wen Y-H (2011) Spirulina (Arthrospira) industry in Inner Mongolia of China: current status and prospects. J Appl Phycol 23:265–269
Luesch H, Moore RE, Paul VJ, Mooberry SL, Corbett TH (2001) Isolation of dolastatin 10 from the marine cyanobacterium Symploca species VP642 and total stereochemistry and biological evaluation of its analogue symplostatin 1. J Nat Prod 64:907–910
Marshall J, Nichols PD, Hallegraeff GM (2002) Chemotaxonomic survey of sterols and fatty acids in six marine raphidophyte algae. J Appl Phycol 14:255–265
Massana R, Terrado R, Forn I, Lovejoy C, Pedrós-Alió C (2006) Distribution and abundance of uncultured heterotrophic flagellates in the world oceans. Environ Microbiol 8:1515–1522
Matsuura H, Watanabe M, Kaya K (2012) Echinenone production of a dark red-coloured strain of Botryococcus braunii. J Appl Phycol 24:973–977
Mayer AMS, Glaser KB, Cuevas C, Jacobs RS, Kem W, Little RD, McIntosh JM, Newman DJ, Potts BC, Shuster DE (2010) The odyssey of marine pharmaceuticals: a current pipeline perspective. Trends Pharmacol Sci 31:255–265
Mendes A, Reis A, Vasconcelos R, Guerra P, Lopes da Silva T (2009) Crypthecodinium cohnii with emphasis on DHA production: a review. J Appl Phycol 21:199–214
Menoyo D, Lopez-Bote CJ, Bautista JM, Obach A (2003) Growth, digestibility and fatty acid utilization in large Atlantic salmon (Salmo salar) fed varying levels of n-3 and saturated fatty acids. Aquaculture 225:295–307
Min-Thein U (1993) Production of Spirulina in Myanmar (Burma). Bull Inst Oceanogr, Monaco 12:175–178
Mokady S, Abramovici A, Cogan U (1989) The safety evaluation of Dunaliella bardawil as a potential food supplement. Food Chem Toxicol 27:221–226
Molina Grima E, Sanchez Perez JA, Garcia Camacho F, Robles Medina A, Giminez Giminez A, Lopez Alonso D (1995) The production of polyunsaturated fatty acids by microalgae: from strain selection to product purification. Process Biochem 30:711–719
Molina Grima E, Garcia Camacho F, Ácien Fernandez FG (1999) Production of EPA from Phaeodactylum tricornutum. In: Cohen Z (ed) Chemicals from microalgae. Taylor & Francis, London, pp 57–92
Morlière P, Mazière J, Santus R, Smith CD, Prinsep MR, Stobbe CC, Fenning MC, Golberg JL, Chapman JD (1998) Tolyporphin: a natural product from cyanobacteria with potent photosensitising activity against tumor cells in vitro and in vivo. Cancer Res 58:3571–3576
Morton SL, Bomber JW (1994) Maximizing okadaic acid content from Prorocentrum hoffmannianum Faust. J Appl Phycol 6:41–44
Nagai H, Mikami Y, Yazawa K, Gonoi T, Yasumoto T (1993) Biological activities of novel polyether antifungals, gambieric acids A and B from a marine dinoflagellate Gambierdiscus toxicus. J Antibiot 46:520–522
Nasrabadi MR, Razavi SH (2010) Enhancement of canthaxanthin production from Dietzia natronolimnaea HS-1 in a fed-batch process using trace elements and statistical methods. Braz J Chem Eng 27:517–529
Ohta S, Shiomi Y, Kawashima A, Aozasa O, Nakao T, Nagate T, Kitamura K, Miyata H (1995) Antibiotic effect of linolenic acid from Chlorococcum strain HS-101 and Dunaliella primolecta on methicillin-resistant Staphylococcus aureus. J Appl Phycol 7:121–127
Oi VT, Glazer AN, Sryer L (1982) Fluorescent phycobilin conjugates for analysis of cells and molecules. J Cell Biol 93:981–986
Olaizola M (2000) Commercial production of astaxanthin from Haematococcus pluvialis using 25,000-liter outdoor photobioreactors. J Appl Phycol 12:499–506
Patterson GML, Larsen LK, Moore RE (1994a) Bioactive natural products from blue-green algae. J Appl Phycol 6:151–157
Patterson GW, Tsitsatzardis E, Wikfors GH, Ghosh P, Smith BC, Gladu PK (1994b) Sterols of eustigmatophytes. Lipids 29:661–664
Pelah D, Sintov A, Cohen E (2004) The effect of salt stress on the production of canthaxanthin and astaxanthin by Chlorella zofingiensis grown under limited light intensity. World J Microbiol Biotechnol 20:483–486
Pereira S, Zille A, Micheletti E, Moradas-Ferreira P, De Philippis R, Tamagnini P (2009) Complexity of cyanobacterial exopolysaccharides: composition, structures, inducing factors and putative genes involved in their biosynthesis and assembly. FEMS Microbiol Rev 33:917–941
Pérez JAS (1994) N-3 polyunsaturated fatty acid productivity of the marine microalga Isochrysis galbana—growth conditions and phenotypic selection. J Appl Phycol 6:475–478
Pettit GR, Kamano Y, Herald CL, Tuinman AA, Boettner FE, Kizu H, Schmidt JM, Baczynskyj L, Tomer K, Bonterns RJ (1987) The isolation and structure of a remarkable marine animal antineoplastic constituent: dolastatin 10. J Am Chem Soc 109:6883–6885
Philip S, Keshavarz T, Roy I (2007) Polyhydroxyalkanoates: biodegradable polymers with a range of applications. J Chem Technol Biotechnol 82:233–247
Piccaglia R, Marotti M, Grandi S (1998) Lutein and lutein ester content in different types of Tagetes patula and T. erecta. Ind Crops Prod 8:45–51
Plaza M, Herrero M, Cifuentes A, Ibáñez E (2009) Innovative natural functional ingredients from microalgae. J Agric Food Chem 57:7159–7170
Pulz O, Gross W (2004) Valuable products from biotechnology of algae. Appl Microbiol Biotechnol 65:635–648
Ratledge C (2004) Fatty acid biosynthesis in microorganisms being used for single cell oil production. Biochimie 86:807–815
Ratledge C (2010) Single cell oils for the 21st century. In: Cohen Z, Ratledge C (eds) Single cell oils. Microbial and algal oils. AOCS Press, Urbana, pp 3–26
Reddy CSK, Ghai R, Rashmi KVC (2003) Polyhydroxyalkanoates: an overview. Bioresour Technol 87:137–146
Rito-Palomares M, Nuñez L, Amador D (2001) Practical application of aqueous two-phase systems for the development of a prototype process for c-phycocyanin recovery from Spirulina maxima. J Chem Technol Biotechnol 76:1273–1280
Rodríguez-Sáiz M, de la Fuente J, Barredo J (2010) Xanthophyllomyces dendrorhous for the industrial production of astaxanthin. Appl Microbiol Biotechnol 88:645–658
Ryan AS, Zeller S, Nelson EB (2010) Safety evaluation of single cell oils and the regulatory requirements for use as a food ingredient. In: Cohen Z, Ratledge C (eds) Single cell oils: microbial and algal oils. AOCS Publishing, Urbana, pp 317–350
Sánchez J, Fernández-Sevilla J, Acién F, Cerón M, Pérez-Parra J, Molina-Grima E (2008) Biomass and lutein productivity of Scenedesmus almeriensis: influence of irradiance, dilution rate and temperature. Appl Microbiol Biotechnol 79:719–729
Schaeffer DJ, Krylov VS (2000) Anti-HIV activity of extracts and compounds from algae and cyanobacteria. Ecotoxicol Environ Saf 45:208–227
Schmidt I, Schewe H, Gassel S, Jin C, Buckingham J, Hümbelin M, Sandmann G, Schrader J (2011) Biotechnological production of astaxanthin with Phaffia rhodozyma/Xanthophyllomyces dendrorhous. Appl Microbiol Biotechnol 89:555–571
Schwenzfeier A, Wierenga PA, Gruppen H (2011) Isolation and characterization of soluble protein from the green microalgae Tetraselmis sp. Bioresour Technol 102:9121–9127
Schwenzfeier A, Helbig A, Wierenga PA, Gruppen H (2013) Emulsion properties of algae soluble protein isolate from Tetraselmis sp. Food Hydrocoll 30:258–263
Sekar S, Chandramohan M (2008) Phycobiliproteins as a commodity: trends in applied research, patents and commercialization. J Appl Phycol 20:113–136
Shi XM, Jiang Y, Chen F (2002) High-yield production of lutein by the green microalga Chlorella protothecoides in heterotrophic fed-batch culture. Biotechnol Prog 18:723–727
Singh S, Kate BN, Banerjee UC (2005) Bioactive compounds from cyanobacteria and microalgae: an overview. Crit Rev Biotechnol 25:73–95
Sioen I, Matthys C, Hyuybrechts I, Van Camp J, De Henauw S (2011) Consumption of plant sterols in Belgium: consumption patterns of plant sterol-enriched foods in Flanders, Belgium. Br J Nutr 105:911–918
Soeder CJ, Pabst W (1970) Gesichtspunkte fur die Verwendung von Mikroalgen in der Ernahrung von Mensch und Tier. Ber Deutsch Bot Ges 83:607–625
Solovchenko A, Khozin-Goldberg I, Didi-Cohen S, Cohen Z, Merzlyak M (2008) Effects of light intensity and nitrogen starvation on growth, total fatty acids and arachidonic acid in the green microalga Parietochloris incisa. J Appl Phycol 20:245–251
Sommer TR, D’Souza FML, Morrissy NM (1992) Pigmentation of adult rainbow trout, Oncorhynchus mykiss, using the green alga Haematococcus pluvialis. Aquaculture 106:63–74
Soong P (1980) Production and development of Chlorella and Spirulina in Taiwan. In: Shelef G, Soeder CJ (eds) Algae biomass. Elsevier/North Holland Biomedical Press, Amsterdam, pp 97–113
Spanova M, Daum G (2011) Squalene—biochemistry, molecular biology, process biotechnology, and applications. Eur J Lipid Sci Technol 113:1299–1320
Spiller GA, Dewell A (2003) Safety of an astaxanthin-rich Haematococcus pluvialis algal axtract: a randomized clinical trial. J Med Food 6:51–56
Spolaore P, Joannis-Cassan C, Duran E, Isambert A (2006) Commercial applications of microalgae. J Biosci Bioeng 101:87–96
Steinberg DC (2005) Cosmaceutical regulations—a global perspective. Cosmet Toiletries 120:32–36
Stephens E, Ross IL, King Z, Mussgnug JH, Kruse O, Posten C, Borowitzka MA, Hankamer B (2010) An economic and technical evaluation of microalgal biofuels. Nat Biotechnol 28:126–128
Stern RF, Horak A, Andrew RL, Coffroth M-A, Andersen RA, Küpper FC, Jameson I, Hoppenrath M, Véron B, Kasai F, Brand J, James ER, Keeling PJ (2010) Environmental barcoding reveals massive dinoflagellate diversity in marine environments. PLoS One 5:e13991
Stolz P, Obermayer B (2005) Manufacturing microalgae for skincare. Cosmet Toiletries 120:99–106
Streekstra H (2010) Arachidonic acid: fermentative production by Mortierella fungi. In: Cohen Z, Ratledge C (eds) Single cell oils. Microbial and algal oils. AOCS Publishing, Urbana, pp 97–114
Sukenik A (1999) Production of eicosapentaenoic acid by the marine eustigmatophyte Nannochloropsis. In: Cohen Z (ed) Chemicals from microalgae. Taylor & Francis, London, pp 41–56
Tababa H, Hirabayashi S, Inubushi K (2012) Media optimization of Parietochloris incisa for arachidonic acid accumulation in an outdoor vertical tubular photobioreactor. J Appl Phycol 24:887–895
Tamiya H (1957) Mass culture of algae. Ann Rev Plant Physiol 8:309–344
Tanticharoen M, Reungjitchachawali M, Boonag B, Vonktaveesuk P, Vonshak A, Cohen Z (1994) Optimization of γ-linolenic acid (GLA) production in Spirulina platensis. J Appl Phycol 6:295–300
Thomas SS, Swaminathan K, Nagaraj JB (2003) Process to produce astaxanthin from Haematococcus biomass. PCT Patent 03/027267
Toh PSY, Jau M-H, Yew S-P, Abed RMM, Sudesh K (2008) Comparison of polyhydroxyalkonates biosynthesis, mobilization and the effects of cellular morphology in Spirulina platensis and Synechocystis sp. UNIWG. J Biosci 19:21–38
Venkataraman LV, Becker WE, Shamala TR (1977) Studies on the cultivation of the alga Scenedesmus acutus as a single cell protein. Life Sci 20:223–234
Vincenzini M, De Philippis R (1999) Polyhydroxyalkonates. In: Cohen Z (ed) Chemicals from microalgae. Taylor & Francis, London, pp 292–312
Vincenzini M, Sili C, De Philippis R, Ena A, Materassi R (1990) Occurrence of poly-β-hydroxybutyrate in Spirulina species. J Bacteriol 172:2791–2792
Volkman JV (2003) Sterols in microorganisms. Appl Microbiol Biotechnol 60:495–506
von Oppen-Bezalel L, Shaish A (2009) Application of the colourless carotenoids, phytoene and phytofluene in cosmetics, wellness, nutrition, and theropeutics. In: Ben-Amotz A, Polle JEW, Subba Rao DV (eds) The alga Dunaliella: biodiversity, physiology, genomics and biotechnology. Science Publishers, Enfield, pp 423–444
Wang Y, Chen T (2008) The biosynthetic pathway of carotenoids in the astaxanthin-producing green alga Chlorella zofingiensis. World J Microbiol Biotechnol 24:2927–2932
Whistler RL, BeMiller JN (eds) (1993) Industrial gums: polysaccharides and their derivatives, 3rd edn. Academic, San Diego
Wijffels RH, Barba E (2010) An outlook on microalgal biofuels. Science 329:796–799
Wu GF, Shen ZY, Wu QY (2002) Modification of carbon partitioning to enhance PHB production in Synechocystis sp. PCC6803. Enzyme Microb Technol 30:710–715
Wynn J, Behrens P, Sundararajan A, Hansen J, Apt K (2010) Production of single cell oils from dinoflagellates. In: Cohen Z, Ratledge C (eds) SIngle cell oils. Microbial and algal oils. AOCS Press, Urbana, pp 115–129
Yamaguchi K, Murakami M, Okino T (1989) Screening of angiotensin-converting enzyme inhibitory activities in microalgae. J Appl Phycol 1:271–275
Zeller S (2005) Safety evaluation of single cell oils and the regulatory requirements for use as food ingredients. In: Cohen Z, Ratledge C (eds) Single cell oils. AOCS Press, Urbana, pp 161–181
Zhukova NV, Aizdaicher NA (1995) Fatty acid composition of 15 species of marine microalgae. Phytochemistry 39:351–356
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Borowitzka, M.A. High-value products from microalgae—their development and commercialisation. J Appl Phycol 25, 743–756 (2013). https://doi.org/10.1007/s10811-013-9983-9
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DOI: https://doi.org/10.1007/s10811-013-9983-9