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Sudarsanam, D. and Anita Devi, C.P. (2004). Marine wealth and human health: A
pharmaceutical perspective. Aquaculture Foundation of India, Proc. Int. Conf. Marine
Living Resources of India for Food and Medicine, February, 27-29, 2004, Chennai, India.
Suetsuna, K. and Chen, J.-R. (2001). Identifi cation of antihypertensive peptides from peptic
digest of two microalgae, Chlorella vulgaris and Spirulina platensis . Mar. Biotechnol. 3:
Thakur, A.N., Thakur, N.L., Indap, M.M., Pandit, A.R., Vrushali V., Datar, V.V. and Müller,
W.E.G. (2005). Antiangiogenic, antimicrobial, and cytotoxic potential of sponge-associated
bacteria. Mar. Biotechnol. 7: 245-250.
Tokusoglu, O., and Unal, M.K. (2003). Biomass nutrient profi les of three microalgae: Spirulina
platensis , Chlorella vulgaris , and Isochrisis galbana. J. Food Sci . 68: 4-9.
Venugopal, V. (2008). Drugs and pharmaceuticals from marine sources. In: Marine Products
for Healthcare: Functional and Bioactive Nutraceuticals from the Ocean. V. Venugopal
(author) CRC Press, Boca Raton, Fl., USA.
Volkman, J.K. (1999). Australasian research on marine natural products: chemistry, bioactivity
and ecology. Mar. Freshwater Res. 50: 761-767.
Voss, J.D. and Richardson, L.L. (2006), Nutrient enrichment enhances black band disease
progression in corals. Coral Reefs. 25: 569-573.
Wang, Y., Chang, C.F., Chou, J. Cheng, H.L., Deng, X., Harvey, B.K., Cadet, J.L. and Bickford,
P.C. (2005a). Dietary supplementation with blueberries, spinach, or spirulina reduces
ischemic brain damage. Exp. Neurol. 193: 75-79.
Wang, L., Ridgway, D., Gu, T. and Moo-Young, M. (2005b). Bioprocessing strategies to
improve heterologous protein production in fi lamentous fungal fermentation, Research
review. Biotechnol. Adv. 23: 115-129.
White, R.A. and White, E.W. (2003). Biomedical applications of marine natural products. In:
Marine Biotechnology in the 21st Century: Problems, Promises and Products, National
Academy Press, Washington, D.C., USA.
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