Biology Reference
In-Depth Information
Dufosse, L., Murthy, K.N.C. and Ravishankar, G.A. (2005). Microorganisms and microalgae
as sources of pigments for food use: a scientifi c oddity or an industrial reality? Trends
Food Sci. Technol. 16: 389-393.
El-Gamal, A.A.H., Chiu, E.P., Li, C-H., Cheng, S-Y., Dai, C-F. and Duh, C-Y. (2005).
Sesquiterpenoids and non-sesquiterpenoids from the Formosan soft coral,
Lemnalia laevis
.
J. Nat. Prod. 68: 1749-1953.
Fabregas, J. and Herrero, C. (1990). Vitamin content of four marine microalgae: Potential use
as source of vitamins in nutrition. J. Ind. Microbiol. Biotechnol. 5: 259-262.
Falkowski, P. G. (2002). The ocean's invisible forest. Sci. Amer
.,
August issue, p. 47.
FAO (2004). The State of World Fisheries and Aquaculture, Part 4, Outlook, Editorial
Production and Design Group, Food and Agriculture Organization of the United Nations,
Rome, Italy.
Feling, R.H., Buchanan, G.O., Mincer, T.J., Kauffman, C.A., Jensen, P.R., and Fenical,
W.
(2003).
Salinosporamide A: a highly cytotoxic proteasome inhibitor from a novel
microbial source, a marine bacterium of the new genus
Salinospora
.
Angew. Chem. Int.
Ed. Eng.
42: 355-357.
Gouveia, L., Nobre, B.P., Marcelo, F.M., Mrejen, S., Cardoso, M.T., Palavra, A.F. and Mendes,
R.L. (2007). Functional food oil colored by pigments extracted from microalgae with
supercritical CO
2.
Food Chem. 101: 717-721.
Gross, H. and Kong, G.M. (2006). Terpenoids from marine organisms: Unique structures and
their pharmacological potential, Phytochem. Rev
.
5: 115-119.
Haard, N.F. (1998). Specialty enzymes from marine organisms. Food Technol
.
52: 64-68.
HBOI (2006) Harbor Branch Oceanographic Institution, Drug Discovery Team to Explore
Newly Discovered Deep-sea Reefs,
http://www.fau.edu/hboi/
Henkel, J
.
(1998). FDA
Consumer magazine (January-February issue, US. FDA, Washington
D.C, USA.
Herrero, M., Jaime, L., Martín-Álvarez, P. J., Cifuentes, A., and Ibáñez, E. (2006). Optimization
of the extraction of antioxidants from
Dunaliella salina
microalga by pressurized liquids,
J. Agric. Food Chem
.
54: 5597-5603.
Hooper, N.A. and van Soest, R.W.M. (2002). Systema Porifera: A guide to the
Classifi cation of
Sponges. Kluwer Academic/Plenum Press, New York, USA.
Ip, P.-F., and Chen, F. (2005). Production of astaxanthin by the green microalga
Chlorella
zofi ngiensis
in the dark. Process Biochem. 40: 733-737.
Ireland, C.M., Copp, B.R., Foster, M.P., McDonald, L.A., Radisky, D.C. and Swersey, J.C. (2000).
Bioactive compounds from the sea. In: Marine and Freshwater Products Handbook.
R.E
.
Martin, E.P. Carter, G.J. Flick, Jr. and L.M. Davis (eds). Technomic, Lancaster, UK.
Irigoien, X. et al. (2004). Global biodiversity patterns of marine phytoplankton and
zooplankton. Nature 429: 863-869.
Jeffrey, S.W., Vesk, M., and Mantoura, R.F.C. (1997). Phytoplankton pigments: windows into
the pastures of the sea. Nature and Resources
33: 14-19.
Jensen, P. R. and Fenical, W. (2005). New natural products diversity from marine actinomycetes.
In: Natural Products: Drug Discovery and Therapeutic Medicines.
L
.
Zhang and A.L.
Demain (eds). Humana Press, New Jersey
,
USA
pp. 315-324.
Jostenseri, J-P. and Landfaid, B. (1997). High prevalence of polyunsaturated fatty acid
producing bacteria in arctic invertebrates. FEMS Microbiol Lett. 151: 395-399.
Kim, S-K., Ravichandran, Y.D., Khan, S.B. and Kim, Y.T. (2008). Prospective of the
cosmeceuticals derived from marine organisms. Biotechnol. Bioprocess Eng.
13: 511-523.
Kurano, N. and Miyachi, S. (2004). Microalgal studies for the 21st Century. Hydrobiologia
512: 27-31.
Liebezeit, C. (2005). Aquaculture of 'non-food organisms' for natural substance production.
Adv. Biochem. Eng. Biotechnol.
97: 1-28.
Lemos, M. L. (1985). Antibiotic activity of epiphytic bacteria isolated from intertidal seaweeds.
Earth Environ. Sci. 11: 149-154.
