Effects of dietary vegetable oils on growth, lipogenic enzyme activities and tissue fatty acid composition of Heterobranchus longifilis

Alvarez M. J., Diez A., Lopez-Bote C., Gallego M., Bautista J.M. (2000): Short-termmodulation of lipogenesis by macronutrients in rainbow trout (Oncorhynchus mykiss) hepatocytes. British Journal of Nutrition 84: 619–628.10.1017/S0007114500001951Search in Google Scholar

Babalola T. O. (2010): Utilization of dietary animal fats and vegetable oils by African catfish (Heterobranchus longifilis) fingerlings. Dissertation, University of Ilorin, Nigeria.Search in Google Scholar

Babalola T. O., Apata D. F. (2012): Effect of dietary palm oil on growth and carcass composition of Heterobranchus longifilis fingerlings. Journal of Central European Agriculture 13: 782–791.10.5513/JCEA01/13.4.1130Search in Google Scholar

Bautista J. M., Garrido-Pertierra A., Soler G. (1988): Glucose-6-Phosphate dehydrogenase from Dicentrarchus labraxiver: k inetic mechanism and kinetics of NADPH inhibition. Biochimica et Biophysica Acta 967: 354–363.10.1016/0304-4165(88)90098-0Search in Google Scholar

Bell J. G., Dick J. R., Sargent J. R. (1993): Effects of diets rich in linoleic or α-linolenicacid on phospholipid fatty acid composition and eicosanoid production in Atlantic salmon (Salmo salar). Lipids 28: 819–826.10.1007/BF02536236Search in Google Scholar

Bell J. G., McGhee F., Campbell P. J., Sargent J. R. (2003): Rapeseed oil as an alternative to marine fish oil in diets of post-smolt Atlantic salmon (Salmo salar): changes in flesh fatty acid composition and effectiveness of subsequent fish oil ‘wash out’. Aquaculture 218: 515–528.10.1016/S0044-8486(02)00462-3Search in Google Scholar

Blanchard G., Makombu J. G., Kestemont P. (2008): Influence of different dietary 18:3n-3/18:2n-6 ratio on growth performance, fatty acid composition and hepatic ultrastructure in Eurasian perch, Perca fluviatilis. Aquaculture 284: 144–150.10.1016/j.aquaculture.2008.07.011Search in Google Scholar

Caballero M. J., Obach A., Rosenlund G., Montero D., Gisvold M., Sizquierdo M. (2002): Impact of different dietary lipid sources on growth, lipid digestibility, tissue fatty acid composit ion and histology of rainbow trout, Oncorhynchus mykiss. Aquaculture 214: 253–271.10.1016/S0044-8486(01)00852-3Search in Google Scholar

Drew M. D., Ogunkoya A. E., Janz D. M., Van Kessel A. G. (2007): Dietary influence of replacing fish meal and oil with canola protein concentrate and vegetable oils on growth performance, fatty acid composition and organochlorine residues in rainbow trout (Oncorhynchus mykiss). Aquaculture 267: 260–268.10.1016/j.aquaculture.2007.01.002Search in Google Scholar

Fontagné S., Pruszynski T., Corraze A-M., Bergot P. (1999): Effect of coconut oil and tricaprylin vs triolein on survival, growth and fatty acid composition of common carp (Cyprinus carpio L.) larvae. Aquaculture 179: 241–251.10.1016/S0044-8486(99)00193-3Search in Google Scholar

Food and Agricultura Organization (FAO)/World Health Organization (WHO) (1994): Fats and oils in human nutrition. Report of a joint FAO/WHO expert consultation. Food and Nutrition Paper 57. Food and Agriculture Organization, RomeSearch in Google Scholar

Gurr M. I. (2009): Lipids in nutrition and health: A reappraisal. [online] Available from: http://www.oilypress.com.Search in Google Scholar

Henderson R. J. (1996): Fatty acid metabolism in freshwater fish with particular reference to polyunsaturated fatty acids. Archive of Animal Nutrition 49: 5–22.10.1080/174503996093818598766969Search in Google Scholar

Henderson R. J., Tocher D. R. (1987): The lipid composition and biochemistry of freshwater fish. Progress in Lipid Research 26: 281–347.10.1016/0163-7827(87)90002-6Search in Google Scholar

Horton A. A., Fairhurst S. (1987): Lipid peroxidation and mechanisms of toxicity. Critical Reviews in Toxicology 18: 27–79.10.3109/10408448709089856Search in Google Scholar

James D. G. (1994): Fish as Food: Present Utilisation and Future Prospects, Omega-3 News 9: 1–4.Search in Google Scholar

Kletzien R. F., Harris P. K., Foellmi L. A. (1994): Glucose-6-phosphate dehydrogenase: a “house-keeping” enzyme subject to tissue specific regulation by hormones, nutrients and oxidant stress. The FASEB Journal 8: 174–181.10.1096/fasebj.8.2.8119488Search in Google Scholar

Kucska B., Pál L., Müller T. Bodis M., Bartos A., Wagner L., Husveth F., Bercsenyi M. (2006): Changing of fat content and fatty acid profile of reared pike (Esox lucius) fed two different diets. Aquaculture Research 37: 96–101.10.1111/j.1365-2109.2005.01402.xSearch in Google Scholar

Leaf A., Kang J.X. (1998): Omega 3 fatty acids and cardiovascular disease.World Review of Nutrition and Dietetics 83: 24–37.10.1159/000059667Search in Google Scholar

Legendre M., Kerdchuen N., Corraze G., Bergot P. (1995): Larval rearing of an African catfish, Heterobranchus longifilis: effect of dietary lipids on growth, survival and fatty acid composition of fry. Aquatic Living Resources 8: 355–363.10.1051/alr:1995040Search in Google Scholar

National Research Council (NRC) (1993): Nutrient Requirements of Fish. National Academy Press, Washington D.C., USA.Search in Google Scholar

Ng W. K., Sigholt T., Bell J. G. (2004): The influence of environmental temperature on the apparent nutrient and fatty acid digestibility in Atlantic salmon (Salmo salar L.) fed diets containing different blends of fish oil, rapeseed oil and palm oil. Aquaculture Research 35: 1228–1237.10.1111/j.1365-2109.2004.01131.xSearch in Google Scholar

Ochoa S. (1955): Malic enzyme, in: Colowick S. P., Kaplan N.O. (Eds.): Methods in Enzymology, Academic Press Inc, New York, USA, 1955, Vol. 1, pp. 739–753.10.1016/0076-6879(55)01129-4Search in Google Scholar

Olsen R. E., Henderson R. J., McAndrew B. J. (1990): The conversion of linoleic acid and linolenic acid to longer chain polyunsaturated fatty acids by tilapia (Oreochromis niloticus) in vivo. Fish Physiology and Biochemistry 8: 261–270.10.1007/BF00004465Search in Google Scholar

Rosenlund G., Obach A., Gisvold M., Standal H., Tveit K. (2000): Effect of AlternativeLipid Sources on Long Term Growth Performance and Quality of Atlantic salmon (Salmo salar). The Ninth International Symposium on Nutrition and Feeding of Fish, May 21–25 Miyazaki, Japan (Abstract).Search in Google Scholar

Shahbandeh M. (2019): Production of major vegetable oils worldwide from 2012/13 to 2018/2019, by type (in million metric tons). Retrieved from www.statista.com/statistics/263933/production-of-vegetable-oils-worldwide-since-2000/Search in Google Scholar

Stabile L. P., Klautky S. A., Minor S. M., Salati L. M. (1998): Polyunsaturated fatty acids inhibit the expression of the glucose-6-phosphate dehydrogenase gene in primary rat hepatocytes by a nuclear posttranscriptional mechanism. Journal of Lipid Research 39: 1951–1963.10.1016/S0022-2275(20)32493-7Search in Google Scholar

Sukhija P. S., Palmquist D. L. (1988): Rapid method for determination of total fatty acid content and composition of feedstuffs and faeces. Journal of Agricultural and Food Chemistry 36: 1202–1206.10.1021/jf00084a019Search in Google Scholar

Tocher D. R., Bell J. G., McGhee F. Dick J. R., Fonseca-Madrigal J. (2003): Effects of dietary lipid level and vegetable oil on fatty acid metabolism in Atlantic salmon (Salmo salar L.) over the whole production cycle. Fish Physiology and Biochemistry 29: 193–209.10.1023/B:FISH.0000045722.44186.eeSearch in Google Scholar

Turchini G. M., Francis D. S., De Silva S. S. (2006): Fatty acid metabolism in the freshwater fish Murray cod (Maccullochella peeliipeelii) deduced by the whole-body fatty acid balance method. Comparative Biochemistry and Physiology144B: 110–118.10.1016/j.cbpb.2006.01.01316513379Search in Google Scholar

Wang S., Liu X., Xu S. Wu Q., You C., Monroig Ó., Tocher D. R., Li Y. (2018): Total replacement of dietary fish oil with a blend of vegetable oils in the marine herbivorous teleost, Siganus canaliculatus. Journal of World Aquaculture Society 49: 692–702.10.1111/jwas.12434Search in Google Scholar

Xu X., Kestemont P. (2002): Lipid metabolism and fatty acid composition of European perch tissues as influenced by dietary fat. Lipids 37: 297–304.10.1007/s11745-002-0894-211942481Search in Google Scholar

Zampelas A., Morgan L.M., Furlonger N., Williams C. M. (1995): Effects of dietaryfatty acid composition on basal and hormone stimulated hepatic lipogenesis and on circulating lipids in the rat. British Journal of Nutrition 74: 381–392.10.1079/BJN199501427547851Search in Google Scholar

Zheng X., Torstensen B. E., Tocher D. R., Dick J. R., Henderson R. J., Bell J. G. (2005): Environmental and dietary influences on highly unsaturated fatty acid biosynthesis and expression of fatty acyl desaturase and elongase genes in liver of Atlantic salmon (Salmo salar). Biochimica et Biophysica Acta 1734: 13–24.10.1016/j.bbalip.2005.01.00615866479Search in Google Scholar