Nuevos Avances en el Estudio de Fosfolípidos Nutrimentales para Camarón

Authors

  • Hui Gong University System
  • Dong Huo Jiang University System,
  • Addison L. Lawrence University System,
  • Mayra L. González- Félix University System,
  • Martin Perez-Velazquez Departamento de Investigaciones Científicas y Tecnológicas, Universidad de Sonora,

Keywords:

Phospholipid nutrition of shrimp

Abstract

La suplementación dietética (1.6-5%) de fosfolípidos es necesaria para el crecimiento de varias especies de
camarón en los estadios larval y juvenil, así como para su incorporación a órganos reproductivos durante la
maduración sexual.
Las investigaciones recientes señalan que: 1) hay una interacción significativa del efecto de los fosfolípidos y el
colesterol dietético sobre el crecimiento de camarón; 2) una provisión suficiente de fosfolípidos aporta el
requerimiento de colina para crecimiento y no viceversa; 3) no se ha detectado una interacción significativa del
efecto de los fosfolípidos y los ácidos grasos altamente insaturados sobre el crecimiento de camarón, pero si
sobre el contenido de lípido en músculo de camarón y su sensibilidad a estrés osmótico.
Con base en avances recientes en la investigación científica de los fosfolípidos y las nuevas tendencias en el
cultivo de camarón, se considera que los siguientes aspectos requieren de mayores estudios: 1) el papel de los
fosfolípidos en sistemas de cultivo de camarón en agua de baja salididad y sin intercambio de agua; 2) la
relación entre los fosfolípidos y otros nutrientes de naturaleza lipídica tales como vitaminas liposolubles,
carotenoides y ácidos grasos altamente insaturados; 3) los componentes activos de los fosfolípidos de la
lecitina.

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References

Almansa, E., Sanchez, J. J., Cozzi, S., Rodriguez, C., Diaz, M., 2003. Temperature-activity relationship for

the intestinal Na+-K+-ATPase of Sparus aurata. A role for the phospholipids microenvironment? J.

Comp. Physiol. B 173, 231-237.

Alava, V.R., Kanazawa, A., Teshima, S., Shunsuke, K., 1993. Effect of dietary phospholipids and –3 highly

unsaturated fatty acids on ovarian development of kuruma prawn. Nippon Suisan Gakkaishi, 59(2),

-351.

Arcos, G.F., Ibarra, A.M., Vazquez-Boucard, C., Palacios, E., Racotta, I.S., 2003. Haemolymph metabolic

variables in relation to eyestalk ablation and gonad development of Pacific white shrimp Litopenaeus

vannamei Boone. Aquacult. Res. 34, 749-755.

Besterman, J.M., Duronio, V., Cuatrecasas, P., 1986. Rapid formation of diacylglycerol from

phosphatidylcholine: a pathway for generation of a second messenger. Proc. Natl. Acad. Sci. USA

, 6785-6789.

Bray, W.A., Lawrence, A.L., Leung-Trujillo, J.R., 1989. Reproductive performance of ablated Penaeus

stylirostris fed a soy lecithin supplement, J. World Aquacult. Soc. 20, 19A.

Cahu, C., Guillaume, J.C., Stephan, G., Chim, L., 1994. Influence of phospholipid and highly unsaturated

fatty acids on spawning rate and egg and tissue composition in Penaeus vannamei fed semi-purified

diets. Aquaculture 126, 159-170.

Camara, M.R., Coutteau, P., Sorgeloos, P., 1997. Dietary phosphatidylcholine requirements in larval and

postlarval Penaeus japonicus Bate. Aquacult. Nutr. 3, 39-47.

Chang, C.F., Lee, F.Y., Huang, Y.S., Hong, T.H., 1994. Purification and characterization of the femalespecific

protein (vitellogenin) in mature female hemolymph of the prawn, Penaeus monodon.

Invertebr. Reprod. Dev. 25, 185-191.

Chen, H.Y., 1993. Requirements of marine shrimp Penaeus monodon juveniles for phosphatidylcholine and

cholesterol. Aquaculture 109, 165-176.

Chen, C.C., Chen, S.N., 1993. Isolation and partial characterization of vitellin from the egg of the giant tiger

prawn Penaeus monodon. Comp. Biochem. Physiol. 106B, 141-146.

Chen, H.Y., Jenn, J.S., 1991. Combined effects of dietary phosphatidylcholine and cholesterol on the

growth, survival and body lipid composition of marine shrimp, Penaeus penicillatus. Aquaculture

, 167-178.

Cornelius, F., 2001. Modulation of Na, K-ATPase and Na-ATPase activity by phospholipids and cholesterol.

I. Steady-state kinetics. Biochem. 40, 8842-8851.

Cornelius, F., Turner, N., Christensen, H.R., 2003. Modulation of Na, K-ATPase by phospholipids and

cholesterol. II. Steady-state and presteady-state kinetics. Biochem. 42, 8541-8549.

Coutteau, P., Camara, M.R., Sorgeloos, P., 1996. The effect of different levels and sources of dietary

phosphatidylcholine on the growth, survival, stress resistance, and fatty acid composition of

postlarval Penaeus vannamei. Aquaculture 147, 261-273.

Coutteau, P., Geurden, I., Camara, M.R., Bergot, P., Sorgeloos, P., 1997. Review on the dietary effects of

phospholipids in fish and crustacean larviculture. Aquaculture 155, 149-164.

Coutteau, P., Kontara, E.K.M., Sorgeloos, P., 2000. Comparison of phosphatidylcholine purified from

soybean and marine fish roe in the diet of postlarval Penaeus vannamei Boone. Aquaculture 181,

-345.

Exton, J.H., 1990. Signaling through phosphatidylcholine breakdown. J. Biol. Chem. 265, 1-4.

Gong, H., Jiang, D. H., Lightner, D. V., Collins, C., Brock. D., 2004. A Dietary Modification Approach to

Improve the Osmoregulatory Capacity of Litopenaeus vannamei Cultured in Arizona Desert.

Aquacult. Nutr. 10, 1-10.

Gong, H., Lawrence, A.L., Jiang, D.H., Gatlin III., D.M., 2003. Effect of Dietary Phospholipids on the

Choline Requirement of Litopenaeus vannamei Juveniles. Journal of the World Aquaculture Society.

(3), 289-299.

Gong, H., Lawrence, A. L., Gatlin III, D. M., Jiang, D. H., Zhang, F., 2001. Comparison of Different Types

and Levels of Commercial Soybean Lecithin Supplemented in Semipurified Diets for Juvenile

Litopenaeus vannamei Boone. Aquacult. Nutr. 7, 11-17.

Gong, H., Lawrence, A. L., Jiang, D. H., Castille, F. L., Gatlin III., D. M., 2000a. Lipid Nutrition of Juvenile

Litopenaeus vannamei I. Dietary Cholesterol and Phospholipid Requirements and Their Interaction.

Aquaculture 180, 305-324.

Gong, H., Lawrence, A. L., Jiang, D. H., Gatlin III., D. M., 2000b. Lipid Nutrition of Litopenaeus vannamei.

II. Active Components of Soybean Lecithin. Aquaculture 180, 325-342.

Gonzalez-Felix, M.L., Lawrence, A.L., Gatlin III, D.M., Perez-Velazquez, M., 2002a. Growth, survival and

fatty acid composition of juvenile Litopenaeus vannamei fed different oils in the presence and

absence of phospholipids. Aquaculture 205, 325-343.

Gonzalez-Felix, M.L., Gatlin III, D.M., Lawrence, A.L., Perez-Velazquez, M., 2002b. Effect of dietary

phospholipid on essential fatty acid requirement and tissue lipid composition of Litopenaeus

vannamei juveniles. Aquaculture 207, 151-167.

Hall, M., Vanheusden, M.C., Soderhall, K., 1995. Identification of the major lipoproteins in crayfish

hemolymph as proteins involved in immune recognition and clotting. Biochem. Biophys. Res.

Commun. 216, 939-946.

Hertrampf, W. J., 1992. Feeding Aquatic Animals with Phospholipids II. Fishes. Lucas Meyer Publication

No. 11. Lucas Meyer GmbH & Co., Hamburg, Germany, 70 pp.

Jeckel, W.H., Aizpun de Moreno, J.E., Moreno, V.J., 1989. Biochemical composition, lipid classes and fatty

acids in the male reproductive system of the shrimp Pleoticus muelleri Bate. Comp. Biochem.

Physiol., 93B (4), 807-811.

Kanazawa, A., Teshima, S., Sakamoto, M., 1985. Effects of dietary lipids, fatty acids, and phospholipids on

growth and survival of prawn (Penaeus japonicus) larvae. Aquaculture 50, 39-49.

Kanazawa, A., 1993. Essential phospholipids of fish and crustaceans. In: Kausife, S.J., Luquet, P. (Eds.), Fish

Nutrition in Practice. INRA Editions, Versailles Cedex, France, pp. 519-530.

Kanazawa, A., 1997. Effects of docosahexaenoic acid and phospholipids on stress tolerance of fish larvae.

Aquaculture 155, 129-134.

Kontara, E.K.M., Coutteau, P., Sorgeloos, P., 1997. Effect of dietary phospholipids on requirements for and

incorporation of n-3 highly unsaturated fatty acids in postlarval Penaeus japonicus Bate. Aquaculture

, 305-320.

Lim, C., Ako, H., Brown, C. L., Hahn, K., 1997. Growth response and fatty acid composition of juvenile

Penaeus vannamei fed different sources of dietary lipid. Aquaculture 151, 143-153.

Lubzens, E., Ravid, T., Khayat, M., Daube, N., Tietz, A., 1997. Isolation and characterization of the highdensity

lipoproteins from the hemolymph and ovary of the penaeid shrimp Penaeus semisulatus (de

Haan): Apoproteins and lipids. J. Exp. Zool. 278, 339-348.

Nishizuka, Y., 1992. Intracellular signaling by hydrolysis of phospholipids and activation of protein kinase C.

Science 258, 607-614.

Perez-Velazquez, M., 2001. Nurtitional and environmental factors in maturation of male Litopenaeus

vannamei. Doctoral thesis, Texas A&M University, College Station, TX, USA.

Piedad-Pascual, F., 1986. Effect of supplemental lecithin and lipid sources on the growth and survival of

Penaeus monodon juveniles. In: Asia Fisheries Society. Proceedings of the First Asian Fisheries

Forum. Manila, Philippines, pp. 615-618.

Ravid, T., Tietz, A., Khayat, M., Boehm, E., Michelis, R., Lubzens, E., 1999. Lipid accumulation in the

ovaries of a marine shrimp Penaeus semisulcatus (de Haan). J. Exp. Biol. 202, 1819-1829.

Ruiz-Verdugo, L.M., Garcia-Banuelos, M.L., Vargas-Albores, F., Higuera-Ciapara, I., Yepiz-Plascencia, G.,

Amino acids and lipids of the plasma HDL from the white shrimp Penaeus vannamei Boone.

Comp. Biochem. Physiol. 118B, 91-96.

Teshima, S., Kanazawa, A., 1980. Lipid constituents of serum lipoproteins in the prawn. Bull. Jpn. Soc. Sci.

Fish 46, 57-62.

Teshima, S., Kanazawa, A., Kakuta, Y., 1986. Effects of dietary phospholipids on growth and body

composition of the juvenile prawn. Bull. Jpn. Soc. Sci. Fish. 52, 155-158.

Teshima, S., 1997. Phospholipids and sterols. In: D’Abramo, L.R., Conklin, D.E., Akiyama, D.M. (Eds.),

Advances in World Aquaculture Volume 6. Crustacean Nutrition. World Aquaculture Society, Baton

Rouge, LA, USA, pp. 85-107.

Thongrod, S., Boonyaratpalin, M., 1998. Cholesterol and lecithin requirement of juvenile banana shrimp,

Penaeus merguiensis. Aquaculture 161, 315-321.

Yepiz-Plascencia, G., Vargas-Albores, F., Jimenez-Vega, F., Ruiz-Verdugo, L.M., Romo-Figueroa, G., 1998.

Shrimp plasma HDL and β-glucan binding protein (BGBP): comparison of biochemical

characteristics. Comp. Biochem. Physiol. 121B, 309-314.

Zeisel, S.H., 1993. Choline phospholipids: signal transduction and carcinogenesis. FASEB J. 7, 551-557.

How to Cite

Gong, H., Huo Jiang, D., L. Lawrence, A., González- Félix, M. L., & Perez-Velazquez, M. (2019). Nuevos Avances en el Estudio de Fosfolípidos Nutrimentales para Camarón. Avances En Nutrición Acuicola. Retrieved from https://nutricionacuicola.uanl.mx/index.php/acu/article/view/204

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