KnE Life Sciences

ISSN: 2413-0877

The latest conference proceedings on life sciences, medicine and pharmacology.

GROWTH PERFORMANCE AND HISTOLOGICAL APPEARANCE OF THE HUMPBACK GROUPER JUVENILE (CROMILEPTESALTIVELIS) AFTER TREATED WITH RECOMBINANT GROWTH HORMONE

Published date: Feb 01 2015

Journal Title: KnE Life Sciences

Issue title: International Symposium on Aquatic Product Processing (ISAPPROSH) 2013

Pages: 191-200

DOI: 10.18502/kls.v1i0.104

Authors:

Suci Antorosuciantoro@yahoo.comMain Center for Mariculture Development, Ministry of the Marine and Fishery

M Zairin Juniorquaculture Department, Bogor Agriculture University

A AlimuddinAquaculture Department, Bogor Agriculture University

Agus SuprayudiAquaculture Department, Bogor Agriculture University

Irvan FaizalAgency for Assessment and Applicationof Technology (BPPPT)

Abstract:

Despite as high price consumption fish, humpback grouper grow out take very long time so its culture considered not efficient. Therefore to accelerate its growth rate and make grow out culture more efficient, recombinant Epinepheluslanceolatus growth hormone (rElGH) was applied by oral route. Daily application of rough rElGH at a dose of 5 mg/100 g commercial diet for 42 days resulted significance increase in growth rate compared to control groups. No specific histological damage on kidney, liver and spleen which was attributable to rElGH administration. These results strongly suggested that growth stimulation following oral administration was due to a specific action of rElGH and recombinant GH as mentioned above save for fish consumption.

Keywords: growth, histology, humpback grouper, recombinant growth hormone 

References:

Acosta J, Morales R, Morales A, Alonso M, Estrada MP.2007. Pischiapastoris expressing recombinant tilapia growth hormone accelerates the growth of tilapia, Biotechnol. Lett. 29:1671-1676.
Agius C, Roberts RJ. 2003. Melano-macrophage centres and their role in fish pathology,J. Fish Diseases 26: 499–509.
Alimuddin, Lesmana I, Sudrajat AO, Carman O, Faizal I. 2010. Production and bioactivity potential of three recombinant growth hormones of farmed fish.Indonesian Aquaculture Journal, 5:11-16.
Bin X, Kang-sen M, Ying-li X, H o n g - zhii M, Zhen-hui L, Yong D, Shan L, Rao W, Pei-jun Z. 2001. Growth Promotion of RedSeabream, Pagrosomus mayor,by Oral Administrationof Recombinant Eel and Salmon Growth Hormone.Chinese Journal of Oceanology and IimnologyVol.19 (2) P:141 – 146.
Birzniece V, Sata A, Ho KKY. 2009. Growth hormone receptor modulators. Rev. Endocr. Metab.Disord. 10: 145-156.
Bolander FF. 2004. Molecular Endocrinology, Ed ke-3. London: Elsevier Academic Press, 617pp.
Donaldson EM, Fagerlund UHM, Higgs DA, McBride JR. 1979. Hormonal enhancement of growth. In: Hoar WS, Randall DJ, Brett JR. (Eds.), Fish Physiology, vol. 8. Academic Press, New York, pp. 456– 598.
Farris GM, Miller GK, Wollenberg GK, Molon-Noblot S, Chan C, Prahalada S. 2007.Recombinant Rat and Mouse Growth Hormones: Risk Assessment of Carcinogenic Potential in 2-Year Bioassays in Rats and Mice. Toxicological Sciences 97(2): 548–561.
Funkenstein B, Dyman A, Lapidot Z, de Jesus-Ayson EG, Gertler A, Ayson FG. 2005. Expression and purification of a biologically active recombinant rabbitfish (Siganusguttatus) growth hormone. Aquaculture 250: 504-515.
Handoyo B. 2012. Response of Eel fingerling on Recombinant Giant Grouper Growth Hormone by immersion and oral administration (thesis).Bogor Agriculture University (in Indonesian with English Abstract).
Hattori N. 2009. Expression, regulation and biological actions of growth hormone (GH) and ghrelin in the immune system.Growth Hormone & IGF Research,19:187-197
Irmawati. 2013. Physiology, Biochemistry, and Molecular Responses of Giant Gourami Juvenile Treated by Recombinant Growth Hormone (disertation). Bogor Agriculture University (in Indonesian with English Abstract).
KURTOVIC B., TESKEREDŽIĆ E, TESKEREDŽIĆ Z. 2008.Histological comparison of spleen and kidney tissue from farmed and wild European sea bass (DicentrarchuslabraxL.).ActaAdriat. 49 (2): 147 – 154.
Leedom TA, Uchida K, Yada T, Richman III NH, Byatt JC, Collier RJ, Hirano T, Grau EG. 2002. Recombinant bovine growth hormone treatment of tilapia: growth response, metabolic clearance, receptor binding and immunoglobulin production. Aquaculture 207: 359-380.
Leggatt RA, Raven PA, Mommsen TP, Sakhrani D, Higgs D, Devlin RH. 2009. Growth hormone transgenesis influences carbohydrate, lipid and protein metabolism capacity for energy production in coho salmon (Oncorhynchuskisutch). Comparative Biochemistry and Physiology, Part B, 154:121–133.
Li Y, Bai J, Jian Q, Ye X, Lao H, Li X, Luo J, Liang X. 2003. Expression of common carp growth hormone in the yeast Pichiapastoris and growth stimulation of juvenile tilapia (Oreochromisniloticus).Aquaculture 216: 329-341.
Liu Z Zh, Xu YL, Xu DW, Zhang PJ. 1999. Effects of exogenous growth hormone on muscle composition of flounder (Paralichysolivaceus). Mar. Sci. 5: 51–53 (in Chinese, with English abstract).
Liu S, Zhang X, Zang X, Liu B, Arunakumara KKIU, Xu D, Zhang X. 2008. Growth, feed efficiency, body muscle composition, and histology of flounder (Paralichthysolivaceus) fed GH transgenic Synechocystis. Aquaculture 277: 78– 82.
Markert JR, Higgs DA, Dye HM, MacQuarrie DW. 1977. Influence ofbovine growth hormone on growth rate, appetite, and food conversion ofyearling coho salmon (Oncorhynchuskisutch) fed two diets of differentcomposition. Can. J. Zool. 55: 74–83.
Moriyama S, Kawauchi H. 1990. Growth stimulation of juvenile salmonids by immersion in recombinant salmon growth hormone.Nippon SuishanGakkaishi56 (1):31-34.
Moriyama S, Yamamoto H, Sugimoto S, Abe T, Hirano T, Kawauchi H. 1993. Oral administration of recombinant salmon growth hormone to rainbow trout, Oncorhynchusmykiss. Aquaculture 112: 99–106.
Moriyama S, Felix GA, Hiroshi K. 2000. Growth regulation by insuline-like growth factor-1 in fish. Bioscience Biotechnology Biochemistry, 64:1553-1562.
Moriyama S, Kawauchi H. 2001. Growth regulation by growth hormone and insulin- like growth factor-I in teleosts.Otsuchi Mar. Sci. 26:23-27
Muir WM, Howard RD. 1999. Possible ecological risks of transgenicorganism release when transgenes affect mating success: sexual selection andthe Trojan gene hypothesis. Proc. Natl. Acad. Sci. USA 96, 13853–13856.
Peterson BC, Small BC, Bosworth BG. 2004.Effects of bovine growth hormone (Posilac®) on growth performance, body composition, and IGFBPs in two strains of channel catfish.Aquaculture 232:651-663.
Promdonkoy B, Warit S, Panyim S. 2004. Production of a biologically active growth hormone from giant catfish (Pangasianodongigas) in Escherichia coli. Biotechnology Letters 26: 649–653.
Reinecke M, Björnsson BT, Dickhoff WW, McCormick SD, Navarro I, Power DM, Gutiérrez J. 2005. Growth hormone and insulin-like growth factors in Fish: Where we are and where to go. Gen.Comp.Endocrinol.142: 20–24
Sekine S. 1985. Cloning and expression of cDNA for salmon growth hormone in Escherichia coli.Proc. Nati. Acad. Sci. 82: 4306-4310.
Silverstein JT, Plisetskaya EM. 2000. The Effects of NPY and Insulin on Food Intake Regulation in Fish. Amer. Zool., 40:296–308
Silverstein JT, Wolters WR, Shimizu M, Dickhoff WW. 2000. Bovine growth hormone treatment of channel catfish: strain and temperature effects on growth, plasma IGF-I levels, feed intake efficiency and body composition. Aquaculture 190:77–88
Subaidah S. 2013. Growth Response and Immune of White Shrimp Litopenaeusvannamei on Administration of Recombinant Giant Grouper Growth Hormone (disertation). Bogor Agriculture University (in Indonesian with English Abstract)
Tsai HJ, Hsih MH, Kuo JC. 1997. Escherichia coli-produced fish growth hormone as a feed additive to enhance the growth of juvenile black seabream(Acanthopagrusschlegeli). J. Appl. Ichthyol. 13. 79-82.
Wilson RP, Poe WE, Nemetz TG, MacMillan JR. 1988.Effect of recombinant bovine growth hormone administration on growth and body composition of channel catfish.Aquaculture 7:229-238.
Wong AOL, Zhou H, Jiang Y, Ko KKW. 2006. Review: Feedback Regulation of Growth Hormone Synthesis and Secretion in Fish and the Emerging Concept of Intrapituitary Feedback Loop. Comp. Biochemp. Physiol., Part A 144:284 – 305.

Download
HTML
Cite
Share
statistics

402 Abstract Views

303 PDF Downloads