We compared the utilization efficiency of free lysine (FL) and dipeptide lysine.glycine (LG) in terms of growth performance and whole-body amino acid composition in olive flounder Paralichthys olivaceus. A basal experimental diet was formulated to contain 0.5% (basal) lysine from fish meal, and four other diets were prepared by supplementing 0.5% or 1.0% of either FL or LG. The experiment was performed in triplicate, and 20 randomly selected fish averaging 5.41 ± 0.16 g were fed one of the test diets at the rate of 3% BW/day twice daily for 6 weeks. At the end of the feeding trial, fish fed the basal diet showed significantly less weight gain than did the other groups. The results of a two-way ANOVA showed that both lysine level (P = 0.001) and type (P = 0.034) influenced growth rate; however, we found no significant interaction between lysine level and form (P > 0.05). Our results revealed a significant improvement in protein efficiency ratio (PER) with each increment of dietary lysine, and the groups fed LG-supplemented diets showed higher PER than did those offered FL. Hepatosomatic and viscerosomatic indices were significantly influenced by lysine level and form, and higher values were recorded in fish fed diets containing LG. Significantly higher whole-body arginine levels were found in LG-fed groups, and a significant interaction was observed between lysine level and form (P = 0.009). Whole-body valine and aspartic acid contents were affected by lysine level, and alanine concentration was influenced by both lysine level and form. Our findings indicate that juvenile olive flounder can utilize LG more efficiently than FL for protein synthesis.

1 Kwasek K, "Utilization of dipeptide/protein based diets in larval and juvenile koi carp-post-prandial free amino acid levels" 94 : 35-43, 2010

2 Rønnestad I, "The supply of amino acids during early feeding stages of marine fish larvae: a review of recent findings" 227 : 147-164, 2003

3 Dabrowski K, "The smallest vertebrate, teleost fi sh, can utilize synthetic dipeptide-based diets" 133 : 4225-4229, 2003

4 Grimble G, "The signifi cance of peptides in clinical nutrition" 14 : 419-447, 1994

5 Green JA, "The optimum dietary essential amino acid pattern for rainbow trout (Oncorhynchus mykiss) to maximize nitrogen retention and minimize nitrogen excretion" 27 : 97-108, 2002

6 Adibi SA, "The oligopeptide transporter (Pept-1) in human intestine: biology and function" 113 : 332-340, 1997

7 Dabrowski K, "The effects of dietary indispensable amino acid imbalances on feed intake: Is there a sensing of deficiency and neural signaling present in fish?" 268 : 036-142, 2007

8 Kwasek K, "The effect of dietary dipeptide lysine–glycine on growth, muscle proteins, and intestine PepT1 gene expression in juvenile yellow perch" 22 : 797-812, 2012

9 McLaughlin PA, "The Biology of Crustacea" Academic Press 51-52, 1983

10 Cowey CB, "Studies on the uptake of (14C) amino acids derived from both dietary (14C) protein and dietary (14C) amino acids by rainbow trout, Salmo gairdneri Richardson" 33 : 293-305, 1988

11 Carvalho AP, "Solubility and peptide profi le affect the utilization of dietary protein by common carp (Cyprinus carpio) during early larval stages" 234 : 319-333, 2004

12 Yamamoto T, "Self-selection of diets with different amino acid profiles by rainbow trout (Oncorhynchus mykiss)" 187 : 375-386, 2000

13 Wilson RP, "Relationship of whole body and egg essential amino acid patterns to amino acid requirement patterns in channel catfish, Ictalurus punctatus" 80 : 385-388, 1985

14 Boge G, "Rates of in vivo intestinal absorption of glycine and glycyglycine by rainbow trout (Salmo gairdneri R.)" 69 : 455-459, 1981

15 Wang S, "Quantitative dietary lysine requirement of juvenile grass carp Ctenopharyngodon idella" 249 : 419-429, 2005

16 Matthews D, "Protein Absorption" Wiley-Liss 1991

17 Kaushik SJ, "Postprandial metabolic changes in larval and juvenile carp (Cyprinus carpio)" 23 : 223-234, 1983

18 Ganapathy V, "Physiology of Gastrointestinal tract" Raven Press 1773-1794, 1994

19 ZamboninoInfante JL, "Partial substitution of di- and tripeptides for native proteins in sea bass diet improves Dicentrarchus labrax larval development" 127 : 608-614, 1997

20 AOAC, "Official Methods Analysis. 16th ed" Association of Official Analytical Chemists 1995

21 NRC, "Nutrient Requirements of Fish" Natl Academy Press 2011

22 NRC, "National Research Council Nutrient Requirements of Fish" National Academy Press 1993

23 Daniel H, "Molecular and integrative physiology of intestinal peptide transport" 66 : 361-384, 2004

24 Verri T, "Molecular and functional characterisation of the zebrafish (Danio rerio) PEPT1-type peptide transporter" 549 : 115-122, 2003

25 Doring F, "Minimal molecular determinants of substrates for recognition by the intestinal peptide transporter" 273 : 23211-23218, 1998

26 Busacker, GP, "Methods for Fish Biology" American Fisheries Society 363-387, 1990

27 Forster I, "Lysine requirement of juvenile Japanese fl ounder Paralichthys olivaceus and juvenile red sea beam Pagrus major" 161 : 131-142, 1998

28 Reshkin S, "Intestinal glycyl-L-phenylalanine and L-phenylalanine trasnport in a euryhaline teleost" 260 : R563-R569, 1991

29 Zhang Y, "Indispensable amino acid concentrations decrease in tissues of stomachless fish, common carp in response to free amino acid- or peptide-based diets" 31 : 165-172, 2006

30 Tesser M, "Free- and peptide-based dietary arginine supplementation for the South American fish pacu (Piaractus mesopotamicus)" 11 : 443-453, 2005

31 Zarate DD, "Free lysine (L-lysine·HCL) is utilized for growth less efficiently than protein-bound lysine (soybean meal) in practical diets by young channel catfish (Ictalurus punctatus)" 159 : 87-100, 1997

32 Rønnestad I, "Free amino acids are absorbed faster and assimilated more efficiently than protein in postlarval Senegal sole (Solea senegalensis)" 130 : 2809-2812, 2000

33 Bicudo AJA, "Estimating amino acid requirement of Brazilian freshwater fish from muscle amino acid profile" 40 : 818-823, 2009

34 Berge GE, "Effects of feeding Atlantic salmon (Salmo salar L.) imbalanced levels of lysine and arginine" 8 : 239-248, 2002

35 Gόmez-Requeni P, "Effects of dietary amino acid profi le on growth performance, key metabolic enzymes and somatotropic axis responsiveness of gilthead sea bream (Sparus aurata)" 220 : 749-767, 2003

36 Cahu N, "Effect of the molecular-form of dietary nitrogen supply in sea bass larvae-response of pancreatic-enzymes and intestinal peptidases" 14 : 209-214, 1995

37 Murai T, "Effect of coating amino acids with casein supplmented to gelatin diet on plasma free amino acids of carp" 48 : 703-710, 1982

38 Deng DF, "Dietary lysine requirement of juvenile Pacifi c threadfi n (Polydactylus sexfilis)" 308 : 44-48, 2010

39 Zhou XQ, "Dietary lysine requirement of juvenile Jian carp (Cyprinus carpio var. Jian)" 14 : 381-386, 2008

40 Ahmed I, "Dietary lysine requirement of fi ngerling Indian major carp, Cirrhinus mrigala (Hamilton)" 235 : 499-511, 2004

41 Kurokawa T, "Development of intestinal brush border aminopeptidase in the larval Japanese flounder Paralichthys olivaceus" 162 : 113-124, 1998

42 Kim SS, "Comparison of leucine requirement in olive fl ounder (Paralichthys olivaceus) by free or synthetic dipeptide forms of leucine" 183 : 195-201, 2013

43 Akiyama T, "Comparison of essential amino acid requirement with A/E ratio among fish species (Review Paper)" 63 : 963-970, 1997

44 김성삼, "Comparison of Growth Performance and Whole-body Amino Acid Composition in Red Seabream (Pagrus major) Fed Free or Dipeptide Form of Phenylalanine" 아세아·태평양축산학회 25 (25): 1138-1144, 2012

45 Ministry of Maritime Affairs and Fisheries, "Aquaculture Statistic from Ministry of Maritime Affairs and Fisheries of Korea" 2013

46 Boge G, "Amino acid transport by intestinal brush border vesicles of a marine fi sh, Boops salpa" 131 : 19-26, 2002

47 Wilson RP, "Amino acid composition of whole body tissue of rainbow trout and Atlantic salmon" 48 : 373-376, 1985

48 D’Mello JPF, "Amino Acids in Farm Animal Nutrition" CAB International 1994

49 Rust MB, "A new method for force feeding larval fish" 116 : 341-352, 1993

50 Dabrowski K, "A concept of dietary dipeptides: a step to resolve the problem of amino acid availability in the early life of vertebrates" 208 : 2885-2894, 2005

51 Aragão C, "A balanced dietary amino acid profi le improves amino acid retention in post-larval Senegalese sole (Solea senegalensis)" 233 : 293-304, 2004