Amino Acid Profile of Various Body Tissues and Eggs of Discus Fish,Symphysodon aequifasciata

Abstract

Amino acid profiles of various body tissues from juvenile and adult discus fish, Symphysodon aequifasciata, were compared. Results from whole-body tissue revealed significant difference (P < 0.05) between the levels of lysine, phenylalanine, alanine, aspartic acid, and serine among the two different fish sizes. Levels of arginine, histidine, leucine, methionine, phenylalanine, and threonine were also higher in muscle tissue of adult fishes. Analysis of gill tissues showed significant difference in levels of histidine, isoleucine, lysine, methionine, threonine, tryptophan, aspartic acid, glutamic acid, proline, and serine were significantly different among the different fish stages. This study also showed that among all ten essential amino acids, muscle had the highest levels of histidine, isoleucine, lysine, and tryptophan; gills had the highest level of arginine; while levels of methionine and threonine were higher in the intestinal tissue. Regression analysis between the calculated whole-body A/E ratio of discus juveniles and with quantitative dietary amino acid requirements of several fish species also showed significant correlation, with highest r values (> 0.90) obtained with tilapia, common carp, channel catfish, and Japanese eel. This profile may be useful as a preliminary reference index to evaluate suitability of various ingredients in terms of amino acid profile for development of economical diet for discus farming.     

The amino acid and fatty acid compositions of selected tissues of the dolphin fish (Coryphaena hippurus) and their nutritional implications

The amino acid and fatty acid compositions of muscle, gill, intestine, liver, ovaries, and whole bodies from captive juvenile and adult, and wild adult dolphin fish (Coryphaena hippurus) were determined. Essential amino acid ratios (A/E ratios) of the whole body and individual tissues were calculated and compared. In addition, the concept of a metabolic A/E ratio calculated from known daily protein turnover rates and from the amino acid profiles is introduced. Fatty acid profiles of phospholipid (PL) and triglyceride (TG) fractions in muscle and liver were also compared.

There were few differences in the amino acid and fatty acid profiles of tissues between the different groups of dolphin fish examined. Linolenic series fatty acids were quantitatively the most important polyunsaturates in tissue PL fractions. C22: 6n−3 was the major polyunsaturate present, accounting for approximately 20% of the total PLs in muscle and liver. There was no significant difference in tissue essential amino acid patterns between adult fish raised in captivity, and adult fish caught in the wild. However, the muscle of juvenile fish was lower in arginine and histidine contents than the muscle of adult fish. Ovaries had the lowest arginine, histidine, and tryptophan contents of all tissues measured.

Calculated A/E ratios of the muscle and whole body, and A/E ratios based on the metabolic rates for protein turnover in muscle, gill, and intestine, were similar. All ratios predicted an ontological increase in dietary arginine, histidine, and tryptophan needs of dolphin fish consistent with the changes noted in tissue amino acid contents.

It is concluded that the calculated A/E ratios and fatty acid profiles of dolphin fish tissues may be useful guides in formulating diets for the culture of this species. The results obtained suggest that the requirements for arginine, histidine, and tryptophan may differ between subadult and adult fish. Dietary needs for linolenic series HUFAs, especially C22:6n−3, are likely high throughout the life of this fish.     

Whole-body amino acid composition and comparative aspects of amino acid nutrition of the goldfish, golden shiner and fathead minnow

Pond-raised fingerling goldfish (Carassius auratus), golden shiners (Notemigonus crysoleucas) and fathead minnows (Pimephales promelas) were analyzed for whole-body amino acid composition. All three species had similar amino acid patterns in whole-body tissue. These compositional data were also used to compute essential amino acid ratios (A/E ratios) which were compared with the quantified amino acid requirements of another cyprinid species, the common carp (Cyprinus carpio). The whole-body A/E ratios of the three baitfish species were very similar to the A/E ratios of the carp requirement values. Since previous studies have established a high correlation between whole-body amino acid patterns and dietary amino acid requirement patterns of several fish species, the whole-body amino acid values determined in this study will provide indices for formulating diets for the goldfish, golden shiner and fathead minnow.     

Whole-body amino acid pattern of juvenile,preadult, and adult pacu,Piaractus mesopotamicus,with an estimation of its dietary essential amino acid requirements

In the present study, juvenile (live body weight, 54.3 ± 8.2 g), preadult (live body weight, 822.5 ± 33.9 g), and adult (live body weight, 1,562.8 ± 41.8 g) pacu, Piaractus mesopotamicus, were used to estimate their dietary essential amino acid (EAA) requirements using the whole-body amino acid (AA) pattern. The results showed that whole-body moisture, crude protein, total lipid, and ash contents expressed on a wet weight basis (%) were significantly different among the studied growth phases. No significant differences were observed in the dietary EAA requirements estimated for the three growth phases of pacu. These dietary EAA requirements were found to be different than those previously estimated for the same fish through its muscle AA pattern. Based on whole-body EAA to total EAA ratios {A/E ratios; [(each EAA/total EAA) × 1,000]}, EAA requirements were estimated to be histidine (0.42%), arginine (1.36%), threonine (0.82%), valine (0.90%), methionine (0.45%), isoleucine (0.83%), leucine (1.29%), phenylalanine (0.74%), lysine (1.64%), and tryptophan (0.14%) for pacu. These estimated requirements may serve as a reference line in the formulation of practical and experimental diets until dose–response-based optimum EAA requirements are available for pacu.     

Establishing the optimal essential amino acid ratios in juveniles of Nile tilapia (Oreochromis niloticus) by the deletion method

One of the strategies used to improve fish production is lowering the feed costs and the environmental impact by reducing dietary protein content. Using the deletion method, we determined the optimal amino acid (AA) ratio for Nile tilapia (Oreochromis niloticus) (body weight 20 g). Eleven experimental diets and four replications, taken two at a time, distributed in a randomized block design were used. For this trial, a balanced diet (BD) was formulated. Ten other diets were formulated by the deletion method, in which the BD diet was adjusted to result in a reduction of 45% of the test amino acid. Fish were fed three times a day for 57 days. Groups of fish at the beginning and at the end of the experiment were euthanized for further determination of the carcass nitrogen (N) composition. The optimal ratio of each AA was derived by dividing the requirement for each AA by the requirements for lysine. The essential AA ratios, expressed relative to lysine (=100), were methionine 64, threonine 93, tryptophan 24, arginine 125, histidine 34, isoleucine 57, leucine 96, valine 76 and phenylalanine 101. Our findings might be used to design strategies aimed at reducing the production costs of Oreochromis niloticus.     

Amino acids composition difference and nutritive evaluation of the muscle of five species of marine fish, Pseudosciaena crocea (large yellow croaker), Lateolabrax japonicus (common sea perch), Pagrosomus major (red seabream), Seriola dumerili (Dumeril's amberjack) and Hapalogenys nitens (black grunt) from Xiamen Bay of China

A study was conducted to investigate the muscle amino acid profiles of five species of marine fish, Pseudosciaena crocea (large yellow), Lateolabrax japonicus (common sea perch), Pagrosomus major (red seabream), Seriola dumerili (Dumeril's amberjack) and Hapalogenys nitens (black grunt). These carnivorous fishes, all of which belong to the Perciforms, were sampled from Xiamen Bay. Chemical analysis shows significant difference (P < 0.01) among the five species in the muscle total amino acids (TAA). Lateolabrax japonicus has the highest level of TAA in muscle tissues. Significant difference in muscle total essential amino acid (TEAA) and total non‐essential amino acid (TNEAA) were also found among the five species. Lateolabrax japonicus has the highest TEAA level, and H. nitens has the highest level of TNEAA level. Significant difference (P < 0.01) existed in specific EAA except for lysine (P > 0.05). The significant difference (P < 0.05) of the A/E ratios [(each essential amino acid content/total essential amino acid content including cystine and tyrosine) ×1000] based on the essential amino acid composition of muscle tissue from the five species were found in lysine, histidine, methionine, cystine, valine, leucine, isoleucine, and arginine, except for threonine, phenylalanine and tyrosine. These differences indicate that the amino acids profile is species specific for the five species and their essential amino acid requirements are greatly different although they were fed similar feed. In contrast to the reference amino acid profile recommended by FAO/WHO, muscle proteins of each fish were all rich in lysine, the S‐containing amino acids and threonine, but histidine, valine, leucine, isoleucine, phenylalanine and tyrosine were deficient for children's diets. The first limiting amino acid was histidine for P. crocea and L. japonicus, valine for P. major and H. nitens, leucine for S. dumerili. The amino acid score was 66.8, 76.7, 78.4, 84.0 and 95.7 for P. crocea, L. japonicus, P. major, H. nitens and S. dumerili, respectively. In the adult human diet the muscle protein of the five species of marine fish can almost fulfil the requirements of all essential amino acids except for the histidine of P. crocea and L. japonicus and thus can serve as supplemental source of protein in cereal‐based adults diets if we reinforce the histidine correspondingly. Therefore, increasing the proportion of marine fish in the diet of the people in the area where paddy rice and wheat are the main protein sources is an effective way to enhance the nutrition value of food and improve the nutrition status of the developing countries. Moreover, all of five marine fish species contained a comparatively high content of glutamic acid and arginine, which are beneficial to the patients under such conditions as trauma, burn injury, massive small‐bowel resection and renal failure.     

Growth,survival, body composition and amino acid profile of Macrobrachium borellii against the limitation of feeds with different C:N ratios with comments about application in integrated multi‐trophic aquaculture

One way to attain more sustainable aquaculture systems is through the species diversification and optimization of the feed input, such as obtained by integrated multi‐trophic aquaculture (IMTA). Macrobrachium borellii is a native freshwater prawn that reunites many useful features to be implemented in an IMTA. The aim of this study was to gather information about to which extent M. borellii can survive, grow and maintain body composition against feed limitation. The C:N ratios of feedstuffs were variable in order to simulate a hypothetical scenario of an integrated culture with fish of different trophic habits. The nutritional aspects (amino acid profile and proximal composition) of feeds and prawns were also analysed. Macrobrachium borellii could grow, survive and maintain the proximal content and C:N ratio of its muscle tissue with all feedstuffs but exhibited higher biomass gain and specific growth rate consuming feeds with lower C:N ratios. In this view, the integration of this prawn with omnivore or carnivore fish species should be recommended. The amino acid profile exhibited little variation before and after the experimental period, and was rich in lysine, leucine and arginine. In this study, it was also discussed the nutritional aspects of M. borelliii as a valuable by‐product to human and animal nutrition.     

Effects of dietary yeast inclusion and acute stress on postprandial plasma free amino acid profiles of dorsal aorta‐cannulated rainbow trout

In a 4‐week experiment, 15 cannulated rainbow trout were fed three diets based on fish meal (FM), Saccharomyces cerevisiae yeast (SC) and Wickerhamomyces anomalus and S. cerevisiae yeast mix (WA). Fish were fed daily, and blood samples were collected on day 7 of each week at 0, 3, 6, 12 and 24 hr after feeding. In the final week, fish were exposed to a 1‐min netting stressor. All essential and non‐essential plasma amino acid levels except methionine were similar between fish fed diets FM, SC and WA. Plasma methionine and sarcosine were significantly higher in fish fed diets SC and WA, possibly due to the crystalline methionine level, form or feeding regime. Hydroxy‐proline and 3‐methyl‐histidine were higher in fish fed diet FM, which can be explained by the higher levels present in fish meal compared with yeast. In stressed fish, there were no dietary effects on plasma amino acid levels, but significant increases in taurine and cystathionine were found in stressed compared with unstressed fish. These results demonstrate that yeast‐based diets produce similar plasma amino acid profiles to fish meal and suggest that yeast may be a suitable fish meal replacement in diets for rainbow trout.     

Estimating the ideal dietary indispensable amino acid pattern for growth of white sturgeon, Acipenser transmontanus (Richardson)

Juvenile white sturgeon (Acipenser transmontanus, Richardson) were fed or starved for 4 weeks, and their whole body amino acid composition determined at the beginning and the end of the study. The amino acid compositions of muscle, liver, gill and gastrointestinal tract, and the free amino acids in plasma of fed and starved fish were also determined. Very little variation was observed in the amino acid compositions of all the tissues examined after starvation. However, the plasma free amino acids were significantly (P < 0.05) decreased following starvation. On the basis of the amino acid composition and nitrogen retention values of the whole fish, daily indispensable amino acid requirements for protein accretion and obligatory nitrogen losses (mg amino acid 100 g body weighr^?1 day^?1) were estimated. The pattern of indispensable amino acids required for each of these is different, with the pattern for protein accretion containing much higher levels of lysine, but lower levels of tryptophan and sulfur amino acids. Individual amino acid retention rates varied from 33.3% of dietary tryptophan to 80.2% for arginine. The estimated dietary indispensable amino acid pattern for young growing white sturgeon (expressed as a percentage of total indispensable amino acids plus cystine and tyrosine) is: arginine, 14.0; histidine, 6.6; isoleucine, 8.8; leucine, 12.5; lysine, 15.8; methionine (plus cystine), 6.6; phenylalanine (plus tyrosine), 15.5; threonine, 9.7; tryptophan, 0.8; and valine, 9.7.     

Arginine and phenylalanine requirement of juvenile silver perch Bidyanus bidyanus and validation of the use of body amino acid composition for estimating individual amino acid requirements

An experiment was conducted in a closed system to quantify the arginine requirement of juvenile silver perch Bidyanus bidyanus . Five experimental diets were formulated to contain 40% crude protein with five graded levels of arginine. The diets contained casein and gelatine as protein sources supplemented with crystalline L -amino acids to simulate the reference amino acid profile (except for arginine) of silver perch tissue protein. The experiment lasted 12 weeks and, based on growth data using broken-line analysis, the arginine requirement of juvenile silver perch was found to be 2.7 g 100 g⁻¹ dry diet (or 6.8% of protein).
Based on whole-body amino acid composition, A/E ratios (essential amino acid/total essential amino acids + (cystine + tyrosine) × 1000) were estimated. Using the experimentally determined requirement for arginine and A/E ratios, the phenylalanine requirement of silver perch was predicted to be 5.5 g 100 g⁻¹ protein. Another feeding trial was conducted to determine the phenylalanine require-ment of silver perch using a series of diets with various amounts of phenylalanine and a protocol similar to the previous one. It was found that the experimentally determined phenylalanine requirement of juvenile perch was similar to that predicted. The A/E ratios have been hitherto utilized for the estimation of essential amino acid requirements in three salmonids, common carp and channel catfish: the present findings extend the validity of the method to other fish species.     

Whole body amino acid composition of European seabass (Dicentrarchus labrax), gilthead seabream (Sparus aurata) and turbot (Psetta maxima) with an estimation of their IAA requirement profiles

The amino acid compositions of whole body tissue of European seabass, gilthead seabream and turbot of two different size classes were determined. No significant differences were detected between species and the composition was not affected by body size. Based on whole body indispensable amino acids (IAA) to total IAA ratios (A/E ratios), the IAA requirement profiles for the three species were estimated and compared to data available to date for some amino acids, obtained using dose-response curves.     

Metabolic responses of juvenile GIFT strain of Nile tilapia (Oreochromis niloticus) to dietary L‐tryptophan supplementation

A 60‐day indoor feeding trial was conducted to evaluate the effects of dietary tryptophan supplementation on growth performances, whole‐body chemical composition, expression of muscle growth‐related genes (MyoD, myogenin and myostatin), and haematological and biochemical responses of juvenile genetically improved farmed tilapia (GIFT). Five corn–soy‐based isonitrogenous and isoenergetic diets were formulated to contain graded levels of dietary tryptophan (2.6, 3.2, 3.7, 4.2 and 4.8 g/kg of diet). Each diet was randomly assigned to triplicate groups of 30 fish (5.3 ± 0.1 g) per experimental unit, which were fed thrice a day (9:00, 13:00 and 17:00 hr). Maximum growth performances and feed utilization were observed in fish fed tryptophan at 3.7 g/kg of diet. There was no significant (p > .05) effect on whole‐body composition and amino acid profile by dietary tryptophan supplementation. However, significant (p < .05) differences were observed in plasma metabolites and the mRNA expression of MyoD, myogenin and myostatin. Serum cortisol level was found significantly lowest in fish fed tryptophan at 3.7 g/kg of diet. Second‐order polynomial regression analysis of weight gain and nitrogen gain against dietary tryptophan levels indicated that the optimum dietary tryptophan requirement for maximum growth and feed utilization of juvenile GIFT tilapia was 3.8 g/kg of diet.     

Effect of fish meal replacement with Carinata Brassica carinata in low animal protein diets of rainbow trout Oncorhynchus mykiss (Walbaum) on trypsin activity,protein and amino acid digestibility and bioavailability

Replacement of >25% of fish meal (FM) with aerobically converted carinata meal (ACCM) in low (200g/kg) animal protein (reference = 200g/kg FM) diets of rainbow trout Oncorhynchus mykiss resulted in reduced growth, partly due to reduced feed consumption and protein utilization. In this study, we determined the effect of FM replacement with ACCM on trypsin activity, apparent digestibility coefficients (ADCs) of protein, and essential amino acid (EAA) or conditionally essential amino acid (CEAA) ADCs and bioavailability. Replacement of FM did not alter protein ADCs or trypsin activity. Replacement of >25% FM reduced all EAA and CEAA ADCs except for arginine and leucine which were only reduced by 75% FM replacement. Only serum free lysine and muscle free histidine were reduced by >25% FM replacement. Muscle free lysine was only reduced by 75% FM replacement. Replacement of FM reduced EAA peak concentrations and resulted in slower release of EAAs in serum. Cumulative total EAAs in serum and muscle decreased with FM replacement. Ratios of EAAs to lysine showed that tryptophan was the most limiting EAA. However, isoleucine, leucine, methionine and phenylalanine were also inadequate for muscle synthesis for the first 9–12 hr following force‐feeding. Optimal time for protein synthesis was ≥36 hr. Although any level of FM replacement did not reduce protein ADCs and trypsin activity, replacement of ≥25% FM reduced EAA ADCs and bioavailability of lysine and histidine, which partly contributed to the observed differences in growth.     

Evaluation of dried seaweed <Emphasis Type="Italic">Gracilaria lemaneiformis</Emphasis> as an ingredient in diets for teleost fish <Emphasis Type="Italic">Siganus canaliculatus</Emphasis>

In order to evaluate the feasibility of dried seaweed Gracilaria lemaneiformis (Bory) as a dietary ingredient for the rabbitfish Siganus canaliculatus (Park), juvenile fish (average weight 15.64 ± 0.15 g) were fed with two isonitrogenous (32% crude protein) and isolipid (8% lipid) diets for 8 weeks, with one diet incorporating 33% of dried G. lemaneiformis (DGL), which accounted for 6% protein and 17% carbohydrate (DGL-diet), and the other containing no DGL (control diet). After 8 weeks, the growth performance and feed utilization efficiency of fish fed with the DGL-diet were inferior to fish fed with the control diet, although some non-specific immunity parameters were better in fish fed with the DGL-diet compared with those of fish fed control diet. Nutritional composition (whole body composition, amino acid, and fatty acid composition in dorsal muscle) except methionine and tyrosine in muscle showed no differences between the two groups. Furthermore, the survival rate of fish and apparent digestibility coefficient of diets were the same between the two groups. These results indicated that incorporation of DGL in diet of S. canaliculatus is feasible, and further studies are recommended to optimize the level of DGL in diet of S. canaliculatus to improve growth performance.     

The patterns of plasma free amino acids after force-feeding in rainbow trout Oncorhynchus mykiss (Walbaum) with and without dorsal aorta cannulation

Two experiments were conducted to compare the patterns of plasma free amino acid concentrations after force-feeding in rainbow trout Oncorhynchus mykiss (Walbaum) with and without dorsal aorta cannulation. In the first experiment, 35 rainbow trout averaging 504 ± 7.8 g (mean ± SD) were divided into seven groups of five fish each. After 48 h starvation, a group of fish was anaesthetized and blood samples were taken at one of the following time periods: 0, 4, 8, 12, 24, 36 and 48 h after feeding. In the second experiment, five dorsal aorta cannulated rainbow trout averaging 511 ± 6.2 g (mean ± SD) were kept in a cage. After 48 h starvation, the fish were anaesthetized and blood samples were taken from the same fish at 0, 4, 8, 12, 24, 36 and 48 h after feeding. In the first experiment, the concentration of all plasma free amino acids except histidine and glycine peaked at 4 h and returned to the basal level 24 h after feeding. In the second experiment, the concentration of all plasma free amino acids except isoleucine, leucine, phenylalanine and tryptophan also peaked at 4 h and returned to the basal level 24 h after feeding. These results showed that the pattern of plasma free amino acid concentrations from fish with and without dorsal aorta cannulation were similar.     

Estimating maintenance amino acids requirements of fish through a nonlinear mixed modelling approach

Accurate estimates of maintenance requirement of amino acids are important for feed formulation. However, very little is known about maintenance requirements of essential amino acids in fish. A nonlinear mixed modelling approach was employed in this study to estimate maintenance requirements of essential amino acids of fish from published studies. The maintenance requirements of arginine, histidine, isoleucine, leucine, lysine, methionine, phenylalanine, threonine, tryptophan and valine were estimated to be 7.7 (±6.6), 9.8 (±2.4), 6.4 (±24.8), 9.1 (±13.7), 15.6 (±8.2), 18.4 (±1.9), 14.6 (±3.2), 5.4 (±4.4), 0.5 (±1.3) and 9.3 (±26.6) mg/kg BW^0.75/day respectively, whereas the maintenance requirements of these amino acids as a proportion of their total requirements for protein deposition were estimated to be 4.8%, 31.0%, 8.9%, 12.7%, 5.2%, 11.9%, 19.2%, 2.5%, 2.2%, 10.8% respectively. For most of the essential amino acids, the maintenance requirements represent a small proportion of total requirement (below 10%) with notable exceptions for histidine and phenylalanine. Results from this study suggest that maintenance requirements of fish cannot be assumed equal for all amino acids. The results can be used in developing factorial or mechanistic models of amino acid requirement and utilization.     

Dietary indispensable amino acids profile affects protein utilization and growth of Senegalese sole larvae

In diet formulation for fish, it is critical to assure that all the indispensable amino acids (IAA) are available in the right quantities and ratios. This will allow minimizing dietary AA imbalances that will result in unavoidable AA losses for energy dissipation rather than for protein synthesis and growth. The supplementation with crystalline amino acids (CAA) is a possible solution to correct the dietary amino acid (AA) profile that has shown positive results for larvae of some fish species. This study tested the effect of supplementing a practical microdiet with encapsulated CAA as to balance the dietary IAA profile and to improve the capacity of Senegalese sole larvae to utilize AA and maximize growth potential. Larvae were reared at 19 °C under a co-feeding regime from mouth opening. Two microdiets were formulated and processed as to have as much as possible the same ingredients and proximate composition. The control diet (CTRL) formulation was based on commonly used protein sources. A balanced diet (BAL) was formulated as to meet the ideal IAA profile defined for Senegalese sole: the dietary AA profile was corrected by replacing 4 % of encapsulated protein hydrolysate by CAA. The in vivo method of controlled tube-feeding was used to assess the effect on the larvae capacity to utilize protein, during key developmental stages. Growth was monitored until 51 DAH. The supplementation of microdiets with CAA in order to balance the dietary AA had a positive short-term effect on the Senegalese sole larvae capacity to retain protein. However, that did not translate into increased growth. On the contrary, larvae fed a more imbalanced (CTRL group) diet attained a better performance. Further studies are needed to ascertain whether this was due to an effect on the voluntary feed intake as a compensatory response to the dietary IAA imbalance in the CTRL diet or due to the higher content of tryptophan in the BAL diet.     

The amino acid profiles in developing eggs and larvae of the freshwater Percichthyid fishes,trout cod,Maccullochella macquariensis and Murray cod,Maccullochella peelii peelii

Results on changes in the total amino acids (protein bound + free) and the free amino acids (FAA) in relation to development, from egg (unfertilised and/or fertilised) to yolk-sac resorbed larva, before first feeding, in two Percichthyid fish, trout cod, Maccullochella macquariensis and Murray cod, Maccullochella peelii peelii, which lay demersal, adhesive eggs, are presented. Throughout development, the FAA accounted for only a small proportion (0.19 % in fertilised eggs of both species) of the total amino acid pool. Nine essential amino acids (EAA) and eight non-essential amino acids (NEAA) were quantified in the amino acid pool at all stages of development. In both species, the total amino acid content decreased during the transformation (at 20 ± 1 °C) from newly hatched larva to yolk-sac resorbed larva. Overall, the changes in the TEAA and TNEAA reflected that of the amino acid pool. In trout cod, all but one EAA (lysine) and two NEAA (cysteine and glycine) decreased with ontogeny, from fertilised egg to yolk-sac resorbed larva. In Murray cod, however, the exceptions to the general decline were two NEAA (aspartic acid and glycine). In contrast, the FAA increased with development, the changes being reflected in both FEAA and FNEAA. Qualitatively, the predominant free amino acids in trout cod and Murray cod eggs were alanine, lysine, leucine and serine. Because the egg protein and the total amino acid contents declined with development, it is concluded that the rate of breakdown of yolk protein was higher than the anabolic and catabolic processes during embryogenesis. Data also suggest that in freshwater fish FAA are an unlikely primary energy substrate during embryogenesis.     

Nutritional quality of amino acid in farmed,farm‐aggregated and wild Axillary seabream (Pagellus acarne) with implications to Human Health

This study evaluated the nutritional quality of farmed and wild axillary seabream (Pagellus acarne R., 1827) focusing on amino acid profiles, with regards to possible interactions with wild fish aggregating around the cage facility. Total amino acids (∑AA), essential amino acids (∑EAA), non‐essential amino acids (∑NEAA) and neutral amino acids (∑NAA) in farmed fish were lower than those in the wild individuals (p > .05). Amino acid pattern in cage‐aggregated fish showed a slight decline from the wild populations, but still higher than the farmed fish. Based on the amino acid scores (AAS), lysine and leucine could be underlined as the ‘first limiting amino acids’, but all other AASs were over ‘1’, in accordance with reference amino acid contents of FAO/WHO (>1.00), showing that farmed axillary seabream provides high nutritional quality and can be considered as a favourable protein source. The ratios of ∑EAA/∑AA (44%–46%) and ∑EAA/∑NEAA (79%–86%) exceeded the minimum recommendation of 40% and >60% by FAO/WHO for all three groups. It can be concluded that axillary seabream either farmed, farm‐aggregated or distant wild fish presented high‐quality protein generating a healthy source for human food.     

Estimating the quantitative essential amino acid requirements of striped bass Morone saxatilis, using fillet A/E ratios

In order to determine the essential amino acid requirements (EAA) of striped bass Morone saxatilis , fillets were analysed to ascertain the relative amino acid concentrations for determining A/E ratios ((EAA/total EAA) × 1000)). Analysis of the striped bass fillets yielded the following concentrations of essential amino acids (g kg^–1) and A/E ratios, respectively: arginine, 12.5, 115; histidine, 5.1, 47; isoleucine, 8.0, 74; leucine, 17.1, 157; lysine, 20.2, 186; methionine + cysteine, 9.2, 85; phenylalanine + tyrosine, 16.0, 147; threonine, 9.8, 90; tryptophan, 1.9, 18; and valine, 9.1, 84. In two experiments, diets with graded levels of EAA were fed to striped bass weighing 111 ± 3 g and 790 ± 122 g per fish, respectively. In both experiments, the dietary A/E ratios were maintained in the same relative concentrations as determined in the striped bass fillets. Statistical analysis of weight gains, feed conversions and nitrogen balance indicated significant differences ( P  < 0.05) between treatments. Non-linear regression analysis of the response criteria pooled from both experiments yielded the following estimates of dietary EAA requirements (g kg^–1 dry diet) when digestible energy equalled 13.39 MJ kg^–1 diet: arginine, 14; histidine, 6; isoleucine, 9; leucine, 19; lysine, 22; methionine + cysteine, 10; phenylalanine + tyrosine, 17; threonine, 11; tryptophan, 3; and valine, 10. The use of fillet A/E ratios allows for the rapid estimation of quantitative EAA requirements and the development of species specific diets for new aquaculture species. The data presented here are the first to simultaneously describe all the dietary EAA requirements for M. saxatilis.