Radical Scavenging Activity of Seela (<Emphasis Type="Italic">Sphyraena barracuda)</Emphasis> and Ribbon Fish (<Emphasis Type="Italic">Lepturacanthus savala)</Emphasis> Backbone Protein Hydrolysates

We have investigated the antioxidant activity of protein hydrolysates prepared from backbones of two commercially important fishes; seela (Sphyraena barracuda) and ribbon fish (Lepturacanthus savala). Pepsin and trypsin hydrolysates were found more potent to inhibit lipid peroxidation in case of ribbon and seela fish respectively and were further purified by using fast protein liquid chromatography on anion exchange and gel filtration chromatography. The active peaks after gel filtration chromatography of seela fish was able to scavenge 2,2-diphenyl-1-picryhydrazyl and hydroxyl radicals by 61 ± 2.3 and 58.7 ± 2.3% and ribbon fish hydrolysate by 60.0 ± 2.6 and 55.6 ± 1.8% as measured by ESR spectroscopy. And the active fractions showed presence of both essential and non-essential amino acids with high percentages of arginine (11.95 and 12.76%) and lysine (13.49 and 13.89%).     

Degradation of starchy substrates by a crude enzyme preparation and utilization of the hydrolysates for lactic fermentation

An enzyme preparation obtained from Aspergillus ustus, possessing cellulase, α-amylase, amyloglucosidase, proteinase and d-xylanase activities, was used along with commercial bacterial α-amylase and amyloglucosidase for the degradation of ragi (Eleusine coracana) flour and wheat (Triticum vulgare) bran. Lactic acid yield from ragi hydrolysate, adjusted to 5% reducing sugars (w/v), was 25% when fermented with Lactobacillus plantarum. The yields increased to 78% and 94% when the ragi hydrolysate was fortified with 20% and 60% (v/v) wheat bran hydrolysate, respectively. When commercial α-amylase and amyloglucosidase were used for the hydrolysis of ragi and wheat bran and L. plantarum was employed to ferment the hydrolysates containing 5% reducing sugars (w/v), lactic acid yields were 10% in ragi hydrolysate and 57% and 90% when the ragi hydrolysate was fortified with 20% and 60% (v/v) of wheat bran hydrolysate, respectively. α-Amylase and amyloglucosidase hydrolysed wheat bran added at 20% (v/v) as the sole source of nutrient to soluble starch hydrolysate (5% reducing sugars) gave 22% yield of lactic acid. The yield increased to 55% by the utilization of A. ustus enzyme preparation in addition to α-amylase and amyloglucosidase for wheat bran hydrolysis.     

Possibility to use the lyophilization for the prolongation of the stability of biological compounds used in cosmetic production

The investigations were conducted with using aquatic hydrolysate of protein 5%, 10%, 20% and 50%. Starting product to prepare solutions with different concentrations, exposed on lyophilisation was pork gelatin (Polonaise, Belgium). The aim of investigations was to determine on effect of lyophilization process on the microbiological and physico-chemistral stability of protein hydrolisate. Physical parameters of lyophilization of protein hydrolysate solutions of different concentrations and physical properties of the lyophilized hydrolysates were determined. Microbiological analysis demonstrated that lyophilization protected the hydrolysates stored at 4 degrees C and 22 degrees C for 60 or 100 days against bacterial contamination. On the other hand, the inhibition of the bacterial multiplication in nonlyophilized hydrolysates was obtained only during storage at -20 degrees C. A proper structure and good dissolubility of the lyophilizated of preparation were obtained for 5%, 10% and 20% hydrolisate and for of the maximum kinematical viscosity 2923 mm2/s.     

New Protein Hydrolysates from Collagen Wastes Used as Peptone for Bacterial Growth

A simple and low-cost procedure was developed for the effective processing of native calf skin and blood wastes to produce protein hydrolysates. The method includes extraction of high–molecular-weight protein from the raw material, followed by enzymatic hydrolysis of the extracted residue. The enzymatic hydrolysis was performed by inexpensive commercial subtilisin DY, produced by Bacillus subtilis strain DY possessing high specific activity. The contents of protein, nitrogen, ash, and amino acids of the obtained hydrolysates were determined and compared with those of the commonly used commercial casein hydrolysate (Fluka Biochemica, Switzerland). The newly obtained calf skin hydrolysate, called Eladin, was found to be suitable as a low-cost alternative peptone in growth media of different microorganisms, such as Escherichia coli, Pseudomonas aeruginosa, Salmonella dublin, and Staphylococcus aureus. The method allows utilization of waste materials by converting them into valuable protein products that could find widespread application in microbiologic practice.     

In vitro antioxidant and antibacterial properties of hydrolysed proteins of delimed tannery fleshings: comparison of acid hydrolysis and fermentation methods

Proteins in delimed tannery fleshings were fermentatively hydrolysed using Enterococcus faecium NCIM5335 and also hydrolysed using mild organic acids (formic acid and propionic acid). The liquor portion containing hydrolysed proteins was spray dried, in both the cases, to obtain a powder. The spray dried powder was evaluated for in vitro antioxidant activities with respect to scavenging different free radicals and antibacterial properties against nine different pathogens. Fermentation and acid hydrolysates scavenged 83 and 75.3% of 2,2-azino-bis-3-ethyl-benzthiazoline-6-sulphonic acid (ABTS) radicals, respectively, at a protein concentration of 0.25 mg. Further, fermentation hydrolysate showed higher 2,2-diphenyl-1-picrylhydrazyl radical scavenging activity of 59% as compared to 56% scavenging by acid hydrolysate at a protein concentration of 5 mg. Acid hydrolysate exhibited lesser (82.3%) peroxy radical scavenging compared to hydrolysate from fermentation (88.2%) at a protein concentration of 10 mg. However, acid hydrolysate exhibited higher (89.2%) superoxide anion scavenging while its fermentation counterpart showed lower activity (85.4%) at 2.5 mg hydrolysate protein. Well as superoxide anion scavenging properties. All the in vitro antioxidant properties exhibited dose dependency. Fermentation hydrolysate exhibited maximum antagonistic activity against Salmonella typhi FB231, from among host of pathogens evaluated. Both the hydrolysates have potential to be ingredients in animal feeds and can help reduce oxidative stress in the animals.     

Use of soybean flour (dehulled, solvent-extracted soybean) as a fish meal substitute in practical diets for African catfish, Clarias gariepinus (Burchell 1822): growth, feed utilization and digestibility

Growth and digestibility trials were conducted using African catfish, Clarias gariepinus (Burchell 1822): (1) to obtain apparent digestibility coefficient (ADC) values for capelin fish meal, soybean flour and corn meal; (2) to formulate diets based on ADC values of the protein feedstuffs; and (3) to evaluate the effects of replacing 25%, 50% and 75% of fish meal in control diets with soybean flour on growth, feed utilization efficiency and carcass composition. Supplemental methionine was added to the diet formulation in which soybean flour replaced 75% of the diet. Diets were formulated (400 g digestible protein kg⁻¹ and 15 kJ digestible energy g⁻¹ dry diet) and fed to catfish fingerlings (13.1 ± 0.5 g) to apparent satiation twice daily for 70 days. The protein and energy digestibilities of fish meal and soybean flour were high (>90% and >80%, respectively; P < 0.05). At 75% fish meal replacement with soybean flour (without methionine supplementation), growth and feed utilization efficiency indicators were depressed compared with other diet treatments which had a similar (P > 0.05) growth and feed utilization efficiency to those fed the control diet. The carcass compositions of catfish in all diets were similar (P > 0.05) and the liver histology of catfish fed any of the diets showed no alterations. The results obtained indicate that 50% of fish meal protein in practical catfish diets can be replaced with soybean flour and that catfish can effectively utilize supplemental methionine, thereby allowing up to 75% of the dietary fish meal protein to be replaced by soybean flour.     

Secretion of Proteinases with Fibrinolytic Activity by Micromycetes of the Genus <Emphasis Type="Italic">Aspergillus</Emphasis>

Proteolytic activity of extracellular enzymes of 11 strains of different Aspergillus species was studied. Comparison of the enzymatic indices of strains grown on agar medium containing either casein or fibrin allowed the selection of the strain Aspergillus terreus 2 as a promising producer of fibrinolytic proteases. It was found that A. terreus 2 proteinases demonstrated maximum activity at pH 8.0. The highest values of fibrinolytic and total proteolytic activities expressed in U_Tyr (amount of micromoles of tyrosine released from fibrin or casein for 1 min) were 34.0 and 358.3, respectively. Maximum activities were detected when growing the producer on a medium containing only amine nitrogen sources (fish flour hydrolysate and peptone); however, the amount of extracellular protein and the specific fibrinolytic and total proteolytic activities were greater in the medium containing both mineral and amine nitrogen sources (fish flour hydrolysate and sodium nitrate) than in the medium containing only fish flour hydrolysate and peptone as nitrogen sources.     

In vitro Maintenance of the Trophonts and Sporozoites of Pyxinia crystalligera*

SYNOPSIS. In a study of in vitro maintenance of the trophonts and sporozoites of the cephaline gregarine, Pyxinia crystalligera, a basal medium consisting of salts, reducing agents, and antibiotics was supplemented by fetal bovine serum, serum protein fraction IV-4, or protein hydrolysates. Motility was used as the viability criterion. The tests were terminated when viability was ～30% of the original inoculum. Two-week survival of trophonts was observed with 0.75% protein fraction, 80% of organisms remaining viable at the end of 1 week. Similar results were noted with 2% casein hydrolysate. With lactalbumin hydrolysate and Casamino acids trophonts remained viable for 6 days, and with fetal bovine serum the results were similar to those obtained with lower concentrations of protein fraction IV-4. Sporozoites remained motile for up to 5 days in the basal medium supplemented by both protein fraction IV-4 and diluted haemocoelic contents of the host, Dermestes vulpinus, but only for 3 days or less in that supplemented by the protein fraction alone. The characteristic crystals of trophonts were dissolved or possibly utilized during in vitro maintenance. A new type of crystal, however, was observed in forms kept in the presence of higher protein hydrolysate concentrations. Smaller trophonts were more adaptable to maintenance than larger ones, for rapid depletion of paraglycogen and resorption of the deutomerite often was observed in the latter. Results of cytochemical tests for carbohydrates, neutral lipids, and proteins indicated that the trophonts were capable of paraglycogen synthesis in vitro.     

鱼溶浆、酶解鱼溶浆和酶解鱼浆完全替代鱼粉对黄颡鱼生长的影响

为了探究鱼溶浆、酶解鱼溶浆和酶解鱼浆完全替代鱼粉后对黄颡鱼(Pelteobagrus fulvidraco)生长的影响, 在黄颡鱼实用型日粮配方模式下, 以28%的日本级蒸汽鱼粉为对照(FM), 按照FM组鱼粉蛋白质量的15%、30%和45%三个梯度, 分别添加鱼溶浆(SW15、SW30和SW45)、酶解鱼溶浆(SWH15、SWH30和SWH45)、酶解鱼浆(FPH15、FPH30和FPH45)完全替代鱼粉, 设计共10组等氮等能日粮, 每组设定3个重复, 在池塘网箱中养殖初始体重(18.68±0.10) g /尾黄颡鱼60d。结果显示: (1)以FM为对照, SW的3个试验组黄颡鱼的SGR降低9.89%—20.33%(P<0.05), FCR增加18.79%—44.85%(P<0.05); SWH试验组中SWH15和SWH45的SGR相对FM组分别降低8.79%和14.84%, FCR相对FM组增加16.97%和27.88%, 差异显著(P<0.05); FPH试验组中FPH15和FPH45的SGR相对FM组降低13.18%和15.38%, FCR相对FM增加30.30%和29.70%, 差异显著(P<0.05); (2)SWH30和FPH30组的SGR、FCR与FM组无显著差异(P>0.05); (3)相对于SW, 同等添加量SWH的SGR增加4.40%—9.39%, FCR降低9.81%—15.31%(P<0.05); (4)与FM组的FIFO值相比, SW30、SWH30和FPH30的FIFO值仅为0.67、0.61和0.60, 降低67.67%—70.15%(P<0.05)。结果表明: 在黄颡鱼日粮中, 8.5%添加量的酶解鱼溶浆(干物质)、8.2%添加量的酶解鱼浆(干物质)可以完全替代鱼粉(28%), 而相应的FIFO值分别比鱼粉组降低了69.95%和70.15%; 酶解鱼溶浆对黄颡鱼的生长效果优于鱼溶浆。日粮中过高或过低添加量的鱼溶浆、酶解鱼溶浆和酶解鱼浆都会导致黄颡鱼的生长速度和饲料效率下降。     

Effects of dietary hydrolysate supplementation on growth,body composition,hematological responses,and liver histology of juvenile giant trevally (Caranx ignobilis Forsskal, 1775)

A feeding study was conducted to investigate how fish protein hydrolysate (FPH) supplementation affected the growth, feed utilization, body composition, and hematology of juvenile giant trevally (Caranx ignobilis Forsskal, 1775). Seven isonitrogenous (52% protein) and isocaloric diets (10% lipid) were formulated, wherein shrimp hydrolysate (SH) and tuna hydrolysate (TH) were used to replace fishmeal at inclusion levels of 0 (control), 30, 60, and 90 g/kg and labeled as control, SH30, SH60, SH90, TH30, TH60, and TH90, respectively. Each diet was fed to triplicate groups of juvenile giant trevally for 8 weeks. The results showed higher final body weight and specific growth rate in fish fed SH30, SH60, TH30, and TH60 than fed control diet. No difference was observed in feed intake, but reduced feed conversion ratio (FCR) was found in fish fed SH30, SH60, TH30, and TH60, demonstrating these diets improved feed utilization. TH90 caused deposition of lipid droplet in the hepatocyte, a sign of liver damage. Total monounsaturated fatty acids, polyunsaturated fatty acids (PUFA), and highly unsaturated fatty acids in fish were not affected by FPH supplementation. Fish fed TH30 showed lower ∑n − 3 PUFA than the fish fed remaining dietary treatments. The elevated serum protein was seen in fish fed control, SH30, SH60, and TH30, demonstrating that these diets were beneficial for the innate immune response in giant trevally. The results indicate that TH and SH could be incorporated into diets of giant trevally at 30–60 g/kg, replacing 7%–13% fishmeal with enhanced growth and health benefits.     

Synthesis and in vitro antioxidant functions of protein hydrolysate from backbones of Rastrelliger kanagurta by proteolytic enzymes

Every year, a huge quantity of fishery wastes and by-products are generated by fish processing industries. These wastes are either underutilized to produce low market value products or dumped leading to environmental issues. Complete utilization of fishery wastes for recovering value added products would be beneficial to the society and individual. The fish protein hydrolysates and derived peptides of fishery resources are widely used as nutritional supplements, functional ingredients, and flavor enhancers in food, beverage and pharmaceutical industries. Antioxidants from fishery resources have attracted the attention of researchers as they are cheaper in cost, easy to derive, and do not have side effects. Thus the present investigation was designed to produce protein hydrolysate by pepsin and papain digestion from the backbones of Rastrelliger kanagurta (Indian mackerel) and evaluate its antioxidant properties through various in vitro assays. The results reveal that both hydrolysates are potent antioxidants, capable of scavenging 46% and 36% of DPPH (1,1-diphenyl-2 picrylhydrazyl) and 58.5% and 37.54% of superoxide radicals respectively. The hydrolysates exhibit significant (p < 0.05) reducing power and lipid peroxidation inhibition. Among the two hydrolysates produced, pepsin derived fraction is superior than papain derived fraction in terms of yield, DH (Degree of hydrolysis), and antioxidant activity.     

Biological detoxification of different hemicellulosic hydrolysates using Issatchenkia occidentalis CCTCC M 206097 yeast

This work had as its main objective to contribute to the development of a biological detoxification of hemicellulose hydrolysates obtained from different biomass plants using Issatchenkia occidentalis CCTCC M 206097 yeast. Tests with hemicellulosic hydrolysate of sugarcane bagasse in different concentrations were carried out to evaluate the influence of the hydrolysate concentration on the inhibitory compounds removal from the sugarcane bagasse hydrolysate, without reduction of sugar concentration. The highest reduction values of inhibitors concentration and less sugar losses were observed when the fivefold concentrated hydrolysate was treated by the evaluated yeast. In these experiments it was found that the high sugar concentrations favored lower sugar consumption by the yeast. The highest concentration reduction of syringaldehyde (66.67%), ferulic acid (73.33%), furfural (62%), and 5-HMF (85%) was observed when the concentrated hydrolysate was detoxified by using this yeast strain after 24 h of experimentation. The results obtained in this work showed the potential of the yeast Issatchenkia occidentalis CCTCC M 206097 as detoxification agent of hemicellulosic hydrolysate of different biomass plants.     

Detoxification of wood hydrolysates with laccase and peroxidase from the white-rot fungus Trametes versicolor

Fermentation of wood hydrolysates to desirable products, such as fuel ethanol, is made difficult by the presence of inhibitory compounds in the hydrolysates. Here we present a novel method to increase the fermentability of lignocellulosic hydrolysates: enzymatic detoxification. Besides the detoxification effect, treatment with purified enzymes provides a new way to identify inhibitors by assaying the effect of enzymatic attack on specific compounds in the hydrolysate. Laccase, a phenol oxidase, and lignin peroxidase purified from the ligninolytic basidiomycete fungus Trametes versicolor were studied using a lignocellulosic hydrolysate from willow pretreated with steam and SO₂. Saccharomyces cerevisiae was employed for ethanolic fermentation of the hydrolysates. The results show more rapid consumption of glucose and increased ethanol productivity for samples treated with laccase. Treatment of the hydrolysate with lignin peroxidase also resulted in improved fermentability. Analyses by GC-MS indicated that the mechanism of laccase detoxification involves removal of monoaromatic phenolic compounds present in the hydrolysate. The results support the suggestion that phenolic compounds are important inhibitors of the fermentation process. Received: 3 November 1997 / Received revision: 4 February 1998 / Accepted: 6 February 1998     

Yeast hydrolysate as a low-cost additive to serum-free medium for the production of human thrombopoietin in suspension cultures of Chinese hamster ovary cells

To enhance the performance of a serum-free medium (SFM) for human thrombopoietin (hTPO) production in suspension cultures of recombinant Chinese hamster ovary (rCHO) cells, several low-cost hydrolysates such as yeast hydrolysate (YH), soy hydrolysate, wheat gluten hydrolysate and rice hydrolysate were tested as medium additives. Among various hydrolysates tested, the positive effect of YH on hTPO production was most significant. When 5 g l^–1 YH was added to SFM, the maximum hTPO concentration in batch culture was 40.41 g ml^–1, which is 11.5 times higher than that in SFM without YH supplementation. This enhanced hTPO production in YH-supplemented SFM was obtained by the combined effect of enhanced q_hTPO (the specific rate of hTPO production). The supplementation of YH in SFM increased q_hTPO by 294% and extended culture longevity by >2 days if the culture was terminated at a cell viability of 50%. Furthermore, cell viability throughout the culture using YH-supplemented SFM was higher than that using any other hydrolysate-supplemented SFM tested, thereby minimizing degradation of hTPO susceptible to proteolytic degradation. In addition, YH supplementation did not affect in vivo biological activity of hTPO. Taken together, the results obtained demonstrate the potential of YH as a medium additive for hTPO production in serum-free suspension cultures of rCHO cells.     

Peptide and amino acid composition of different protein bases for culture media

The enzymatic hydrolysates under study, obtained from different raw materials, have been shown to contain a great variety of peptides with different molecular weight. The highest content of fractions with a molecular weight of 2000 D has been observed in enzymatic meat and casein hydrolysates manufactures in the GDR. Low-molecular fractions (100-200 D) prevail in amino peptide. A great variety of peptides with different molecular weight is observed in Hottinger's meat hydrolysate and in blood clot hydrolysate obtained from the blood of laboratory animals. All peptide fractions have been shown to contain a wide spectrum of free amino acids. These data on the peptide and amino acid composition of different protein bases facilitate their rational use of microbiological culture media.     

Promoting effect of rapeseed proteins and peptides on Sf9 insect cell growth

The Baculovirus Expression Vector System has become widely used for the production of recombinant proteins for research and diagnostics. Serum-free culture media able to support high cell densities have been developed for the large scale culture of insect cells. While serum elimination aims at avoiding the risks associated with the introduction of an ill defined component of bovine origin, additives such as protein hydrolysates from animal sources are still used. An alternative could be the supplementation of culture media with protein hydrolysates derived from plants. In this study, we describe the replacement of lactalbumin hydrolysate with a laboratory produced hydrolysate of rapeseed proteins. Its effect on Sf9 cell growth kinetics, substrate consumption and by-product formation in low-serum or serum-free medium was evaluated. Cells were unable to grow in the presence of a rapeseed protein hydrolysate generated by PTN 3.0 Special^® enzyme and containing only 24% of peptides under 1 kDa in size. On the other hand, serum-free medium supplementation with a rapeseed protein hydrolysate obtained with Orientase 90N^® enzyme had a strong growth promoting effect, leading to a 60% increase in maximal cell density without affecting cell metabolism. This significant positive effect could be explained by the higher degree of hydrolysis of this digest, with 74% of peptides under 1 kDa in size.     

Multiobjective optimization of the antioxidant activities of horse mackerel hydrolysates produced with protease mixtures

Fish protein hydrolysates (FPH) from horse mackerel were produced by employing an enzyme mixture of subtilisin and trypsin. The antioxidant activity of fish hydrolysates (DPPH scavenging activity, Fe²⁺ chelating activity and Fe³⁺ reducing power) was modelled as a function of the operating conditions for the hydrolysis (i.e. protein concentration, temperature and composition of the enzyme mixture). The antioxidant activities showed different behavior depending on whether their controlling pathway was the transference of electrons/protons (i.e. DPPH scavenging activity and Fe³⁺ reducing power) or metal chelation. In the first case, the antioxidant activities increased with the decrease of substrate concentration and temperature when pure trypsin (DPPH scavenging activity) or a mixture of enzymes (Fe³⁺ reducing capacity) was employed. Contrarily, hydrolysates showed higher Fe²⁺ chelating activities at moderate concentration and high temperature (i.e. 5 g/L and 55 °C) employing solely subtilisin. The conflictive behavior among the antioxidant properties suggested using a multiobjective optimization technique. The ε-constraint method was chosen for this purpose. This approach allows determining the most adequate operational conditions for producing hydrolysate with a specific antioxidant profile which is the first approximation to the production of taylor-made antioxidant hydrolysates.     

Preparation and testing of Sardinella protein hydrolysates as nitrogen source for extracellular lipase production by Rhizopus oryzae

Various fish protein hydrolysates (FPH) from sardinella (Sardinella aurita) were used as nitrogen sources for the production of extracellular lipase by the filamentous fungus Rhizopus oryzae. The best results were obtained with defatted meat–fish protein hydrolysates (DMFPH), indicating the presence in the lipid fraction of some constituents which may repress lipase synthesis. Furthermore, it was found that the extensive hydrolysis of fish proteins resulted in a higher lipase production. The use of 40 g DMFPH l^–1 for the growth of Rhizopus oryzae in medium R1 resulted in a lipase production of 394 U ml^–1, higher than the yield obtained with standard soy peptone as nitrogen source (373 U ml^–1). The most appropriate medium for the growth and the production of lipase is composed only of 24 g DMFPH l^–1 and 10 g glucose l^–1, indicating that the strain can obtain its nitrogen and salts requirements directly from fish substrate.     

Protein hydrolysate from visceral waste proteins of Catla (Catla catla): optimization of hydrolysis conditions for a commercial neutral protease

Protein hydrolysate was prepared from visceral waste proteins of an Indian freshwater major carp, Catla catla. Hydrolysis conditions (viz., time, temperature and enzyme to substrate level) for preparing protein hydrolysates from the fish visceral waste proteins using in situ pH of the visceral mass were optimized by response surface methodology (RSM) by employing a factorial design. The regression coefficient close to 1.0, observed during both experimental and validation runs, indicated the validity of prediction model. An enzyme to substrate level of 1.25 % (v/w), temperature of 55 degrees C and a hydrolysis time of 165 min were found to be the optimum conditions to obtain a higher degree of hydrolysis of >48% using multifect-neutral. The amino acid composition of the protein hydrolysate prepared using the optimized conditions revealed that the protein hydrolysate was similar to FAO/WHO reference protein. The chemical scores computed indicated methionine to be the most limiting amino acid. The protein hydrolysate has the potential for application as an ingredient in balanced fish diets.     

水解鱼蛋白对大菱鲆幼鱼消化率的影响

设计5组等氮等脂等能的饲料, 在室内流水系统进行68d的养殖实验, 探讨高植物蛋白饲料中添加不同分子量水解鱼蛋白对大菱鲆Scophthalmus maximus L.（16.050.03） g幼鱼消化能力的影响。分别在高植物蛋白饲料中添加5.4%超滤水解鱼蛋白（UF）、5.5%未经超滤水解鱼蛋白（FPH）、5.5%超滤截留水解鱼蛋白（RF）, 其均占饲料蛋白的10%, 以及不添加水解蛋白（PP）, 以上各组鱼粉含量均为18%, 对照组（FM）鱼粉含量为67.5%。研究结果表明, FM组的大菱鲆特定生长率与UF、FPH及PP组无显著差异（P0.05）; 饲料效率、蛋白质效率和蛋白质沉积率在FM组与UF组无显著差异（P0.05）, 但显著高于FPH、RF及PP组（P0.05）; 饲料干物质和蛋白质消化率在UF、FPH及RF组显著高于PP组（P0.05）, 但显著低于FM组（P0.05）, 在UF组显著高于FPH和RF组（P0.05）; 不同处理对饲料氨基酸和牛磺酸的消化率均产生显著影响（P0.05）, 趋势为FM组最高, 其次为UF组, PP组最低; 半胱氨酸和牛磺酸的消化率在添加水解鱼蛋白的3组（UF、FPH和RF组）和不添加水解鱼蛋白的2组（FM和PP组）呈相反的趋势。上述结果表明, 在高植物蛋白饲料中添加低分子量水解鱼蛋白（UF）, 大菱鲆幼鱼的生长和饲料利用有升高的趋势, 但UF、FPH以及RF都显著提高了大菱鲆对饲料干物质、蛋白质和氨基酸的消化率, 且UF效果优于FPH和RF。此外, 添加不同分子量水解鱼蛋白都降低了牛磺酸的消化率。