Trypsin Inhibitory Activity and Gel‐Enhancing Effect of Sarcoplasmic Proteins from Common Carp

Abstract: Proteinase inhibitory activity of sarcoplasmic protein (SP) extracted from common carp (Cyprinus carpio) muscle and its gel‐improving ability were investigated. SPs displayed 89% and 54% inhibitory activity toward trypsin at 40 and 65 °C, respectively. Protein bands with molecular mass of 69, 50, 44, 41, and 35 kDa appeared on trypsin inhibitory activity staining under nonreducing condition when incubated at 40 °C, while 2 protein bands at 54 and 35 kDa were observed at 65 °C. Addition of SP at 0.18 g protein/100 g increased textural properties of threadfin bream surimi gel. However, when SP was added in combination with various CaCl₂ concentrations (0.1% to 0.5%) it did not further improve textural properties as compared to the addition of SP alone. Retention of myosin heavy chain of threadfin bream surimi was greater with the addition of SP. These results indicated that the gel‐enhancing effect of common carp SP was due to the inhibitory activity toward endogenous trypsin‐like proteinases in threadfin bream surimi. Practical Application: Sarcoplasmic protein from common carp muscle could be used as a functional protein ingredient that minimizes muscle proteolysis and improves textural properties of surimi containing trypsin‐like endogenous proteinases.     

Proteinase inhibitory activity of sarcoplasmic proteins from threadfin bream (Nemipterus spp.)

BACKGROUND: Thailand is the second largest surimi producer in the world and 50% of surimi is produced from threadfin bream. During surimi processing, sarcoplasmic proteins are removed through water washing and discarded in the waste stream. This study was aimed at investigating the proteinase inhibitory activity of sarcoplasmic proteins. RESULTS: Sarcoplasmic proteins from threadfin bream (TBSP) exhibited inhibitory activity toward trypsin but did not inhibit papain and chymotrypsin. Sodium dodecyl sulfate–polyacrylamide gel electrophoresis under non‐reducing condition stained by trypsin inhibitory activity revealed three protein bands of molecular mass of 95, 41 and 37 kDa. Inhibitory activity of TBSP reached a maximum when subjected to 45 °C and completely disappeared at 60 °C. The breaking force and deformation of lizardfish surimi gel with added TBSP and pre‐incubated at 37° for 20 min increased with additional levels of TBSP (P < 0.05). Trichloroacetic acid–oligopeptide content of lizardfish surimi gel with added TBSP decreased with the addition of 4 g kg^?1 TBSP (P < 0.05). Retention of myosin heavy chain (MHC) increased when TBSP concentration was increased. TBSP effectively protected MHC from proteolysis at 37 °C to a similar extent as egg white powder, but efficacy of TBSP was not observed at 65 °C. CONCLUSION: TBSP could be applied to reduce proteolytic degradation of lizardfish surimi or other surimi associated with trypsin‐like proteinase, rendering an improvement in surimi gelation set at 37–40 °C. Copyright © 2009 Society of Chemical Industry     

Effect of high-temperature setting on gelling characteristic of surimi from some tropical fish

The effect of setting at 40 °C on the textural properties and the changes in myofibrillar proteins in surimi produced from threadfin bream (Nemipterus bleekeri), bigeye snapper (Priacanthus tayenus), barracuda (Sphyraena jello) and bigeye croaker (Pennahai macrophthalmus) was investigated. An increase in the time of setting generally resulted in higher breaking force and also the deformation of both suwari and kamaboko gels. Maximum increases in gel‐breaking force were obtained in 1 h for threadfin bream, 2 h for bigeye snapper, 1.5 h for barracuda and 3 h for bigeye croaker. Extended setting time caused decreases in breaking force and deformation in all surimi, except that produced from bigeye croaker. Gel strengthening was associated with an increase in non‐disulphide covalent bond formation. Degradation of proteins occurred with prolonged setting. Therefore, setting at 40 °C for an appropriate time is a promising means to improve the gelling property of surimi produced from tropical fish.     

Comparative study on protein cross-linking and gel enhancing effect of microbial transglutaminase on surimi from different fish

BACKGROUND: Microbial transglutaminase (MTGase) has been used to increase the gel strength of surimi. Nevertheless, its effectiveness varies with fish species. The aim of this study was to elucidate the effect of MTGase at different levels on protein cross‐linking and gel property of surimi from threadfin bream, Indian mackerel and sardine in the presence and absence of endogenous transglutaminase. RESULT: Breaking force of all surimi gels increased as MTGase levels (0–0.6 U g^?1) increased except for threadfin bream surimi gel, where the breaking force decreased at 0.6 U g^?1 (P < 0.05). In the presence of EDTA, the gel strengthening effect was lower, suggesting the combined effect of endogenous transglutaminase with MTGase. With the addition of MTGase, the gel with the highest increase in breaking force showed highest decrease in myosin heavy chain. When cross‐linking activity of MTGase on natural actomyosin (NAM) was determined, the highest decreasing rate in ε‐amino group content with the concomitant increased formation of cross‐linked proteins was found in NAM from threadfin bream. The reactivity of muscle proteins toward MTGase‐induced cross‐linking was in agreement with surimi gel strengthening. CONCLUSION: The composition and properties of muscle proteins of varying fish species more likely determined protein cross‐linking induced by MTGase, thereby affecting their gel properties. Copyright © 2011 Society of Chemical Industry     

Protein cross-linking ability of sarcoplasmic proteins extracted from threadfin bream

Sarcoplasmic proteins extracted from threadfin bream (TB, Nemipterus sp.) contained transglutaminase (TGase) activity exhibiting a pH optima at 7.5. Activity increased with CaCl₂ and reached the maximum at 5 mmol/L, showing the Ca²⁺-dependent characteristic. TGase activity staining on native-polyacrylamide gel electrophoresis (native-PAGE) showed two fluorescent bands catalyzing incorporation of monodansylcadavarine (MDC) into di-methylated casein (DMC). However, both fluorescent bands showed only one major protein band with a molecular weight of about 66 kDa on sodium dodecylsulfate-PAGE (SDS-PAGE), suggesting the presence of isozymes. The TB sarcoplasmic protein (TBSP) concentrated using a 30-kDa ultrafiltration membrane induced cross-linkings of bovine serum albumin when incubated at 25 °C for 6 h. Addition of the concentrated TBSP at 1.6 g protein/100 g along with 0.1 g CaCl₂/100 g resulted in a 1.8-fold increase in the breaking force of the proteinase-laden lizardfish surimi pre-incubated at 37 °C for 20 min. TBSP effectively minimized proteolysis of lizardfish surimi at 37 °C. TBSP could be a promising protein additive that improves textural properties of proteinase-laden surimi.     

INHIBITION OF GEL WEAKENING OF THREADFIN BREAM SURIMI USING THAI LEGUME SEED PROTEINASE INHIBITORS

Partially purified proteinase inhibitors from cowpea (Vigna unguiculata (L) Wasp), pigeon pea (Cajanus cajan (L.) Millsp.) and bdmbara groundnuts (Voandzeia subterranea (L.) Thou) effectively inhibited sarcoplasmic modori‐inducing proteinase extracted from threadfin bream muscle in a concentration dependent manner. Incorporation of these proteinase inhibitors into threadfin bream surimi partially inhibited autolytic degradation and increased the gel force and deformation. Combination of setting and incorporating proteinase inhibitors from cowpea and bambara groundnut var. HY at the level of 30 Kcunits/g resulted in an increase in gel force and deformation by 60% and 26%, respectively. However, the lightness and whiteness of surimi gels decreased slightly when the proteinase inhibitor was added at a level of 30 kunits/g.     

Effect of medium temperature setting on gelling characteristics of surimi from some tropical fish

Effects of setting at 25 °C on textural properties and cross-linking of myofibrillar proteins in surimi produced from threadfin bream (Nemipterus bleekeri), bigeye snapper (Priacanthus tayenus), barracuda (Sphyraena jello) and bigeye croaker (Pennahai macrophthalmus) were investigated. Increase in setting time (0–8 h) resulted in a higher breaking force and deformation for all surimi gels tested (P<0.05). Increased gel strength was associated with increase in non-disulfide bond formation and decreased heavy chain myosin. Proteins underwent degradation during setting; however polymerization occurred to a much higher extent, leading to a strengthened gel matrix. Therefore, setting at 25 °C, for an appropriate time, should be a promising means to improve gelling properties of surimi produced from tropical fish.     

Gel‐enhancing effect and protein cross‐ linking ability of tilapia sarcoplasmic proteins

BACKGROUND: Tilapia (Oreochromis niloticus) sarcoplasmic proteins contain substantial transglutaminase (TGase) activity. The enzyme catalyzes the protein cross‐linking reaction, resulting in a more elastic gel. The objective was to investigate the gel‐enhancing effect of sarcoplasmic proteins from tilapia as related to TGase activity. RESULTS: Total TGase activity of sarcoplasmic proteins concentrate (SpC) increased about 3.6‐fold after ultrafiltration using 30 kDa membrane, but specific activity remained unchanged, indicating minimal TGase purification by ultrafiltration. Addition of 1 mg mL^?1 SpC containing 40 units TGase activity induced cross‐linking of tilapia actomyosin, and the extent of cross‐linking increased with added level of SpC. Myosin heavy chain (MHC) and troponin were preferably cross‐linked by tilapia SpC, while actin and tropomyosin were not affected. Higher retention of MHC was observed concomitantly with greater content of cross‐linked protein when SpC was added to lizardfish surimi. Lizardfish surimi with 10 g kg^?1 SpC added and pre‐incubated at 37 °C for 1 h exhibited 91.6% and 26.7% increase in breaking force and deformation, respectively, when compared to the control. CONCLUSIONS: Residual TGase activity in SpC played an important role in catalyzing the protein cross‐linking and enhancing actomyosin gelation. SpC could be a potential ingredient for improving textural properties of fish protein gel. Copyright © 2007 Society of Chemical Industry     

Elucidating Factors Affecting Floatation of Fish Ball

ABSTRACT:  Factors affecting floatation of fish ball in water were investigated. The density of threadfin bream (TB) surimi paste significantly decreased ( P < 0.05) as moisture content, temperature, or salt concentration increased. The ability of surimi paste to float or sink in water was observed according to changes in density. In gel texture measurement, when surimi was thawed for 1 h before chopping at 5 °C with 2% salt, the highest breaking force and deformation values were obtained. Apparent viscosity of surimi paste decreased as moisture content increased or salt concentration increased, and chopping temperature decreased. Setting gels in salt solution (5 or 10%) significantly reduced ( P < 0.05) stickiness, which is the tendency to stick to one another.     

Effect of Endogenous Transglutaminase on Threadfin Bream Surimi Gelation

ABSTRACT: Transglutaminase(TGase) activity of threadfin bream mince was 99.6 units/g of dry weight. After washing and screw-pressed dewatering, 44% residual activity was retained. Covalent cross-linking of myosin heavy chain (MHC) was observed at both 25 and 40°C and supported by increased gel strength. When pre-incubation at 40°C was prolonged to 4 h, breaking force and MHC decreased due to endogenous proteinase(s). TGase activity towards MHC and synthetic substrates was effectively inhibited by iodoacetic acid (IAA). Autolytic activity and degradation of MHC was inhibited by phenylmethanesulfonyl fluoride (PMSF). Addition of 0.2% Ca²⁺ significantly improved breaking force and increased MHC cross-linking of surimi gels pre-incubated at 40°C for 2 h. Keywords: transglutaminase, myosin heavy chain, cross-linking, threadfin bream     

Effects of Thermal Sensitivity of Fish Proteins from Various Species on Rheological Properties of Gels

ABSTRACT: Thermal sensitivity of myofibrillar proteins from various fish species were compared at various preincubation (setting) treatments and chopping temperatures. There was a significant species effect on gel texture by both pre‐incubation and chopping temperatures. Whereas Alaska pollock had the highest shear stress values at 5 °C or lower temperatures, big eye, lizardfish, and threadfin bream had higher fracture shear stress values at 25 °C or higher temperatures. Decreased intensity of myosin heavy chain (MHC) for warm‐water species set at 40 °C clearly revealed higher thermal stability of these particular species.     

Optimum chopping conditions for Alaska pollock, Pacific whiting, and threadfin bream surimi paste and gel based on rheological and Raman spectroscopic analysis

Rheological and Raman spectroscopic properties of surimi from three species [Alaska pollock (AP) (cold water), Pacific whiting (temperate water), and threadfin bream (warm water)] were investigated as affected by various chopping conditions. Comminuting Alaska pollock surimi at 0 °C demonstrated superior gel hardness and cohesiveness when chopping time was extended to 15-18 min; however, long chopping time at higher temperatures resulted in a significantly decreased gel texture particularly at 20 °C. Warm water fish threadfin bream exhibited higher gel texture when chopping was done longer at higher temperature. Rheological properties were significantly affected by both chopping time and temperature. Species effect, based on their thermal stability, was readily apparent. Raman spectroscopy revealed a significant change in disulfide linkage and the reduction of secondary structure upon extended chopping. Dynamic oscillation rheology demonstrated the damage of light meromyoisn and lowering of onset of gelling temperature as the chopping time was extended. PRACTICAL APPLICATION: Chopping conditions to determine gel quality and manufacture surimi seafood are varied by all manufacturers. This paper covering three primary species for surimi with their suggested optimum chopping conditions: 15 min for Alaska pollock when chopped at 0 °C, 15 min for Pacific whiting at 15-20 °C, and 18 min for threadfin bream at 25-30 °C. The use of optimum chopping condition should maximize the value of each surimi and provide consistent quality to the end users.     

Characteristics of Sarcoplasmic Proteins and Their Interaction with Surimi and Kamaboko Gel

ABSTRACT:  This study examined the effect of adding common carp sarcoplasmic proteins (Sp- P) on the gel characteristics of threadfin bream surimi and kamaboko while maintaining constant moisture and myofibrillar levels. Based on the temperature sweep test, which is involved in heating of surimi gel from 10 to 80 °C to monitor the viscoelastic properties, at temperature range of 40 to 50 °C, the decrease level (depth of valley) in storage modulus (G') thermograph was in proportion to the concentration of added Sp- P. Storage modulus (G') showed greater elasticity after adding Sp- P compared with the control without Sp- P. Furthermore, the breaking force and distance and consequently gel strength of the resultant kamaboko were improved significantly ( P > 0.05). Thus, added Sp- P did not interfere with myofibrillar proteins during sol–gel transition phase but associated with textural quality enhancement of resultant kamaboko; however, addition of Sp- P from the dark muscle of the carp decreased the whiteness of the resultant surimi. Furthermore, according to the SEM micrographs, the gel strength could not be associated with either the number of polygonal structures/mm² or the area of the polygonal structures in the kamaboko gel microstructure.     

Gelation characteristics of tropical surimi under water bath and ohmic heating

Gelation characteristics of tropical surimi, namely threadfin bream (TB), bigeye snapper (BS), goatfish (GF) and lizardfish (LF) prepared in the absence and presence of 10 g kg^?1 egg white proteins were evaluated using either ohmic (OH) or water bath (WB) heating. LF and GF surimi exhibited higher endogenous proteolytic activity than BS and TB. Ohmic heating markedly minimized proteolysis of LF and GF surimi as evidenced by a reduction of trichloroacetic acid (TCA)-soluble oligopeptide content of gels and more retention of myosin heavy chain (MHC). Ohmic heating increased breaking force and deformation of TB and BS surimi by 1.3 and 1.6 times, respectively, as compared to water bath heating. However, TB surimi gels heated by a higher applied voltage gradient of 16.7 V cm^?1 exhibited lower breaking force than those heated at 6.7 V cm^?1. Gels heated ohmically contained lower total sulfhydryl concentration, indicating the greater extent of disulfide bond formation as compared to gels heated in a 90 °C water bath. The rapid heating method with shorter heating time could improve water holding capacity and preserve color of tropical surimi gels when compared to water bath heating.     

Effect of reducing agents on physicochemical properties and gel-forming ability of surimi produced from frozen fish

Effects of different reducing agents (cysteine, ascorbic acid and sodium bisulfite) at various levels on physicochemical properties of protein, transglutaminase activity and gel properties of surimi produced from frozen croaker, lizardfish, threadfin bream and bigeye snapper were studied. Addition of cysteine resulted in the highest increase in the breaking force and the deformation of surimi gels, compared with other reducing agents. The optimum levels of cysteine were 0.05, 0.1, 0.05 and 0.1% (w/w) for surimi from frozen croaker, lizardfish, threadfin bream and bigeye snapper, respectively. Surimi from frozen croaker with cysteine added showed a similar breaking force and deformation to that produced from fresh fish. With addition of cysteine, an increase in sulfhydryl content with a concomitant decrease in disulfide bond content was generally observed. Ca²⁺ ATPase activity also increased, indicating the renaturation of the myosin molecule. T_max of peak 1 (myosin peak) of all surimi sols in the presence of cysteine was shifted to higher temperature. The increased transglutaminase activity was observed with addition of cysteine. Therefore, reducing agents, especially cysteine, recovered the denatured muscle proteins and activated the transglutaminase in the muscle, leading to the increased gel-forming ability of surimi produced from frozen fish.     

Porcine plasma protein as proteinase inhibitor in bigeye snapper (Priacanthus tayenus) muscle and surimi

Porcine plasma protein (PPP) showed inhibitory activity towards trypsin, papain, digestive enzymes and modori‐inducing proteinases from bigeye snapper. Among the fractions prepared, fraction IV‐1 exhibited the highest inhibitory activity against all proteinases tested and the autolysis of fish muscle. At a level of 0.5% (w/w), both PPP and fraction IV‐1 effectively prevented the degradation of myosin heavy chain in fish muscle. The inhibitory activity of fraction IV‐1 was stable up to 60 °C. Incorporation of fraction IV‐1 significantly increased the breaking force, deformation and water‐holding capacity of surimi gel from bigeye snapper (P < 0.05). However, no increase in breaking force and deformation was found when fraction IV‐1 was added at a level above 0.3% (w/w) (P > 0.05). No significant change in whiteness of surimi gel was observed with the addition of fraction IV‐1 (P > 0.05). © 2001 Society of Chemical Industry     

Hemagglutinating activity and corresponding putative sequence identity from Curcuma aromatica rhizome

BACKGROUND: Curcuma aromatica is a medicinal plant belonging to the Zingiberaceae family with an incomplete genome sequence. It has been reported that extract from the rhizome of this plant contains haemagglutinating activity. In this study the profile of fractions containing hemagglutinating activity is described. RESULTS: Following extraction with saline buffer, the protein solution was fractionated by ammonium sulfate precipitation. Ion‐exchange chromatography was completed on fast‐flow SP‐Sepharose, as well as gel filtration chromatography on Superdex 75. The active fractions were then separated by one‐dimensional sodium dodecyl sulfate–polyacrylamide gel electrophoresis and labeled proteins were digested with trypsin. The digest bands were analyzed by reversed‐phase liquid chromatography—tandem mass spectrometry. Inferred peptide sequences were used in Mascot searching and mass spectrometry‐driven BLAST (MS‐BLAST) homology searches allowed the recognition of related proteins in other species of Viridiplantae. Six putative proteins from nine bands showed similarity with lectin sequences. CONCLUSION: This study reports the identification of six lectins from the Curcuma aromatica rhizome achieved by mass spectrometry using MS‐BLAST algorithms to search for homology between de novo determined peptide sequences and protein sequences available in sequence databases. Copyright © 2008 Society of Chemical Industry     

Effect of porcine plasma protein and setting on gel properties of surimi produced from fish caught in Thailand

Effects of porcine plasma protein (PPP) and high temperature setting on gel properties of surimi from bigeye snapper, bigeye croaker, threadfin bream and barracuda were investigated. PPP was effective in increasing breaking force and deformation of kamaboko gels set at 40°C for 30 min and heated at 90°C for 20 min. The optimum levels of PPP were 0.5, 0.5, 1.5 and 1.5 g/100 g and the optimum setting times were 2, 1.5, 1.5 and 2 h for bigeye snapper, bigeye croaker, threadfin bream and barracuda surimi, respectively. However, the addition of PPP significantly decreased whiteness (P<0.05). An increase in gel-forming ability of surimi with PPP coincided with a decrease in solubility in mixture of SDS, urea and β-mercaptoethanol, indicating the formation of nondisulfide covalent bond induced by both endogenous and plasma transglutaminase. The results supported that PPP improve the gelation of surimi in combination with setting.     

Whey Protein Concentrate as a Proteinase Inhibitor in Pacific Whiting Surimi

The most effective inhibition of autolytic proteinase activity was found at 3% whey protein concentrate (WPC) with residual proteinase activity at 14.2%. WPC reduced papain and trypsin activities linearly with lowest residual activities of 8.7% and 41.4%, respectively. An unidentified high-molecular-weight protein was inhibitory for papain and trypsin with no inhibitory components detected at the region r 100,000. The highest shear strain of surimi was obtained with WPC at 4%. The values were 1.89 when rapidly cooked at 90°C for 15 min and 1.62 when pre-heated at 60°C for 30 min prior to cooking at 90°C.     

Structure and functional properties of modified threadfin bream sarcoplasmic protein

Surimi wash-water contains up to 30% of protein from fish muscle that is currently underutilized. This paper describes the effect of acetylation, succinylation, trypsin hydrolysis or pre-heating at 55 °C on the emulsification and foaming properties of a threadfin bream sarcoplasmic protein (TBSP) model for wash-water protein. Multiple regression analysis showed that emulsification and foaming characteristics were differentially affected by TBSP surface hydrophobicity (S₀), solubility in water (S_W) and free amino group (fNH₂) concentration. Emulsification activity index (EAI) for TBSP was most enhanced by succinylation, whereas the foaming capacity (FC) was more effectively extended by trypsin hydrolysis. Structure–function relationships for emulsification were different from those associated with foaming or for ensuring the stability of these food dispersions. This study suggests that surimi wash-water protein functionality can be improved by protein modification. Further strategies may be needed to stabilize fish protein stabilized emulsions and foams.