Autolysis of goatfish (Mulloidichthysmartinicus) mince: Characterisation and effect of washing and skin inclusion

Autolysis of goatfish mince and washed mince incubated at different temperatures (30–70 °C) was investigated. The highest autolytic activity was generally observed in mince and washed mince at 60 °C as evidenced by the highest trichloroacetic acid (TCA) soluble peptide content and the greatest disappearance of myosin heavy chains (MHCs). Autolysis of both mince and washed mince was maximised at pH 4, and lower autolytic activity was observed at pH 7. trans-epoxysuccinyl-l-leucyl-amido (4-guanidino) butane (E-64) showed the greatest inhibition of autolysis at pH 4, showing that at least one cysteine protease was active in goatfish muscle. Nevertheless, soybean trypsin inhibitor effectively inhibited the autolysis at neutral pH (pH 7), suggesting that goatfish muscle also contained at least one serine protease. Generally, autolysis of mince was more pronounced than that of washed mince, indicating that washing could lower the autolytic activity of mince. In the presence of skin, a higher autolysis was obtained with the goatfish mince. Therefore, both sarcoplasmic and myofibril-associated proteases in muscle as well as the contamination of skin likely contributed to the degradation of muscle proteins of goatfish.     

Effect of endogenous acid proteinases on the properties of edible films prepared from Alaska pollack surimi

The existence of endogenous acid proteinases in Alaska pollack surimi and their effect on mechanical properties of surimi films were investigated. The optimum pH of acid proteinases involved in the degradation of myosin heavy chain (MHC) was 3.0, and the optimum temperature was 45 °C. The degradation of MHC was completely inhibited by pepstatin A together with any one of cysteine proteinase inhibitors, suggesting that acid proteinases present in surimi are mainly cathepsin D and cysteine proteinases. The concomitant decrease of surimi film strength with the extent of MHC degradation was observed, but surimi films were formed even when most of MHC was degraded. The main associative forces responsible for the surimi films prepared at pH 3.0 were ionic bonds and hydrophobic interactions.     

Gel-forming ability of small scale mud carp (Cirrhiana microlepis) unwashed and washed mince as related to endogenous proteinases and transglutaminase activities

Gel-forming ability of small scale mud carp (Cirrhiana microlepis) mince and washed mince was investigated with respect to their proteinase and transglutaminase (TGase) activities. Proteinases in sarcoplasmic fluid showed the optimum activity at 65 °C and pH 9, whereas autolytic activity was maximum at 70 °C and pH 10, indicating the presence of heat-stable alkaline proteinases. When mince was washed with three volumes of water twice, TGase and proteinases were mainly removed in the first washing cycle, resulting in a decreased autolytic activity of washed mince. Breaking force of the single washed mince gels was greater than the twice washed mince and the unwashed mince gels (p<0.05). Pre-incubation of mince pastes at 40 °C for 1 h prior to cooking (90 °C/30 min) increased breaking force of all samples, particularly the single washed mince (p<0.05). This coincided with an increase of higher molecular weight polymers observed on SDS-PAGE. Washing did not completely eliminate proteinases as it was evident by an increased trichloroacetic acid (TCA)-soluble oligopeptides of washed gels pre-incubated at 55 °C. Whiteness values of washed mince gels were greater than that of mince gels.     

Post-mortem degradation of myosin heavy chain in intact fish muscle: Effects of pH and enzyme inhibitors

Fish muscle is rapidly degraded during post-mortem storage, due to proteolytic enzymes acting probably both on muscle cells and connective tissue. In this work we have developed a model system which may be used to study the enzymatic degradation occurring in intact post-mortem fish muscle. Degradation of myosin heavy chain (MHC) was monitored in muscle with pH adjusted to 6.05, 6.3 and 6.9 and in the presence of the enzyme inhibitors PMSF, EDTA, phenanthroline, pepstatin A, antipain, E-64 and the cysteine proteinase activator dithiothreithol (DTT). After storage, myofibrillar proteins were isolated and MHC-specific antibodies used to study the degradation in the different samples. MHC from muscle with pH 6.05 and 6.3 was degraded, while no severe degradation was observed at pH 6.9. Introduction of enzyme inhibitors into the muscle tissue clearly showed that mainly cysteine and aspartic proteinases are responsible for the in situ MHC degradation. This is supported by the severe breakdown of MHC in the muscle samples containing DTT.     

Autolysis of Pacific white shrimp (Litopenaeus vannamei) meat: characterization and the effects of protein additives

ABSTRACT:  Autolytic activity of Pacific white shrimp ( Litopenaeus vannamei ) mince in the absence and in the presence of 2.5%NaCl was investigated. Pacific white shrimp mince exhibited the maximum autolytic activity at 35 and 40 °C in the absence and in the presence of 2.5%NaCl, respectively, as evidenced by the highest TCA-soluble peptide content and the greatest disappearance of myosin heavy chain (MHC). The autolysis was more pronounced in the acidic pH values, followed by alkaline pH ranges. Pepstatin A showed the highest inhibition toward autolysis in the acidic condition, revealing that aspartic proteinase was dominant in shrimp muscle. Nevertheless, soybean trypsin inhibitor effectively inhibited the autolysis at neutral and alkaline pH values, suggesting that serine proteinase was present in shrimp mince but contributed to autolysis at a lower extent in shrimp meat. Autolysis in shrimp meat could be inhibited partially by all protein additives, including bovine plasma protein (BPP), egg white (EW), and whey protein concentrate (WPC). The inhibition of autolysis increased when the level of protein additives increased with the concomitant increase in band intensity of MHC retained. WPC and BPP in the range of 2% to 3% exhibited the highest inhibition toward autolysis of shrimp mince.     

Degradation of myofibrillar proteins by a myofibril-bound serine proteinase in the skeletal muscle of crucian carp (Carasius auratus)

A myofibril-bound serine proteinase (MBSP) in the skeletal muscle of crucian carp (Carasius auratus) was identified. Hydrolysis of myofibrillar proteins by the endogenous MBSP was studied. Myosin heavy chain (MHC) was degraded markedly when crucian carp myofibril was incubated at 55 °C, as shown by SDS-PAGE. Prolonged incubation of myofibril at 55 °C also caused the obvious degradation of tropomyosin, while the decomposition of other myofibrillar proteins, such as α-actinin and actin, was slight, as detected by Western blotting. The results suggest the existence of an endogenous myofibril-associated proteinase in crucian carp myofibril, which efficiently cleaves MHC and tropomyosin. Serine proteinase inhibitors (Lima bean trypsin inhibitor, PMSF and benzamidine) greatly suppressed the degradation of MHC, caused by the enzyme, while inhibitors for cysteine, metallo-, and aspartic proteinases showed only partial or incomplete inhibitory effects, indicating that the endogenous proteinase is a serine proteinase. Substrate specificity analysis, using partially purified crucian carp MBSP, suggested that the enzyme is a trypsin-like serine proteinase.     

Comparative study on proteolysis of two species of bigeye snapper,Priacanthus macracanthus and Priacanthus tayenus

Proteolytic activity in muscle from two species of bigeye snapper (Priacanthus macracanthus and Priacanthus tayenus) was studied. Autolysis of mince and washed mince at 50 and 60 °C was compared. Higher degradation of myosin heavy chain was observed in both mince and washed mince from P macracanthus than in those from P tayenus, especially when the incubation time was increased. Autolysis of washed mince from both species was inhibited by soybean trypsin inhibitor, suggesting that myofibril‐associated proteases were serine proteases. When sarcoplasmic proteolytic activity in P macracanthus muscle was studied, two activity peaks with an optimum temperature of 60 °C were observed at pH 6.5 and 8.5. The activities of both peaks were mostly inhibited by soybean trypsin inhibitor, suggesting that the major protease was a serine protease. Major sarcoplasmic proteolytic activity in P macracanthus muscle was found at M_r 62 000 on sodium dodecyl sulphate substrate gel. For P tayenus sarcoplasmic proteolytic activity, two activity peaks with an optimum temperature of 60 °C were found at pH 5.0 and 8.5. The pH 5.0 peak activity was effectively inhibited by pepstatin A, while the pH 8.5 peak activity was inhibited by several inhibitors. The results indicated that various sarcoplasmic proteases were present in P tayenus muscle. The two species contained different sarcoplasmic proteases in terms of composition and activity level. P macracanthus muscle generally had higher sarcoplasmic proteolytic activities than P tayenus muscle. Copyright © 2003 Society of Chemical Industry     

鱿鱼肝脏自水解过程中内源蛋白酶的作用研究

对鱿鱼肝脏蛋白酶的酶学性质及其在鱿鱼肝脏自水解过程中的作用进行研究。结果表明：以偶氮酪蛋白为底物,TCA可溶性肽为评价指标,测得鱿鱼肝脏蛋白酶粗酶的最适反应温度为40℃,最适反应pH值为5.0;该粗酶在pH3.0～8.0较为稳定。在鱿鱼肝脏自水解过程中,内源性半胱氨酸蛋白酶发挥主要作用。此外,丝氨酸蛋白酶和金属蛋白酶也有一定作用。     

IDENTIFICATION OF A MYOFIBRIL-BOUND SERINE PROTEINASE IN THE SKELETAL MUSCLE OF SILVER CARP

Myofibril‐bound serine proteinase (MBSP) in the skeletal muscle of silver carp was characterized. Myosin heavy chain (MHC) degraded markedly when silver carp myofibril was incubated at 55–60C as shown by SDS‐PAGE. Prolonged incubation of myofibrils also caused the degradation of other myofibrillar proteins such as α‐actinin, actin and tropomyosin to some degree. The results suggest the existence of an endogenous myofibril associated proteinase. Serine proteinase inhibitors (Pefabloc SC and Lima bean trypsin inhibitor) greatly suppressed the degradation of myosin heavy chain, while inhibitors for cysteine, metallo, and aspartic proteinases did not show any effect, indicating that the endogeneous proteinase is a myofibril‐bound serine proteinase.     

Improvement of Gelling Properties of Lizardfish Mince as Influenced by Microbial Transglutaminase and Fish Freshness

ABSTRACT:  The effects of microbial transglutaminase (MTGase) at different levels (0 to 0.8 units/g sample) on the properties of gels from lizardfish ( Saurida undosquamis ) mince set at 25 °C for 2 h or 40 °C for 30 min prior to heating at 90 °C for 20 min were studied. Breaking force and deformation of gels increased with increasing MTGase amount added ( P < 0.05). At the same MTGase level used, gels with the prior setting at 40 °C for 30 min showed a higher breaking force compared with those subjected to prior setting at 25 °C for 2 h ( P < 0.05). Sodium dodecyl sulfate-polyacrylamide gel electrophoretic study revealed that myosin heavy chain (MHC) underwent polymerization to a higher extent in the presence of MTGase. Regardless of setting condition, microstructure of gel added with MTGase was finer with a smaller void compared with that of gel without MTGase. Therefore, setting temperature affected the property of gels added with MTGase. Gel properties of mince obtained from lizardfish stored in ice for different times (0 to 10 d) with and without MTGase at a level 0.6 units/g were determined. Irrespective of MTGase addition, breaking force and deformation of all gels decreased as the storage time of lizardfish increased ( P < 0.05). The addition of MTGase was able to increase both breaking force and deformation of the resulting gel produced from lizardfish kept in ice for all storage times used. Therefore, both freshness and MTGase addition had the direct impact on gel properties of lizardfish mince.     

Protein Solubility in Pacific Whiting Affected by Proteolysis During Storage

The effects of post-harvest storage temperatures and times on proteolysis of Pacific whiting (Merluccius productus) and relationship to changes in protein solubility were evaluated. Myosin heavy chain (MHC) degraded rapidly during post-harvest storage at low temperatures (0-5°C). Greater degradation of MHC occurred at elevated temperatures. Actin degradation was similar to that of MHC but to a lesser degree. Both log-percent MHC and actin degradation were highly correlated (R² 5 0.88 and 0.74) to protein solubility. Degraded proteins were not completely removed by washing, resulting in a lower MHC content in washed mince.     

鱿鱼肝脏蛋白酶的鉴定及组织蛋白酶L的分离纯化

鱿鱼肝脏含有丰富的蛋白酶,为利用其内源蛋白酶进行可控的酶解,本研究以鲤鱼肌原纤维蛋白为底物对鱿鱼肝脏内源蛋白酶的种类和性质进行了研究。反应体系中添加E-64、1,10-菲啰啉和苯甲基磺酰氟(phenylmethylsulfonyl?fluoride,PMSF)后,肌球蛋白重链(myosin?heavy?chain,MHC)的降解得到了显著抑制,确定了鱿鱼肝脏含有金属类、半胱氨酸类、丝氨酸类3类蛋白酶。半胱氨酸类蛋白酶热稳定性最好,在50℃以上仍然具有较大活性,可将肌原纤维蛋白酶解成小分子质量的降解产物。利用特异性底物对半胱氨酸蛋白酶种类进行鉴定发现,该酶只酶解Z-Phe-Arg-MCA,添加亮抑酶肽后相对酶活性为0%,添加E-64相对酶活性仅存0.6%,初步确定鱿鱼肝脏中的半胱氨酸蛋白酶主要为组织蛋白酶L。最后,通过硫酸铵沉淀、离子交换层析、凝胶过滤对组织蛋白酶L进行分离纯化,在电泳上得到了分子质量约为25?kD单一条带。     

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     

Utilization of oryzacystatin for regulating the ripening of squid shiokara, a traditional Japanese salted and fermented seafood

Shiokara is a fermented seafood composed of sliced squid mantle muscle ripened with fresh squid liver. Preliminary sensory evaluation by using the ranking test revealed that the hardness of squid muscle in shiokara was reduced within 7 d of ripening. During the process of ripening, muscle proteins were digested by proteinases present in squid liver. The degradation of paramyosin and myosin heavy chain was observed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The hardness of squid mantle muscle in shiokara was reduced with the degradation of paramyosin and myosin heavy chain. This degradation was mainly caused by E-64-sensitive cysteine proteinases. To control the hardness of shiokara, we used rice seed oryzacystatin, which suppresses proteolysis by papain-like cysteine proteinases. When oryzacystatin was added 4 d after the start of shiokara ripening, the muscle protein degradation stopped, without further muscle softening. These results show that oryzacystatin is useful to control the ripening of shiokara by regulating its hardness.     

Thermal gelation properties of surimi-like material made fromsheep meat

Thermal gelation properties of surimi-like material made from sheep meat were investigated. The sheep meat was ground, washed 3 times at a meat to water ratio of 1:5 and dewatered by centrifugation. The effects of washing on the composition, functional properties and colour of the mince, were studied. The washing method resulted in a sharp reduction of the fat content and an increase of the water content and pH of the mince. Lightness (L*) and yellowness (b*) of the mince were improved by washing. A significant reduction (p<0.001) of a* (redness) value and a decrease in the a*/b* ratios and saturation index value of the washed mince were recorded. Gels were prepared from washed and unwashed mince after being blended with 2% NaCl and heated at 75°C for 20 min. The washed mince produced excellent gels as measured by the fold test, elasticity modulus and the percentage recovery. The gels made of washed mince had lower expressible fluid compared to that of unwashed mince. A fibrous protein network structure was evidenced in the gel made from washed mince while observed under a transmission electron microscope.     

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     

Identification of a cysteine proteinase from Jumbo squid (Dosidicus gigas) hepatopancreas as cathepsin L

A cysteine proteinase from Jumbo squid (Dosidicus gigas) hepatopancreas was partially purified by a two step procedure involving ammonium sulfate precipitation and gel filtration chromatography and further by SDS–PAGE. The molecular weight of the proteinase was 24 kDa determined by SDS–PAGE and 23.7 kDa with mass spectrometry. The activity had an optimum pH of 4.5 and optimum temperature of 55 °C under the assay for cathepsin L specific synthetic substrate Z-PAAFC. The cathepsin B and H specific synthetic substrates Z-AAAFC and H-AMC did not show any hydrolysis with the partially purified enzyme. Peptide mapping of trypsin digests of the 24 kDa band from SDS–PAGE showed the squid cysteine proteinase was homologous to cathepsin L from different animal sources. The activity of the partially purified fraction with the cathepsin L specific substrate Z-PAAFC was inhibited 75–89% by enzyme inhibitors specific for cysteine proteinases but was also significantly inhibited by serine and aspartate proteinase inhibitors.     

Evidence of cell-associated proteinases from Virgibacillus sp. SK33 isolated from fish sauce fermentation

Abstract: Cell‐associated proteinases from Virgibacillus sp. SK33 isolated from fish sauce fermentation were extracted and characterized. Proteinases were effectively released when washed cells were incubated in 0.3 mg/mL lysozyme in 50 mM Tris‐maleate (pH 7) at 37 °C for 2 h. Major cell‐associated proteinases exhibited molecular mass of 17, 32, and 65 kDa, but only a 32‐kDa proteinase showed strong amidolytic activity toward Suc‐Ala‐Ala‐Pro‐Phe‐AMC. Activity of all cell‐associated proteinases was completely inhibited by phenylmethanesulfonyl fluoride, indicating a characteristic of serine proteinase. In addition, a 65‐kDa serine proteinase was also inhibited by ethylenediaminetetraacetic acid, implying a metal‐dependent characteristic. Optimum activity toward a synthetic peptide substrate was at 50 °C and pH 8 and 11. Proteinases with molecular mass of 17 and 32 kDa exhibited caseinolytic activity at 25% NaCl and activity based on a synthetic peptide substrate increased with NaCl concentrations up to 25%, suggesting their role in hydrolyzing proteins at high salt concentrations. This is the first report of liberated cell‐associated proteinases from a moderate halophile, Virgibacillus sp. Practical Application: The cell‐associated proteinases could be extracted from Virgibacillus sp. SK 33 using lysozyme. The extracted enzyme could be applied to hydrolyze food proteins at NaCl content as high as 25%. In addition, this study demonstrated that not only extracellular but also cell‐associated proteinases are key factors contributing to protein‐degrading ability at high salt environment of Virgibacillus sp. SK 33.     

Effect of temperature and growth media on the attachment of Listeria monocytogenes to stainless steel

Listeria monocytogenes ATCC 19111 cultivated in nutrient-rich medium (brain heart infusion, BHI) or starved in minimal medium (10% filter sterilized pond water and 90% sterilized distilled water) were investigated for their initial attachment to austenitic stainless steel No. 4 with satin finish at 4 °C, 20 °C, 30 °C, 37 °C, or 42 °C. A droplet (10 μl) containing  10⁷ CFU/ml of L. monocytogenes suspended in BHI or minimal medium was placed on the stainless steel surface. After holding in saturated humidity for 3 h at the desired temperature the surface was washed and prepared for scanning electron microscopy (SEM). Using SEM, attachment of L. monocytogenes was determined by counting cells remaining on the surface. When L. monocytogenes cultivated in BHI were used, with the exception of the number of attached cells being lower at 42 °C than at 37 °C and 30 °C, the number of attached cells increased with increasing temperature (P < 0.05). When L. monocytogenes starved in minimal medium were used, the number of attached cells also increased with increasing attachment temperature (P < 0.05), but the number of attached cells at 42 °C was lower than that at the other temperatures. The attachment of L. monocytogenes to stainless steel surface was greater when cultivated in rich medium of BHI vs starved in the minimal medium.     

CYSTEINE PROTEINASE ACTIVITY IN JUMBO SQUID (DOSIDICUS GIGAS) HEPATOPANCREAS EXTRACTS

Jumbo squid specimens were captured, dissected, and the hepatopancreas was freeze dried for the extraction of proteolytic enzymes. An autolysis experiment conducted at 25C showed two peaks with maximum proteolysis at pH 3 and 5. The proteinase activity of the extract was measured using azocasein, BANA, Z‐PAAFC and Z‐AAAFC substrates. Activity of the extract with azocasein (pH 5) had a maximum at 55C and increased threefold with the inclusion of cysteine or DTT. The proteinase activity remained at least at 60% of the original after 45 h at 4C in the pH range of 3–8. Activity was inhibited 70–85% when extracts were treated with cysteine proteinase specific inhibitors. The proteinases extracted from jumbo squid hepatopancreas are mainly of the cysteine type and have significant activity towards a cathepsin L specific substrate. The understanding of proteinases from this tissue could have implications for quality control of jumbo squid food products.