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1.
High pressure was applied at levels of 300 to 3,742 atm for 30 min to formulate gels from bluefish meat paste, and the properties of the resulting gels were compared with those of heat-induced gels formulated at 90°C for 20 min, or at 60°C for 60 min. The moisture content of the pressure-induced gels was similar to that of the heat-induced gels, while protein contents and pH values of pressurized gels were slightly lower than those formulated by heat. Gels formed by pressure were more translucent as compared with those formulated by heat. Texture measurement indicated that there were no significant differences between the elasticities of the gels obtained under various pressures, although gel firmness increased with pressure. Overall, the heat-induced gels formulated at 90°C for 20 min were firmer but had similar elasticities to pressure-induced gels, while gels formulated at 60°C for 60 min were comparatively softer and had lower elasticities. The salt-extractable protein and protein digestibility studies indicated that pressure treatment formed gels with less protein denaturation and which were more digestible than the fish gels formulated by heat. The results from proteolytic activity studies showed that the pressure range used in this study was less effective in inactivating the endogenous proteases in the fish flesh than heat.  相似文献   

2.
The effects of microbial transglutaminase (MTGase; 0.5%, w/w) and high hydrostatic pressure (HHP) on the quality of protein gels from unwashed mince of hake (Merluccius capensis) trimmings were studied. MTGase incorporation improved texture. Protein solubility was lower for those gels containing MTGase, as a result of myosin heavy chain cross-linking. HHP improved texture. Pressure level was the most important HHP parameter, since higher levels (300 vs. 100 MPa) augmented gel strength (GS). A positive synergistic effect of MTGase and HHP was found for some properties, such as GS, yielding improved gels from a raw material that otherwise shows poor gelation.  相似文献   

3.
Abstract

Setting and thermal treatment effects on texture and color of tropical tilapia surimi gels were compared to Alaska pollock and Pacific whiting gels. Heat treatments that most favored intrinsic gelling factors of a fish species exhibited strong gel formation. Whiteness values increased as total thermal inputs increased, which reflect the increasing opacity of the gels. Pollock gels were generally the strongest and whitest. Tilapia gel quality was generally second to pollock gels, however, in heat treatments using setting temperatures ≥ 40 °C, tilapia gels were comparable (60 °C setting) or superior (40 °C setting) to pollock gels. The optimum heat treatment for tilapia surimi appeared to be a 40° C setting for 1 hr followed by a 90 °C cook for 15 min. SDS-PAGE patterns of gels prepared with 60°C setting followed by 90 °C cooking elucidated the various degree of protein degradation depending upon the species in a descending order of whiting, tilapia, and pollock.  相似文献   

4.
High pressure processing (HPP) can shuck (open) shellfish, saving labor while conferring food safety and yield benefits. Mostly male New Zealand Greenshell? mussels (Perna canaliculus) were HPP-shucked (3 min at 500 MPa, 30°C) and assessed during 6-days’ ice storage (0°C) for cooked yield, color, and texture compared with heat processed (1 min at 70°C) and untreated samples. HPP-treated mussels had improved yields but lost more weight during ice storage. Male mussels from all treatments became darker with ice storage. HPP-treated mussels had firmer adductor muscles, while their guts required higher maximum force but less energy to puncture them.  相似文献   

5.
The effects of setting (suwari) at around 40 °C on the breaking strength and breaking strain rate of thermal gels treated at 85 °C for 20 min during the following processing step were examined in association with the polymerization and degradation of myosin heavy chains (MHCs) for surimi prepared from white croaker, walleye pollack and deepsea bonefish. In the case of white croaker and walleye pollack, maximum values of breaking strength and breaking strain rate were obtained after suwari at 30–40 °C for both 30 and 60 min, at which temperature MHCs were polymerized. In comparison, these textual properties of the thermal gels decreased in surimi prepared from deepsea bonefish after suwari at around 38 °C for 30 min and at around 32 °C for 60 min, with concomitant degradation products of MHC. The textual properties of deepsea bonefish after suwari at temperatures >45 °C tended to be almost the same as those after suwari at temperatures of <30 °C, where neither polymerization nor degradation of MHC was observed.  相似文献   

6.
ABSTRACT

Fish is one of the most common sources of food allergens, and grass carp is among the most popular freshwater fish. The objective of this study was to investigate the effects of heat treatment on the antigenicity and allergenicity of white and dark muscle of grass carp. The results showed that the antigenicity of heated white muscle was higher than that of unheated white muscle, while the allergenicity of white muscle was lower than that of unheated muscle when heated at 65°C, and the lowest value was 44.6%. Furthermore, the allergenicity of dark muscle increased for the first 30 min when heated at 65°C, and it increased for the first 60 min and then decreased with the increasing heating time thereafter when heated at 80 and 100°C. In addition, the lowest antigenicity and allergenicity of dark muscle were obtained at 100°C, and the values were 0.447 mg mL?1 and 47.0%, respectively. Thus, to decrease the antigenicity and allergenicity of grass carp muscles, it is suggested that heating at 65°C is better than 80 or 100°C for the white muscle, while 100°C is an appropriate heating temperature for the dark muscle.  相似文献   

7.
Abstract

The gel forming ability and other characteristics of the mince of 11 underutilized marine fish were studied. They were Bombay duck, silverbelly, sea catfish, silver jewfish, jewelled shad, queenfish, Spanish mackerel, hardtail, Indian tuna, tripletail and false conger eel. Mince was prepared from fillet and a portion of the mince was washed two times with cold water (5°C) containing 0.1% NaCl. Both washed and unwashed mince were ground with 3% NaCl. Ground paste was then stuffed into plastic tube and heated for one- and two-step heating. In the one-step heating, the tubes were subjected to 25°, 30°, 35°, 40°, 50°, 60°, 70° and 80°C for 60, 120 and 180 min. In the two-step heating, the tubes were pre-heated at 25°, 30°, 35°, 40°, 50°, 60°, 70° and 80°C for 60, 120 and 180 min. After the pre-heating, the tubes were immediately subjected to 85°C for 30 min. The gel was subjected to puncture, folding, expressible moisture and sensory tests.

Two-step heating distinctly improved the gel strength compared to the one-step heating. The improvement due to two-step heating was more at low preheating temperatures from 25-35°C. Washing improved the texture and color of all of the gels except Bombay duck and decreased the extent of gel-disintegration in silverbelly, queenfish, sea catfish and hardtail. The gels were set optimally at 35°-40°C for most species. Species variation in the disintegration of the gels was observed. Bombay duck mince produced very weak gel. Neither two-step heating nor washing could improve the gel quality of Bombay duck mince. Our data suggested that jewelled shad, queenfish, silver jewfish, sea catfish, tripletail and false conger eel could be suitable as the material for surimi.  相似文献   

8.
The objective of this study was to examine how konjac flour or carboxymethylcellulose (CMC) could improve the physical, microbiological, and sensorial qualities of pressurized Swai fish-based emulsions. The properties of the pressurized batches were also compared with those of the heated emulsions. Accordingly, Swai fish-based emulsions containing mixed fermented-soybeans were stabilized by either konjac flour or CMC, 0.1–0.3%. The fish batters were then subjected to pressurization (600 MPa/25°C/20 min) or thermal treatment (72°C/30 min). The results showed that both hydrocolloids enabled improvement of the color of fish emulsions. Regarding the impact of hydrocolloids on other properties, CMC addition enhanced water holding capacity, gel strength, and elasticity more than konjac flour addition. Regarding processing effects, pressurization gave rise to products with greater water holding capacity and higher sensorial scores than the thermal treatments. However, thermal treatments increased the gel strength and elasticity of the products more than pressurization. Overall, both processes could equally inhibit bacterial cells and some spores of B. subtilis.  相似文献   

9.
To investigate the setting condition of the gel-forming ability of rohu, optimum setting temperature for strong and weak gels of unwashed and washed rohu gel and optimum setting time for maximum proteolytic activity were investigated. Nine setting temperatures were studied for textural properties and trichloroacetic acid (TCA)-soluble peptide contents. Both unwashed gel (UW-gel) and washed gel (W-gel) showed similar optimum setting conditions for producing a strong gel that was set at 40°C for 30 min, followed by heating at 90°C for 20 min. They displayed different optimum setting conditions for weak gel. Weak gel from the degradation of UW-gel and W-gel formed at 65 and 60°C, respectively. The occurrence of protein degradation of W-gels during setting at 60°C suggested that washing did not remove the endogenous protease, and the degradation of unwashed and washed mince was due to water-soluble protease and myofibril-bound protease, respectively. Eight setting times for maximum proteolytic activity were shown by the TCA-soluble peptide contents, accompanying the sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) pattern. Both gels had similar results for setting for 120 min.  相似文献   

10.
ABSTRACT

High pressure (HP) treatment of 250 MPa pressure, 6-min holding time, and 400 MPa/min ramp rate at 25°C was applied to headless Indian white prawn (Fenneropenaeus indicus) to investigate the significant modifications on the functional properties of protein during chilled storage. Muscle fibers were shrunk and extracellular space apparently reduced after HP treatment. Myofibrillar proteins denatured and sarcoplasmic proteins aggregated and were found to be stable in HP-treated sample during chilled storage. Water-holding capacity, solubility, viscosity, and Ca2+ ATPase activity of protein were diminished, whereas foam expansion, foam volume stability, and turbidity of proteins improved with HP treatment and storage period (p < .05). Turbidity of the protein was inversely proportional to viscosity, solubility, and Ca2+ ATPase activity in HP-treated samples.  相似文献   

11.
Triploidy was induced in Crassostrea gigas using cytochalasin B (CB) (1 mg CB/l) at three temperatures: 18, 20 and 25°C. Between 3 and 5 million eggs/l were treated with CB at 15-min intervals following fertilization.Large differences in survival to straight hinge among mass spawns were observed. These were attributed to variable quality of strip-spawned eggs and treatment with CB. The negative effect of CB treatment was most apparent during critical periods of zygotic development (e.g., fertilization, polar body formation). After 48h, larvae from control and treatment groups had equivalent survival and growth rates.Replicates yielded similar percentages of triploids with standard errors of generally 10% or less. Induction curves were calculated for each temperature; triploid maxima at 18, 20 and 25°C were 52, 76 and 90%, respectively. The highest mean percentages obtained empirically at 18, 20 and 25°C were 62, 74 and 88%, respectively. No evidence for bimodal distributions to separate meiotic I and meiotic II triploids was found. Treatments at lower temperatures delayed triploid maxima which occurred approximately 30, 45 and 50 min after fertilization at 25, 20 and 18°C, respectively. Overall, the optimal treatment for inducing triploidy in the Pacific oyster (C. gigas) appears to be 30–45 min post-fertilization at 25°C, which yielded 88±9% (SE) triploidy over four replicates.  相似文献   

12.
ABSTRACT:   The addition of microbial transglutaminase (MTGase) to salted squid muscle paste greatly strengthened the elasticity of the thermal gel, which was produced by the preferential cross-linking of myosin heavy chains through a two-step heating process that consisted of setting at 40°C and subsequent heating to 80°C or 90°C. Starch increased the breaking strength of thermal squid gels, but decreased the deformation. Thus, the starch-added gels became harder and less elastic. Although, when both MTGase and starch were added to squid muscle paste, the changes in viscoelastisity and myosin cross-linking reaction were similar to those with MTGase alone during setting, the storage and loss moduli of the paste sharply increased with an increase in starch content above 70°C. Subsequently, the thermal gel texture became more brittle or breakable than gels prepared by setting with MTGase only.  相似文献   

13.
Various physicochemical agents were tested for their effects on the survival of Vibrio parahaemolyticus on stored fish (Labeo rohita). When contaminated fish were kept at 0° to 4°C and at ?20°C the number of Vibrio parahaemolyticus was reduced significantly at ?20°C. After heat treatment (65, 70, 75 and 80°C for 1 min) no Vibrio parahaemolyticus was found on fish subjected to 80°C. Ultra-violet radiation resulted in considerable reductions in numbers of Vibrio parahaemolyticus after exposure for 15 min and still greater reductions after 30 min.  相似文献   

14.
Fish and fish products are characterized for having a short shelf life. Nonthermal processing techniques such as high hydrostatic pressure (HHP) have increasingly been employed to extend shelf life of food products. The aim of this study was to evaluate changes on flesh physicochemical spoilage parameters (pH, total volatile bases (TVB-N), trimethylamine (TMA), thiobarbituric acid (TBA), and color) of palm ruff (Seriolella violacea) fillets in pre- and post-rigor conditions, subjected to two different HHP conditions: 450 MPa and 550 MPa, for 3 and 4 min each. Unpressurized and pressurized fillets were kept in chilled storage (4 ± 1°C) for 26 days to assess the effect of HHP on shelf life. pH and TBA values increased after HHP treatment and with storage time for both unpressurized and pressurized samples. This is attributable to pressure-induced lipid oxidation. Lightness (L*) values increased with pressure, where fish fillets had a cooked appearance. TMA and TVB-N values decreased after HHP treatment compared to the unpressurized samples, showing that HHP treatment is an efficient method to maintain the quality of palm ruff fillets. There was no clear difference between pre- and post-rigor in the parameters evaluated.  相似文献   

15.
The effects of microbial transglutaminase (MTGase; 5 g/kg, w/w) and dietary fiber (40 g pea fiber/kg product and 20 g carrageenan + 20 g konjac flour/kg product) on heat-induced meagre (Argyrosomus regius) gels with 25 and 10 g salt/kg, w/w were analyzed.

MTGase addition increased the magnitude of texture variables. Inner pea fiber had an increasing effect on gel texture. The combination of carrageenan and konjac hardened meagre gels (from 22.2 ± 1.4 to 47.3 ± 4.5 N) and enhanced water-holding capacity. Salt reduction with MTGase ensured a gelling quality similar to that of gels from Alaska pollock surimi.  相似文献   

16.
ABSTRACT

This study assessed effects of high pressure processing on physicochemical quality and endogenous enzyme activities of grass carp fillets stored at 4 ºC for 21-day storage. Fresh fillets were vacuum-packed and subjected to high pressure processing (0.1, 200, 300, 400, 500, and 600 MPa at room temperature for 15 min). Results showed that high pressure processing significantly delayed microbial growth, and reduced total volatile basic nitrogen (TVB-N) and thiobarbituric acid reactive substances (TBARS) levels of grass carp fillets, especially for the 600 MPa group. On the 21st day, the corresponding increases of 6%, 35%, 45%, 43%, and 53% in hardness were observed for 200 MPa, 300 MPa, 400 MPa, 500 MPa, and 600 MPa samples compared with control samples, respectively. In addition, enzyme activities in different groups decreased during storage. Among them, calpain, and myofibril-bound serine proteinases (MBSP) activities were immediately reduced after high pressure treatments, while the activities of collagenase, cathepsin B, and cathepsin D were significantly (< 0.05) inhibited when the pressure exceeded 400 MPa. However, the pressure treatments activated cathepsin L initially, and then the activity gradually decreased in treated samples. Generally, high pressure processing reduced activities of most of the endogenous enzymes and improved the quality and extended the shelf life by at least 4 ~ 6 days of refrigerated grass carp fillets.  相似文献   

17.
Textural property of surimi products is a prime factor in determining the acceptability of consumer as well as market value. Gelatin is one of the most popular biopolymers widely used in food industry as gelling agent with the unique textural properties. Therefore, the addition of gelatin along with the use of protein cross-linkers could be a means to modify the texture of surimi gel, which can fit the demand of consumers. Surimi from the threadfin bream (Nemipterus bleekeri) was added with bovine gelatin (BG) and bovine/fish gelatin mix (BFGM; 1:1, 2:1, 1:2, 4:1, and 1:4) at 10% protein substitution in combination with and without microbial transglutaminase (MTGase) at 1.2 units/g surimi. Textural properties, whiteness, expressible moisture content, protein pattern, and microstructure and sensory properties of gels were determined. When MTGase at 1.2 units/g surimi was incorporated, the increases in breaking force and deformation were noticeable in both surimi gels, with and without 10% BG added ( p < 0.05). On the other hand, surimi gels added with BFGM at all bovine/fish gelatin ratios had the higher breaking force and deformation, compared with that added with BG, when MTGase was incorporated. Addition of BG or BFGM lowered the expressible moisture content and whiteness of surimi gel ( p < 0.05). Based on SDS-PAGE, band intensity of myosin heavy chain and actin of surimi gel decreased when surimi gel was added with all gelatins, regardless of MTGase addition. The microstructure study revealed that surimi gel network became finer and denser with the addition of MTGase (1.2 units/g surimi), but the coarser and irregular structure was obtained when gelatin was incorporated. Gelatin, especially bovine/fish gelatin mix, at an appropriate level could be used as the protein additive in surumi gel in conjunction with MTGase in order to improve the textural and nutritive properties of the products.  相似文献   

18.
This study evaluated the physicochemical changes in Nile tilapia (n = 82, 373.71 ± 61.91 g) refrigerated for up to 92 h and in the frozen fillets. The tilapias were captured with nets, slaughtered by ice and water shock (1:1) in a temperature of approximately 2°C for 30 min, and stored refrigerated at 4°C in polystyrene boxes containing ice. The fish were filleted, and filets were weighed and frozen. The drip loss and protein were determined after 23 days of frozen storage. After 4 h of storage, all fish were in full rigor mortis. The pH of the muscles decreased for up to 45 h of the storage period. The fillets obtained from tilapia stored for more than 72 h lost more weight and protein. Thus, the filleting or processing of tilapia should be done before 72 h of cold storage, since deterioration of the fish starts to occur after this period.  相似文献   

19.
The effect of high pressure (HP) treatment (at 100, 270, and 435 MPa for 5 min at 25°C) on microbiological (total viable count and total psychrotrophic count), physical (color, texture, and drip loss), and microstructural characteristics of black tiger shrimp (Penaeus monodon) during storage at 2°C for 35 days was investigated. Pressure treatment increased drip loss, maintained low microorganisms level, imparted cooked appearance to the muscle, and resulted in improved texture. Results of scanning electron microscopy revealed more compact structure in treated samples, confirming the results of texture profile analysis. Pressure treatment of 435 MPa was most effective in preserving the quality of shrimp.  相似文献   

20.
为了明确鳗鲡疱疹病毒(Anguillid herpesvirus, AngHV)的生物学及理化特性,本实验利用一株从欧洲鳗鲡"脱黏败血综合征"病料中分离的AngHV病毒株,研究了其增殖特性及其对主要鱼类细胞系的感染敏感性,进一步分析了其对热、酸碱、氯仿和乙醚等理化因子的耐受性。结果发现,AngHV感染的鳗鲡卵巢细胞系(eel ovary cell line, EO)内可见典型的疱疹病毒样颗粒,细胞出现时序性细胞病变;AngHV可在EO细胞系内稳定传代,较适宜扩繁温度为25~27°C,不能在鲤上皮瘤细胞系(epithelioma papilloma cyprinid cell line, EPC)、草鱼卵巢细胞系(grass carp ovary cell line, CO)、胖头逓肌肉细胞系(fathead minnow cell line, FHM)、大鳞大麻哈鱼胚胎细胞系(chinook salmon embryo cell line,CHSE-214)、虹鳟性腺细胞系(rainbow trout gonad cell line, RTG-2)及蓝鳃太阳鱼细胞系(bluegill fry cell line, BF-2)等鱼类细胞内增殖;理化特性分析表明,37°C处理30 min,AngHV滴度降低不明显,而56°C处理30 min可完全灭活AngHV;AngHV对酸(pH 3.0)敏感,而对碱(pH 10.0)较耐受,同时对氯仿和乙醚敏感。本研究结果可为AngHV的综合防控及疫苗的开发提供参考依据。  相似文献   

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