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1.
ABSTRACT: The modori phenomenon is defined as heat-induced myofibrillar degradation caused by endogenous serine protease(s) of fish muscle during Kamaboko fish meat gel production. This study was undertaken to analyze myofibrillar proteolysis of white croaker Argyrosomus argentatus muscle, which is an ingredient of high quality Kamaboko, by myofibril-bound serine protease (MBSP) under conditions corresponding to the modori phenomenon. White croaker MBSP was stable between pH 2–11 and below 65°C, and about 60% of its initial activity remained after incubation for 2 h under the conditions at 65°C and pH 7.5. About 60% of the enzyme activity was suppressed by 0.5 M NaCl. White croaker MBSP degraded various myofibrillar proteins between 40 and 70°C and pH 6.0–9.0, and preferentially degraded myosin heavy chain rather than other myofibrillar proteins. The enzyme degraded the myosin heavy chain most strongly at 55°C and pH 7.0, and a major part of the bands of myosin heavy chain and its degradation products disappeared for a period of 2 h. These degradation characteristics are very similar to those observed during the modori phenomenon, indicating that MBSP could be a modori-inducing protease involved in the modori phenomenon of white croaker Kamaboko production. 相似文献
2.
Naoko Fukuda Michiko Fujiura Meiko Kimura Hisanori Nozawa Nobuo Seki 《Fisheries Science》2006,72(6):1261-1268
ABSTRACT: Thermally induced gelation of paramyosin from scallop smooth adductor muscle was investigated by dynamic rheological measurements under various conditions. The paramyosin thermal gel was produced at pH 6.5 and 7.2 at temperatures above 30°C through a two-step increase in storage (G') and loss (G') moduli; these values were higher than in gels produced from actomyosin at a high temperature. The thermal gel properties were very firm and brittle. In contrast, one main peak of G' was observed during gelation at pH 8.0. The gel produced at pH 8.0 was more transparent and less soluble in a 6 M urea−0.5 M NaCl solution than those formed either at pH 6.5 or 7.2. These differences in the thermal gel properties are presumed to derive from the pH dependence of the gel matrix-forming process, such as oxidative cross-linking between cysteine residues, rather than from the thermal unfolding of the paramyosin molecules. The thermal gelation profile of chymotrypsin-digested paramyosin showed marked depression of G' at high temperature. 相似文献
3.
The thermal inactivation of Ca2+ ATPase of scallop myofibrils (0.1 M KCl, pH 7.5) was found to be unaffected by the presence of Ca2+. Monomeric myosin content and salt solubility decreased much faster than Ca2+ ATPase inactivation in both Ca and EDTA media, which was well explained by faster denaturation of the rod portion than subfragment-1 of myosin. In contrast, when the myofibrils were heated at 0.5 M KCl, a slow decrease in salt solubility was observed, which was also explained by slow denaturation of the rod portion of myosin. Myofibrils from scallop smooth muscle showed the same denaturation pattern as those from adductor muscle. These results show that mollusk myosin is not always stabilized by Ca2+. 相似文献
4.
ABSTRACT: C-protein is a myosin-associated protein of vertebrate striated muscle, and its function and properties have been extensively examined. However, there has been no report of C-protein of fish skeletal muscle so far. C-protein was identified in carp skeletal muscle by immunoassay using antibody against chicken C-protein, and the muscle-type specific C-protein was purified from carp ordinary and dark muscles for the first time. Although C-protein could be prepared from crude myosin by the reported procedure, C-protein degraded appreciably during the purification steps. Accordingly, C-protein was selectively extracted from the muscle with 0.15 M K-phosphate buffer (pH 5.8), and purified by ammonium sulfate fractionation, followed by AF-blue chromatography. Myosin free from the accessory proteins was obtained by diethylaminoethyl (DEAE) chromatography and used to assay the binding of C-protein with myosin. Ordinary muscle C-protein bound to ordinary muscle myosin in a saturable manner, but its maximum amount of binding was approximately twice that of dark muscle myosin. Similarly, dark muscle C-protein bound to dark muscle myosin much more than to ordinary muscle myosin. These results suggest that C-protein isoforms specifically bound with myosin isoforms originated from the same type of muscle. 相似文献
5.
ABSTRACT: The effect of salt concentration on the thermal denaturation profile of myosin in walleye pollack and carp myofibrils was compared by studying the subfragment-1 (S-1) and rod denaturation rates upon heating. Species-specific denaturation mode observed at 0.1 M KCl was no longer detected when samples were heated above 0.5 M KCl, where S-1 and rod denaturation rates were identical to each other. As the heating of the chymotryptic digest of myofibril formed practically no rod aggregates, S-1 denaturation in a form of myosin was the rate limiting step for rod aggregate formation. As the aggregate formation by rod was remarkably suppressed by lowering the temperature, the free movement of myosin tail upon heating was suggested to play an important role in the rod aggregate formation in a high salt medium. 相似文献
6.
ABSTRACT: Enzymatic and structural properties of white croaker fast skeletal muscle myosin were determined and compared with those of walleye pollack counterpart. Ca2+ -ATPase activity of white croaker myosin was decreased to approximately 70% of the original activity during 1 day of storage at 0°C and pH 7.0 in 0.5 M KCl and 0.1 mM dithiothreitol, whereas that of walleye pollack was decreased to approximately 20% under the same condition. The activation energy ( E a ) for inactivation of white croaker myosin calculated by the Arrhenius plot for inactivation rate constant (KD ) was 1.2-fold higher than that of walleye pollack. While Ca2+ -ATPase showed a similar KCl-dependency for the two species, the maximal activity was observed at pH 6.2 and 6.3 for white croaker and walleye pollack, respectively. Actin-activated myosin Mg2+ -ATPase activity of white croaker was approximately half that of walleye pollack at 0.05 M KCl and pH 7.0, although the two myosins showed a similar affinity to F-actin with K m of 1.7 and 1.4, respectively. Limited proteolysis with α-chymotrypsin cleaved heat-denatured white croaker myosin mainly at heavy meromyosin/light meromyosin (HMM/LMM) junction, whereas walleye pollack myosin was cleaved at several sites in LMM as well as at the HMM/LMM junction. 相似文献
7.
ABSTRACT: Heating temperatures of 30–40°C and KCl concentrations of 0.1–0.5 M altered the denaturation mode of carp myofibrils. In 0.1 M KCl medium, heating temperature affected the denaturation of rod more significantly than of subfragment-1 (S-1), and a slow decrease in solubility at 30°C was accompanied by a slow denaturation of rod. KCl concentration at heating altered the denaturation mode differently at 30°C and 40°C. Increased KCl concentrations for heating reduced the rod denaturation rate at 40°C, but it was increased at 30°C. At concentrations above 0.3*Τ*M KCl, the denaturation rate for rod became identical to that for S-1 at both temperatures. Upon heating of chymotryptic digest of myofibrils, S-1 denaturation was similarly detected as in intact myofibrils, whereas practically no rod denaturation was detected. Thus, it was concluded that myosin structure connecting S-1 and rod has an important role in the denaturation process. 相似文献
8.
Thermal denaturation and autolysis profiles of myofibrillar proteins of mantle muscle of jumbo squid Docidicus gigas 总被引:1,自引:0,他引:1
KUNIHIKO KONNO CHO YOUNG-JE TAKEYA YOSHIOKA PARK SHINHO NOBUO SEKI 《Fisheries Science》2003,69(1):204-209
ABSTRACT: Jumbo squid was very similar to Japanese common squid in terms of myofibrillar Ca2+ -, Mg2+ - and K+ (EDTA)-ATPase activities. Myofibrils of jumbo squid were significantly stabilized upon addition of Ca2+ and destabilized by increasing KCl concentration for heating. Incubation of muscle homogenate of jumbo squid induced a selective cleavage of myosin into two major fragments and the cleavage was inhibited by EDTA. Autolysis was prominent at and above 0.3 M NaCl where myosin filaments dissolve. The enzyme involved in the autolysis was proved to be unstable showing maximal autolysis rate at 25°C. Washing the homogenate partially reduced the autolysis activity. 相似文献
9.
Determination of primary structure of amberjack myosin heavy chain and its relationship with structural stability of various fish myosin rods 总被引:1,自引:0,他引:1
Reina Kawabata Nobuyuki Kanzawa Masahiro Ogawa Takahide Tsuchiya 《Fish physiology and biochemistry》2000,23(4):283-294
The structural stability of fish myosin depends upon species and temperatures of water in which fish live. Primary, secondary, and quaternary structures of myosin heavy chain (MyHC) from three species of fish living at different temperature ranges have been compared with those of rabbit MyHC in order to investigate the differences in stability. Primary structure of MyHC, although being accessible for warm-water and cold-water fish (carp and walleye pollack), was not available in previous for tropical-water fish literature; so in this study primary structure of MyHC of the tropical-water fish amberjack has been determined by cloning and sequencing its cDNA. The MyHC has 1938 amino acid residues (AA), which are almost as much as as those of carp and walleye pollack. The amberjack MyHC is 91–95% homologous with other fish and rabbit MyHCs. There is a discernible difference between animal species with stable myosin rod (amberjack, carp, and rabbit) and walleye pollack with unstable rod. Stable rod species have a high probability of forming coiled-coil around the COOH-terminal end of the rod, while the pollack has a low coiled-coil formation probability. In addition, the average scores of the coiled-coil for myosin rod were rabbit (1.738) > amberjack (1.691) > carp (1.680) > walleye pollack (1.674) which correlated exactly with the observed stability. The results suggest that coiled-coil forming ability, particularly around the COOH-terminal end, directs structural stability of fish myosin rod. 相似文献
10.
ABSTRACT: Carp myosin was conjugated with alginate oligosaccharide (AO) through the Maillard reaction under low relative humidity, and the functional properties of the myosin-AO conjugate were investigated to clarify the role of myosin in the functional improvement of fish myofibrillar proteins (Mf) by the glycosylation. The findings were as follows. First, myosin became highly solubilized at lower NaCl concentrations by conjugation with AO and NaCl-dependence of the solubility was lost when > 12% of the available lysine residues were reacted with AO and 50 µg/mg of AO was attached to myosin. Second, the thermal stability of myosin was effectively improved by conjugation with AO. Heat-treatment at 50°C for 6 h has no effect on the solubility of the myosin-AO conjugate regardless of the NaCl concentration. Third, the improved functionalities of myosin conjugated with AO remained even at a nearly isoelectric point. The improving effect of AO-conjugation on the characteristics of myosin was almost the same as Mf reacted with AO. Therefore, it is apparent that that improved functionalities of the glycosylated Mf reflect the functional changes of myosin. 相似文献
11.
ABSTRACT: The low salt extract from scallop striated adductor muscle contained extra proteins in addition to sarcoplasmic proteins and was turned into a gel upon standing or immediately by the addition of Ca2+ . The amount of extra protein, which was composed of a large amount of actin and a small amount of myosin, decreased with a decrease in adenosine triphosphate (ATP) content in the muscle during storage at 5°C. Actin was easily extracted from scallop myofibrils in low salt solution with ATP at 1 mM or above. Furthermore, ATP was required to induce the gelation of the low salt extract. A visual observation of the gelation of low salt extract is therefore a simple and easy method to inspect prerigor state of scallop adductor muscle. 相似文献
12.
ABSTRACT: As part of a study to clarify the differences in the temporal change in K -value among fish species, the temporal change in K -value and the 5'-inosine monophosphate (5'-IMP) and p-nitrophenol phosphate (p-NPP) degrading activities in the red, pink, and white muscle fibers in the dorsal muscle of the carp were compared. The temporal change in K -value was fastest in red, followed by pink, and white muscle fibers, at both 0°C and 32°C. Moreover, the 5'-IMP and p-NPP degrading activities were highest in red, followed by pink, and white muscle fibers at near optimum pH concentrations. The 5'-IMP degrading activity at pH 7.0 had a positive correlation with the increasing rate of K -value at 32°C for all types of muscle fibers. These results suggest that differences in increasing rates of K -values between red, pink, and white muscle fibers corresponded to the 5'-IMP degrading activities. 相似文献
13.
Purification of transglutaminase from scallop striated adductor muscle and NaCl-induced inactivation
SUMMARY: Tissue type transglutaminase (TGase) was purified from scallop striated adductor muscle with successive chromatographies of DE-52 cellulose, Sephacryl S-300, and Mono Q columns. The yield and purification of the enzymatic activity was 16.6% and 101.9-fold, respectively. The molecular mass of purified enzyme was estimated to be 95 kDa by sodium dodecylsulfate–polyacrylamide gel electrophoresis analysis. Scallop TGase was Ca2+ -dependent and strongly inactivated by ρ-chloromercuribenzoic acid, N -ethylmaleimide, Cu2+ , and Zn2+ , meaning it belongs to the thiol group of enzymes as well as being a mammalian enzyme. When scallop TGase was incubated in 0.5 M NaCl without substrate for 2 h at 20°C and pH 7.5, enzymatic activity decreased to 14.4% of its original. However, a conformational change in the TGase molecule was not detected by either fluorescent, ultraviolet, and circular dichroism spectra analyses compared to the enzyme incubated without NaCl. In addition, the enzyme inactivated by NaCl was partially recovered by the dilution of salt concentration, which means that the NaCl-induced inactivation process is reversible to some extent. These results suggest that NaCl-induced modulation of the TGase molecule occurs via a small conformational change. 相似文献
14.
Myosin and actin denaturation in kuruma prawn myofibrils stored frozen (0.1 M NaCl, pH 7.5) at ?20 °C was investigated. The inactivation profile of Ca2+-ATPase in the myofibrils was identical to that for myosin, indicating that myosin in myofibrils was not protected by actin. The presence of myosin detached from actin in the soluble fraction was proven by ammonium sulfate fractionation in the absence and presence of Mg-ATP. Actin denaturation in myofibrils was further confirmed by its increased susceptibility to chymotryptic degradation. In the frozen myofibrils, actin denatured more rapidly quicker than myosin: actin had completely denatured by storage day 1, followed by a gradual denaturation of myosin. Both myosin and actin in the frozen stored myofibrils retained their high salt-solubility, which decreased slowly during the frozen storage period. The presence of aggregated inactivated myosin in the salt-soluble fraction was proven by precipitation at 40 % saturation of ammonium sulfate in the presence of Mg-ATP, leaving active monomeric myosin in the soluble fraction. Almost no actin denaturation was observed with heated myofibrils. 相似文献
15.
Thermal denaturation profiles of catfish myosin when heated as myofibrils (Mf) were compared with those of tilapia. The Ca2+-ATPase inactivation rate of catfish myofibrils was the same as that of tilapia myofibrils. The conclusion was the same with
isolated myosin. Catfish Mf was clearly distinguished from tilapia Mf in terms of subfragment-1 (S-1) and rod denaturation.
Quick denaturation of rod relative to S-1 was characteristic of catfish Mf, while slower denaturation of rod relative to S-1
was the pattern for tilapia Mf. These patterns were greatly affected by the pH for heating. Rod denaturation was accelerated
with increasing pH for heating and oppositely suppressed by lowering the pH, for both Mf. Tilapia Mf showed a S-1 and rod
denaturation pattern similar to that for catfish Mf, but at 1 pH unit higher; for example, the pattern of catfish Mf at pH
7.5 was similar to that for tilapia Mf at pH 8.5. Less rigid filament structure of catfish Mf than tilapia Mf was demonstrated
by studying chymotryptic digestion at various pH values. Accordingly, the difference in the S-1/rod denaturation patterns
between the two fish species can be explained by the different rigidity of their myosin filaments. 相似文献
16.
Preparation and characterization of water-soluble chitosan produced by Maillard reaction 总被引:1,自引:0,他引:1
ABSTRACT: The objective of this research was to improve the solubility of chitosan by Maillard reaction with 1% chitosan and 2% reducing sugar (glucose or glucosamine) dissolved in 0.2 M acetic acid, which was adjusted to pH 6.0, and incubated at either 50°C or 70°C for 1–7 days. The physicochemical and rheological properties of the chitosan–saccharide derivatives were also investigated. Results indicated that the solubility of modified chitosan derivatives was significantly greater than that of native chitosan. The solubility of chitosan–glucosamine was higher than that of chitosan–glucose, and the chitosan–glucosamine derivative remained soluble at pH 10. The degree of deacetylation of the derivatives decreased with increasing reaction time. Rheological investigation revealed that the apparent viscosity of the water-soluble chitosan derivatives in aqueous solution depended upon system conditions such as pH, ionic strength, and solution temperature. The measured apparent viscosity decreased as all system conditions increased. As calculated by the Arrhenius equation, the activation energy ( E a ) of the derivatives in aqueous solution generally decreased with increasing the extent of Maillard reaction with respect to the reducing sugars used. 相似文献
17.
ABSTRACT: Adductor muscles dissected from live scallop Patinopecten yessoensis were stored in oxygenated artificial sea water. The initial muscle adenosine triphosphate (ATP) level, approximately 7.5 µmol/g, remained longer at 5°C than at either 0 or 10°C. The pH of sea water decreased continuously and the consumption of dissolved oxygen increased even after muscle ATP was almost exhausted. The number of viable microbes, measured as colony-forming units (c.f.u.) in the muscle, increased to reach a plateau at approximately 107 −108 c.f.u./g, while muscle ATP remained at high levels. After this time, muscle ATP sharply decreased. Antibiotics or sorbate added into the oxygenated sea water effectively inhibited both the growth of microbes and the decrease in the pH of sea water. Under these conditions, the retention period of muscle ATP was greatly extended. Thus, it seems most likely that scallop adductor muscle cells are suffocated by the limitation of oxygen supply caused by aerobic microbes grown on the surface of muscle tissue. 相似文献
18.
Carbohydrate utilization by herbivorous and omnivorous freshwater fish species: a comparative study on gibel carp (Carassius auratus gibelio. var CAS III) and grass carp (Ctenopharyngodon idellus) 
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下载免费PDF全文 Xiangsong Li Xiaoming Zhu Dong Han Yunxia Yang Junyan Jin Shouqi Xie 《Aquaculture Research》2016,47(1):128-139
Two 8‐week feeding trials were conducted to evaluate dietary carbohydrate utilization by omnivorous gibel carp (Carassius auratus gibelio) (2.4 ± 0.1 g) and herbivorous grass carp (Ctenopharyngodon idellus) (6.5 ± 0.1 g). Five isonitrogenous (370 g kg?1) and isolipid (70 g kg?1) diets were formulated with increasing corn starch levels (60, 140, 220, 300 and 380 g kg?1). Results showed that specific growth rate (SGR), feed efficiency (FE) and protein retention efficiency (PRE) of gibel carp significantly increased from dietary starch of 60 to 300 g kg?1 and then decreased from 300 to 380 g kg?1, but those of grass carp showed no significant differences between treatments. Independent of dietary starch levels, grass carp gained significantly higher FE and PRE than gibel carp. Feeding rate (FR) of gibel carp was significantly higher than that of grass carp. In two fish species, high dietary starch (300 and 380 g kg?1) tended to obtain higher hepatosomatic index (HSI), serum triglyceride, hepatic lipid and body lipid contents. Serum glucose concentration of grass carp was not affected, while that of gibel carp fed the starch of 300 g kg?1 diet was significantly lower than those of the fish fed other four diets (60, 140, 220 and 380 g kg?1). Grass carp showed high tolerance to dietary starch while dietary corn starch should be no more than 300 g kg?1 for gibel carp. High starch contents may cause lipid accumulation in the liver and body. 相似文献
19.
20.
ABSTRACT: Nucleotides and Ca2+ binding to α-actin prepared from ordinary skeletal muscle of carp Cyprinus carpio was studied. When bound Ca2+ was removed with ethylenediaminetetraacetic acid, carp α-actin denatured more rapidly than chicken α-actin. Kinetic studies of the denaturation process showed that in the absence of divalent cations, the binding constants of ATP to carp and chicken actin were 5.0 × 104 /M and 1.2 × 105 /M, respectively. Competitive binding of Ca2+ between actin and 8-amino-2-[(2-amino-5-methylphenoxy)methyl]-6-methoxyquinoline-N,N,N',N'-tetraacetic acid (Quin 2) showed that affinity of Ca2+ for carp actin was also lower than that for chicken actin by a factor of 1.6. These results indicated that carp actin could relatively easily denature due to the low affinities of these ligands. Enthalpy changes upon ATP binding to carp and chicken actin were −65 kJ/mol and −110 kJ/mol, respectively. Thermodynamic analyses of our results revealed that the entropy change associated with ATP binding to carp actin was significantly smaller than that to chicken actin, suggesting that structural stabilization upon ATP binding was less effective in carp actin. 相似文献