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1.
ABSTRACT: To clarify the cause of differences in the temporal change of K -value among fish species living in the same habitat water temperature, the influence of the interposition of pink muscle fibers into dorsal ordinary muscle on 5'-inosine monophosphate (5'-IMP) degrading activity was examined. Fourteen fish species from the Sakishima Islands (habitat water temperature 28°C) and from Nagasaki (habitat water temperature 17°C) were used for the sample fishes. Each of 5'-IMP and ρ-nitrophenol phosphate (ρ-NPP) degrading activities showed a peak at near pH 8.0 and near pH 5.0, respectively. These activities were somewhat higher in fish from Nagasaki than in fish from the Sakishima Islands. The interposition percentage of pink muscle fibers into dorsal ordinary muscle correlated significantly ( P < 0.05) with the 5'-IMP degrading activity at pH 7.0. Furthermore, the activity at pH 7.0 correlated significantly ( P < 0.001) with the increasing rate of K -value at 32°C (ΔK32). These results suggest that the difference in ΔK32 among fish species in the same habitat water temperature might be caused by differences in 5'-IMP degrading activity because of the differences in the interposition rates of pink muscle fibers into dorsal ordinary muscle.  相似文献   

2.
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   

3.
ABSTRACT: The present study compared and examined the characteristics of actomyosin among white (W), pink (P), and red (R) muscle fiber types in carp (cultured). Both the superprecipitation reaction and the Mg2+-ATPase activity of actomyosin became higher with increased Ca2+ concentration (pCa 7.0–pCa 5.0) and with decreased adenosine triphosphate (ATP) concentration (3.0–0.5 mM) in all three muscle fiber types. A comparison of the three fiber types shows that the superprecipitation reaction of actomysoin was lower in the order of W < P < R and, in contrast, was higher for Mg2+-ATPase activity in the order of W > P > R. A significantly positive correlation between both values was found for each of the three muscle fiber types, but these correlations were clearly different among the three muscle fiber types, and the superprecipitation reaction of actomyosin was lower in the order of W < P < R when Mg2+-ATPase activity was at the same level. In conclusion, the characteristics of actomyosin were remarkably different among white, pink, and red muscle fiber types.  相似文献   

4.
为了探讨草鱼(Ctenopharyngodon idella)不同部位肌肉品质的差异,本研究选取体质量为(1 026.10±145.55)g的草鱼,检测了背部、腹上部、腹底部和尾部肌肉的营养成分、肌纤维组织结构特性以及脂肪代谢相关基因的表达。结果表明,草鱼腹底部肌肉的粗脂肪含量显著高于背部、腹上部和尾部肌肉,而水分含量则显著降低;背部肌肉粗蛋白含量显著高于腹上部、腹底部和尾部肌肉。腹上部肌肉的肌纤维直径显著高于背部、腹底部和尾部肌肉,但其肌纤维密度则显著降低,而最高的肌纤维密度出现在腹底部肌肉;草鱼背部和尾部肌肉肌纤维密度无显著差异。草鱼腹底部肌肉的脂蛋白脂肪酶基因mRNA表达量显著高于草鱼背部、腹上部和尾部肌肉。脂肪酸合成酶和乙酰辅酶A羧化酶α的mRNA表达量在草鱼背部、腹上部、腹底部和尾部肌肉之间无显著差异。研究表明,草鱼不同部位的肌肉营养特性存在显著性差异,肌肉脂肪含量与肌纤维直径呈负相关,与脂蛋白脂肪酶基因的表达量呈正相关。  相似文献   

5.
Myosin was isolated from two types of muscle, ordinary and dark muscles, of three species of fish living in sea water. The compositions of light chains were visualized by sodium dodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE), and the mechanochemical activity was examined by in vitro motility and ATPase assays. Ordinary muscle myosin of either species had three species of light chain, whereas dark muscle myosin had another two species of light chain judged by SDS-PAGE. Sliding velocity of ordinary muscle myosin was in the range of 4.92–6.89 μm/S, whereas that of dark muscle myosin was in the range of 3.07–4.25 μm/s. Therefore, ordinary muscle myosin showed 1.26–1.95 times higher sliding velocity than dark muscle myosin in either species. The ratios of Vmax of actin-activated Mg2+-ATPase activity of ordinary to dark muscle myosins were correlated quite well to the ratios of sliding velocity. Activity of ordinary muscle myosin was comparable to that of mammalian fast muscle myosin, but that of dark muscle myosin was twice of that of mammalian slow muscle myosin. These results may reflect the essential role of fish dark muscle myosin always used in slow cruising.  相似文献   

6.
Following the successful development of Pacific bluefin tuna (PBT) aquaculture, it is of considerable importance to determine the muscle fiber types and their growth patterns for future development. Muscle fiber profiles of dorsal ordinary, lateral ordinary (LO) and dark muscles and their growth patterns in PBT from 3.0 to 54.3 kg body weight were studied. Muscle fibers were histochemically stained for NADH-diaphorase and myosin adenosine triphosphatase activity (mATPase), and immunohistochemically stained with S-58 slow-muscle myosin antibody. All muscle fibers in dorsal and LO muscles showed low NADH-diaphorase activity, and acid-labile (pH 4.0 or 4.3) and alkali-stable mATPase activity. In LO muscle adjacent to dark muscle, three intensities of mATPase activity were observed after acid pre-incubation at pH 4.5 or 5.0, and the activity was related to the muscle fiber diameter. In dark muscle, all small and some large fibers stained intensely for NADH-diaphorase activity, related to their high aerobic metabolism. The high-active fibers with NADH-diaphorase in dark muscle were positive for S-58 antibody. Some large fibers in dark muscle showed intermediate NADH-diaphorase activity and high mATPase activity after alkali pre-incubations. These are fast-twitch oxido-glycolytic fibers in dark muscle and transformed to red muscle fibers with increasing body weight.  相似文献   

7.
Enzymatic changes that occur in the white somatic muscle of rainbow trout (Oncorhynchus mykiss) in response to spawning were investigated, and the evenness of their distribution across the ventral-dorsal plane of this muscle was assessed. Four enzymes that are involved in energy metabolism were measured (phosphofructokinase: glycolytic capacity, 3-hydroxyacyl-CoA dehydrogenase: -oxidation, citrate synthase: citric acid cycle, cytochrome oxidase: oxidative capacity). The enzyme activities were followed in different parts of the white muscle of non-spawning female rainbow trout from May, four months after their first spawning, until December, at second spawning. Samples were taken from white epaxial muscle along the lateral line, on the dorsum, and in between. Samples were also taken from red muscle of non-spawning fish. The isoforms of myosin heavy chains (MyHC) were electrophoretically identified on 6% SDS-PAGE gel to study possible changes in contractile properties of the muscle.Transformation from the non-spawning to spawning phase was associated with dramatic changes in the activity of the enzymes studied in white muscle: glycolytic capacity decreased to less than half, whereas oxidative metabolism increased about two- to four-fold in all areas. Significant quantitative differences in enzyme activities were found between the three epaxial muscle areas: in the non-spawning fish lateral line samples differed from those taken in the other two areas, whereas in spawning fish the dorsal sample difered from the other two. No difference in the expression of MyHC-isoforms was found between spawning and non-spawning fish. Co-expression of both slow and fast isoforms was found in single fibres isolated from red muscle.The results show that the energy metabolism in white muscle of domestic rainbow trout is altered during spawning; i.e., the metabolism becomes increasingly aerobic, with an increased capacity for fatty acid utilization, concomitant with phenotypic changes associated with sexual maturation. These changes are especially pronounced in ventral, superficially located fibres.  相似文献   

8.
李绘娟  于红  李琪 《水产学报》2017,41(9):1392-1399
分别利用石蜡切片苏木精-伊红染色法、冷冻切片烟酰胺腺嘌呤二核苷酸四唑氧化还原酶(NADH-TR)组化染色法、肌球蛋白ATP酶染色法对长牡蛎闭壳肌平滑肌和横纹肌进行了组织学特性研究,并比较平滑肌和横纹肌肌纤维组成的差异。石蜡切片结果显示,闭壳肌中平滑肌和横纹肌肌纤维形态结构不同,肌纤维直径、肌纤维密度和横截面积存在显著差异,其中平滑肌肌纤维直径为(5.97±0.631)μm,肌纤维密度为(25 485.65±3917.807)根/mm~2,肌纤维横截面积为(26.25±5.365)μm~2;横纹肌肌纤维直径为(7.41±0.847)μm,肌纤维密度为(16 908.25±3917.807)根/mm~2,横截面积为(40.45±10.083)μm~2。NADH-TR染色结果显示,平滑肌中富含NADH,肌纤维染色较深,呈现深蓝紫色,主要是I型肌纤维,为氧化代谢的慢速收缩型肌纤维;横纹肌染色较浅或者基本不着色,主要是II型肌纤维,为糖酵解代谢的快速收缩肌纤维。ATPase酶染色结果显示,横纹肌ATPase活性强,染色较深,呈现黑色,主要是II型肌纤维;平滑肌中ATPase活性弱,着色浅或基本不着色,主要是I型肌纤维。ATPase酶染色结果与NADH-TR染色结果一致。研究阐明了长牡蛎闭壳肌中平滑肌和横纹肌肌纤维的组织学特性及收缩、代谢特性差异,为深入研究长牡蛎肌纤维生物学特性提供了重要的基础资料,为提高我国贝类肉质品质提供理论依据。  相似文献   

9.
ABSTRACT:   Using the skeletal muscle of full-cycle cultured Pacific bluefin tuna (body weight: 13.1 ± 2.6 kg, cultured for about 21 months), the proximate compositions, breaking strength and histological structure of the front and rear parts of the dorsal ordinary muscles (FD-OM and RD-OM) and the ventral ordinary muscles (FV-OM and RV-OM) were compared. The FV-OM showed low moisture, protein, ash and high fat contents ( P  < 0.05, respectively) for the other three positions. The breaking strength of FD-OM, RD-OM and RV-OM increased up to 15–18 h and decreased later. However, the breaking strength of FV-OM was maintained during chilled storage. The pH of all muscles decreased up to 15 h, and then stayed at pH 5.7–5.8. However, the pH of FV-OM stayed at a higher level (pH 5.9). The histological structure observed by optical microscopy showed a space extension among muscle cells after 24 h in all positions, and these results were also supported by image analysis.  相似文献   

10.
Fish skeletal muscle is an excellent model for studying muscle structure and function, since it has a very well-structured arrangement with different fiber types segregated in the axial and pectoral fin muscles. The morphological and physiological characteristics of the different muscle fiber types have been studied in several teleost species. In fish muscle, fiber number and size varies with the species considered, limiting fish maximum final length due to constraints in metabolites and oxygen diffusion. In this work, we analyze some special characteristics of the skeletal muscle of the suborder Notothenioidei. They experienced an impressive radiation inside Antarctic waters, a stable and cold environment that could account for some of their special characteristics. The number of muscle fibers is very low, 12,700–164,000, in comparison to 550,000–1,200,000 in Salmo salar of similar sizes. The size of the fibers is very large, reaching 600 μm in diameter, while for example Salmo salar of similar sizes have fibers of 220 μm maximum diameter. Evolutionary adjustment in cell cycle length for working at low temperature has been shown in Harpagifer antarcticus (111 h at 0°C), when compared to the closely related sub-Antarctic species Harpagifer bispinis (150 h at 5°C). Maximum muscle fiber number decreases towards the more derived notothenioids, a trend that is more related to phylogeny than to geographical distribution (and hence water temperature), with values as low as 3,600 in Harpagifer bispinis. Mitochondria volume density in slow muscles of notothenioids is very high (reaching 0.56) and since maximal rates of substrate oxidation by mitochondria is not enhanced, at least in demersal notothenioids, volume density is the only means of overcoming thermal constraints on oxidative capacity. In brief, some characteristics of the muscles of notothenioids have an apparent phylogenetic component while others seem to be adaptations to low temperature.  相似文献   

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