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1.
The response to cold of gill and kidney membrane lipid composition and microsomal (Na++K+)-ATPase, Na+-ATPase and Mg2+-ATPase activities in reared sea bass (Dicentrarchus labrax L.) was investigated. Fish acclimation was carried out according to the seasonal cycle from August to March. No cold-promoted increase in fatty acid unsaturation was shown in gill and kidney polar lipids and in total lipids of mitochondria and microsomes. In both tissues the (Na++K+)-ATPase exhibited positive compensation for cold acclimation whereas the Na+-ATPase displayed negative compensation. The Mg2+-ATPase showed no compensation in the gills and positive compensation in the kidneys. During cold acclimation the break in the Arrhenius plot of the (Na++K+)-ATPase decreased, whereas breaks of both the Na+-ATPase and the Mg2+-ATPase activities remained unchanged. The results indicate that the sea bass does not adopt membrane unsaturation as a cold-facing strategy. The cold-promoted enhancement of (Na++K+)-ATPase activity in osmoregulatory tissues may be advantageous to maintain efficient osmoregulation under thermodynamically unfavourable conditions.  相似文献   

2.
Biochemical procedures developed to isolate plasma membranes from the branchial epithelium of rainbow trout (Oncorhynchus mykiss) yield membrane fractions that are specifically enriched in the plasma membrane marker enzyme Na+/K+-ATPase. As the bulk of the branchial Na+/K+-ATPase is assumed to be confined to the mitochondria-rich chloride cells, such membrane preparations must contain the essence of the enzymatic machinery of the chloride cells. Basal Na+ activity in branchial (chloride) cells is around 10 millimolar and, accordingly, we find a Km for Na+ of the Na+/K+-ATPase of 13 millimolar, indicating that the enzyme may be regulated by changes in cytosolic sodium. The Na+-gradient across the serosal plasma membrane created by this pump provides energy for 3Na+/Ca2+-exchange and bumetanide-sensitive Na+/K+/2Cl--cotransport. Here we further postulate the presence of a Na+/Cl--cotransporter, indicated by thiazide-sensitive, bumetanide-insensitive transport of Na+ and Cl-; this cotransporter activity awaits the characterization of its kinetics. The Na+/Ca2+-exchanger has kinetic characteristics compatible with a regulatory role of cytosolic Na+ in the activity of this carrier. Both Na+/Ca2+-exchange and Ca2+-ATPase activity may contribute to transport of Ca2+, the former having lower affinity for calcium but a higher capacity than the latter carrier. The Na+/K+/2Cl--cotransporter has kinetics that favor a regulatory role for plasma K+ in the activity of this carrier. Seawater adaptation leads to increased activity of cotransporter molecules in the plasma membrane fractions (the activity increases relative to that of the Na+/K+-ATPase) and this may reflect a function in Cl--extrusion performed by the chloride cells in a seawater environment. A function for the cotransporter in the gills of freshwater fish may be the regulation of cell volume.  相似文献   

3.
The osmoregulation capabilities of 7-month-old juvenile Chinese sturgeon (Acipenser sinensis Gray) (128.8 ± 15 g) transferred directly from fresh water (0‰, 46 mOsmol kg−1) to brackish water (10‰, 273 mOsmol kg−1) were studied over a 20-day period. Changes in serum osmolarity, chloride (Cl), sodium (Na+), potassium (K+) and calcium (Ca2+) ion concentrations, as well as gill and spiral valve Na+,K+-ATPase activities were measured at 3, 12, 24, 72, 216 and 480 h after transfer to BW. The serum osmolarity and ion concentrations (Na+, Cl and Ca2+) increased immediately after the transference to BW, reaching maximum at 24 h and returned to a new steady state at 216 h, while the FW control group maintained basal levels which showed lower (P < 0.05) than the BW group. Gill Na+,K+-ATPase activity of BW group exhibited an abrupt decrease in the first 3 h after transfer, but began to increase at 3 h, reaching a peak value at 24 h, and returned to a new steady state at 216 h. The differences between gill Na+,K+-ATPase activity of BW and FW fish were significant (P < 0.05) after 12 h. In contrast, Na+,K+-ATPase activity of the spiral valve showed transient increase after transference from FW to BW, and then decreased rapidly at 3 h, reaching the lowest at 24 h after transference. At 216 h after exposure to BW, Na+,K+-ATPase activities of the spiral valve increased slowly to the levels of FW control. The results of our study indicate the existence of hyposmoregulatory adaptive mechanisms in 7-month-old juvenile Chinese sturgeon which enable this fish to acclimate itself successfully to brackish water.  相似文献   

4.
The osmoregulation capabilities of juvenile Siberian sturgeon exposed to three experimental osmolalities (22, 250 and 387 mOsmol kg−1) were studied over a 45-day period. Growth performance, haematological parameters, ion concentrations, gill and spiral valve Na+-K+-ATPase activities, as well as gill and spiral valve histology, were measured. At the end of the period, the plasma osmolality of fish kept in 250 and 387 mOsmol kg−1 was higher than that of fish kept in 22 mOsmol kg−1. Similar trends were observed in electrolyte concentrations. Spiral valve and gill Na+-K+-ATPase activity varied with exposure time and environmental salinity. Shortly after being transferred to hyperosmotic media, spiral valve Na+-K+-ATPase activity fell, while gill Na+-K+-ATPase activity remained constant. At the end of the experiment, gill Na+-K+-ATPase activities in fish kept in isosmotic and hyperosmotic media had increased in comparison to those of the control fish. Moreover, spiral valve Na+-K+-ATPase activities recovered and were similar to those recorded in fish kept in hyposmotic environments. Although some of the morpho-physiological mechanisms were operational in juvenile Siberian sturgeon in their adaptation to hyperosmotic media, fish cannot be considered hyperosmotic regulators as they were unable to maintain their plasma osmolality and electrolyte equilibrium in salinities higher than 250 mOsmol kg−1. This suggests that the culture of juvenile Siberian sturgeon in brackish environments is unlikely to be successful. However, our data indicate that in natural environments, juvenile Siberian sturgeon in migratory populations (Ob and Lena Rivers) would be able to migrate successfully into estuarine brackish grounds with a salinity of up to 9%. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

5.
The growth-independent effect of ovine growth hormone (oGH) and oGH + cortisol treatment on seawater (SW) adaptation in immature rainbow trout, Salmo gairdneri was investigated. Fish were injected every second day with saline, 2.0 μg oGH/g or 2.0 μg oGH + 8.0 μg cortisol/g for a maximum of 8 injections in freshwater (FW). Subgroups were transferred to 28‰ SW after 4 or 8 injections, and changes in plasma Na+ and Cl, muscle water content and gill Na+/K+-ATPase activity were measured. In both of the hormone-treated groups retained in FW, gill Na+/K+-ATPase activity and interlamellar chloride cell density increased. The effects were most pronounced in the oGH + cortisol group after 2 weeks of treatment. After transfer to SW most of the control fish died due to the osmotic stress, whereas in the hormone-treated groups, mortality was low and there was a positive correlation between pretransfer gill Na+/K+-ATPase and the ability to maintain ionic-osmotic homeostasis after SW transfer. After two weeks of oGH + cortisol treatment, gill Na+/K+-ATPase activity was maximal. In contrast, after SW transfer, Na+/K+-ATPase activity increased further in the oGH-treated group. This group regulated ionic-osmotic parameters less effectively than the oGH + cortisol-treated group. The data indicate that GH and cortisol are important hormones in the regulation of hypoosmoregulatory mechanisms in S. gairdneri.  相似文献   

6.
Effects of the salinity and pH on ion-transport enzyme activities, survival and growth of Litopenaeus vannamei postlarvae were investigated. Shrimp were transferred from salinity 31‰ and pH 8.1 to different salinity levels of 22, 25, 28, 31 (control), and to different pH levels of 7.1, 7.6, 8.1 (control), 8.6 and 9.1. The results showed ion-transport enzyme activities and weight gains of postlarvae were significantly affected by salinity and pH variation, which had no obvious effect on survival rate. The changing salinity affected the activities of total ATPase and Na+-K+-ATPase notably (F > F0.05), meanwhile, non-significantly to the activities of V-ATPase, HCO3-ATPase. Within 48 h of salinity changing, the activities of ATPase, Na+-K+-ATPase in each treatment group gradually increased with the sampling time and reached their climax at 48 h, and then stabilized, showing negative correlation with salinity. The changing of pH affected greatly the activities of ATPase, Na+-K+-ATPase, V-ATPase and HCO3-ATPase (F > F0.05), the activities of ATPase, Na+-K+-ATPase in each treatment group (pH = 7.1, 7.6, 8.6, 9.1) showed peak change within 72 h and stabilized afterwards, and the Na+-K+-ATPase activities came back to the level of the control group; Meanwhile the changing extent of V-ATPase and HCO3-ATPase activity corresponded with the grads of pH, and these ATPase activities showed negative correlation with pH changing, the activities of V-ATPase, HCO3-ATPase in postlarvae of each treatment group came to stable level after 24 h. The experiment also indicated the strength order of these ion-transport enzyme activities were as follows: Na+-K+-ATPase > V-ATPase > HCO3-ATPase. Na+-K+-ATPase was the chief undertaker of osmoregulation under the salinity effects, while V-ATPase and HCO3-ATPase were the chief osmoregulation undertakers under pH changing. In different salinity environment, the contributions of Na+-K+-ATPase, V-ATPase and HCO3-ATPase of L. vannamei postlarvae approximately accounted for 62.0-78.0%, 15.9-29.0% and 2.03-4.12% of ATPase activities in total, respectively. Meanwhile, in different pH medium, the contributions of these ATPases approximately accounted for 50.7-67.4%, 21.3-31.8% and 2.15-7.90% of total ATPase activities, respectively. Weight gain of shrimp transferred to salinity 31 (control) and 28‰ was significantly higher than that of shrimp reared at 25 and 22‰, and weight gain of shrimp transferred to pH 8.1 (control) and 8.6 was significantly higher that that of shrimp transferred to pH 7.1, 7.6 and 9.1. It was suggested that during the process of desalting and culturing of postlarvae, the salinity changing should not exceed 3 and pH variety not more than 0.5.  相似文献   

7.
The effect of seawater acclimation and adaptation to various salinities on the energetics of gill and kidney of Atlantic salmon (Salmo salar) was examined. Smolts and non-smolts previously reared in fresh water were exposed to a rapid increase in salinity to 30 ppt. Plasma osmolarity, [Na+], [Cl], [K+] and [Mg++] increased in both groups but were significantly lower in smolts than non-smolts. Gill Na+, K+-ATPase specific activity, initially higher in smolts, increased in both groups after 18 days in seawater. Kidney Na+, K+-ATPase specific activity was not affected by salinity in either group. Gill and kidney citrate synthase specific activity was not affected by seawater exposure in smolts but decreased in non-smolts. In a second experiment, Atlantic salmon smolts reared in fresh water were acclimated to 0, 10 or 30 ppt seawater for 3 months at a temperature of 13–14°C. Gill Na+, K+-ATPase was positively correlated with salinity, displaying 2.5- and 5-fold higher specific activity at 10 and 30 ppt, respectively, than at 0 ppt. Kidney Na+, K+-ATPase specific activity was not significantly affected by environmental salinity. Citrate synthase and cytochrome c oxidase specific activities in gill were slightly (6–13%) lower at 10 ppt than at 0 and 30 ppt, whereas kidney activities were lowest at 30 ppt. Oxygen consumption of isolated gill filaments was significantly higher when incubated in isosmotic saline and at 30 ppt than at 0 ppt, but was not affected by the prior acclimation salinity. The results indicate that although high salinity induces increased gill Na+, K+-ATPase activity, it does not induce substantial increases in metabolic capacity of gill or kidney.  相似文献   

8.
盐度胁迫对三疣梭子蟹鳃Na+/K+-ATPase酶活的影响   总被引:2,自引:2,他引:0  
江山  许强华 《水产学报》2011,35(10):1475-1480
通过钼蓝法测定三疣梭子蟹在3组实验盐度的胁迫过程中第2对和第6对鳃Na+/K+-ATPase酶活的变化,比较了3组实验盐度胁迫1 d时,鳃Na+/K+-ATPase的酶活大小。结果表明,在盐度胁迫初期,3组实验盐度下第2对和第6对鳃Na+/K+-ATPase的酶活下降;之后,各组实验盐度下第2对和第6对鳃Na+/K+-ATPase的酶活开始随胁迫时间增长而上升;最后,各组实验盐度下第2和第6对鳃Na+/K+-ATPase的酶活下降并趋于稳定。另外,胁迫1 d时,各组实验盐度下三疣梭子蟹前5对鳃Na+/K+-ATPase的酶活显著低于后3对鳃Na+/K+-ATPase的酶活。三疣梭子蟹对盐度变化的调节可分为被动应激期(酶活力下降)、主动调节期(酶活力逐渐上升)和适应期(酶活力稳定);三疣梭子蟹后3对鳃是离子转运、渗透压调节的主要部位。  相似文献   

9.
There is increasing evidence for complex dosage effects on gene expression, enzyme activity and phenotype resulting from induced ploidy change. In this study, ocean-type chinook salmon were bred using a 2 × 2 factorial mating design to create four families and test whether triploidization resulted in changes in growth performance and smolting. Eggs were pressure shocked after fertilization to create triploid fish from a subset of each family. In June, fish were sampled for size, plasma insulin-like growth factor 1 (IGF-1), gill Na+–K+-ATPase activity, and expression of two Na+–K+-ATPase α subunits in the gill. Diploids were significantly heavier than triploids, and there were significant differences due to family. Despite a significant positive correlation between plasma IGF-1 and fish size, plasma IGF-1 did not differ between diploid and triploid smolts. Diploids also had significantly greater gill Na+–K+-ATPase enzyme activities than triploids and there was a strong family effect. Gill Na+–K+-ATPase α1b isoform expression differed significantly by family, but not ploidy, and generally families with lower Na+–K+-ATPase enzyme activity had higher α1b isoform gene expression. Na+–K+-ATPase α1a isoform expression did not differ among any of the groups. Although diploids were larger and had higher specific activities of Na+–K+-ATPase in the gills, there was no difference in gene expression or circulating hormone levels. The strong family effect, however, suggests that strain selection may be useful in improving performance of triploids for aquaculture.  相似文献   

10.
Several experiments were performed to investigate the physiology of seawater acclimation in the striped bass, Morone saxatilis. Transfer of fish from fresh water (FW) to seawater (SW; 31–32 ppt) induced only a minimal disturbance of osmotic homeostasis. Ambient salinity did not affect plasma thyroxine, but plasma cortisol remained elevated for 24h after SW transfer. Gill and opercular membrane chloride cell density and Na+,K+-ATPase activity were relatively high and unaffected by salinity. Average chloride cell size, however, was slightly increased (16%) in SW-acclimated fish. Gill succinate dehydrogenase activity was higher in SW-acclimated fish than in FW fish. Kidney Na+, K+-ATPase activity was slightly lower (16%) in SW fish than in FW fish. Posterior intestinal Na+,K+-ATPase activity and water transport capacity (Jv) did not change upon SW transfer, whereas middle intestinal Na+,K+-ATPase activity increased 35% after transfer and was correlated with an increase in Jv (110%). As salinity induced only minor changes in the osmoregulatory organs examined, it is proposed that the intrinsic euryhalinity of the striped bass may be related to a high degree of “preparedness” for hypoosmoregulation that is uncommon among teleosts studied to data.  相似文献   

11.
The capacity of cortisol, ovine growth hormone (oGH), recombinant bovine insulin-like growth factor I (rbIGF-I) and 3,3,5-triiodo-l-thyronine (T3) to increase hypoosmoregulatory capacity in the euryhaline teleost Fundulus heteroclitus was examined. Fish acclimated to brackish water (BW, 10 ppt salinity) were injected with a single dose of hormone suspended in oil and transferred to seawater (SW, 35 ppt salinity) 10 days post-injection. Fish were sampled 24 h after transfer and plasma osmolality and gill Na+, K+-ATPase activity were examined. Transfer from BW to SW induced significantly increased plasma osmolality but not gill Na+, K+-ATPase activity. Cortisol (50 g g–1 body weight) improved the ability to maintain plasma osmolality and to increase gill Na+, K+-ATPase activity. oGH (5 g g–1 body weight) also increased hypoosmoregulatory ability and gill Na+, K+-ATPase activity. A cooperation between oGH and cortisol was observed in increasing hypoosmoregulatory ability but not in increasing gill Na+, K+-ATPase activity. rbIGF-I (0.5 g g–1 body weight) alone was without effect in increasing salinity tolerance or gill Na+, K+-ATPase activity. rbIGF-I and oGH showed a positive interaction in increasing salinity tolerance, but not gill Na+, K+-ATPase activity. Treatment with T3 (5 g g–1 body weight) alone did not increase salinity tolerance or gill Na+, K+-ATPase activity, and there was no consistent significant interaction between cortisol and T3 or between GH and T3. The results confirm the classical role of cortisol as a seawater-adapting hormone and indicate an interaction between cortisol and the GH/IGF-I axis during seawater acclimation of Fundulus heteroclitus.  相似文献   

12.
虾夷扇贝闭壳肌和外套膜肌原纤维蛋白的特性分析   总被引:4,自引:2,他引:2  
吴忠  刘俊荣  田元勇 《水产学报》2015,39(11):1640-1649
为探索采捕后活品虾夷扇贝品质变化与其肌肉蛋白质生理特性变化间的关联,本研究以虾夷扇贝2个可食部肌肉为研究对象,以肌原纤维蛋白ATPase活性为指标(Ca2+-ATPase,Mg2+-ATPase),对扇贝肌原纤维蛋白(Mf)的稳定性进行了系统探索。首先,分别提取闭壳肌肌原纤维(A-Mf)和外套膜肌原纤维(M-Mf);然后,考察了不同因素(离子强度I、pH、温度)对Mf的ATPase活性的影响规律;对A-Mf及M-Mf的稳定性进行了探索;进一步比较了闭壳肌和外套膜肌原纤维蛋白ATPase的失活特性。研究结果表明:(1)虾夷扇贝闭壳肌与外套膜的Mf的理化性质相似,A-Mf与M-Mf的pI均在5.0附近,粘度分析发现A-Mf热稳定性高于M-Mf。(2)ATPase活性变化规律的结果发现,与脊椎动物中的鱼类一样,作为无脊椎动物的扇贝,与Mg2+-ATPase相比,Ca2+-ATPase更能准确地反映Mf的稳定性。(3)闭壳肌和外套膜二者的Mf的Ca2+-ATPase呈现出共同特性,在pH为中性时活性最高;A-Mf与M-Mf的差异性则表现为前者的Ca2+-ATPase在较低离子强度(I=0.2)下活性最高,后者则在较高离子强度(I=0.5)下活性最高;离子强度对A-Mf的热稳定性影响不明显,而M-Mf的热稳定性明显受到离子强度的影响,其在较低离子强度下表现出更好的稳定性。(4)Ca2+-ATPase失活速率的研究发现,无论是闭壳肌还是外套膜,其稳定性与离子强度I和温度均呈现显著正相关(R2=0.8181、0.8436和R2=0.9887、0.9557);二者在pH 7.0左右的稳定性最好,偏离中性会促使Ca2+-ATPase失活,与碱性条件相比,酸性对蛋白质稳定性的破坏更加明显。  相似文献   

13.
Sexually immature two-year old Arctic char (Salvelinus alpinus) were implanted with Silastic capsules containing testosterone or 11-ketoandrostenedione in early spring. Seawater adaptability of the hormone-treated and sham-operated fish was tested periodically from May to August using a 48h seawater challenge test with 25‰ seawater. The sham-operated control fish displayed a seasonal pattern in seawater adaptation, showing a good hypoosmoregulatory ability until mid June followed by a marked increase in plasma sodium and magnesium levels in July and August. Gill Na+-K+-ATPase activity decreased concurrently with the observed decrease in seawater adaptability. Over the same period the androgen-treated fish displayed a similar pattern in seawater adaptability, however, in May and June the plasma sodium levels were significantly higher in both androgen-treated groups compared to the control group. Plasma magnesium regulation was impaired in both androgen-treated groups in August. Gill Na+-K+-ATPase activity in the testosterone-treated fish was lower in June compared to the control fish, whereas the activity was not affected by 11-ketoandrostenedione treatment. The results show that while androgens impair the hypoosmoregulatory capacity in Arctic char, the seasonal pattern of seawater adaptability is not affected.  相似文献   

14.
Boleophthalmus boddaerti submerged in 10%, 50% and 80% seawater (sw) for 7 days, had whole body transepithelial potentials (TEP) of 3.3, 18.3 and 22.9 mV, respectively. Hypophysectomy significantly decreased the TEP ofB. boddaerti and reversed the polarity of the TEP of the fish exposed to 10% sw.Hypophysectomy also significantly decreased the branchial Na+-K+ activated adenosine triphosphatase (Na+,K+-ATPase) activity but increased the activity of branchial HCO3 -Cl stimulated adenosine triphosphatase (HCO3 ,Cl-ATPase) inB. boddaerti exposed to 10% sw. However, survival in 10% sw was not significantly impaired by hypophysectomy and no significant change in plasma osmolality and plasma Na+ and Cl concentrations was observed.Various doses of ovine-prolactin or salmon-prolactin were unable to restore the TEP of hypophysectomizedB. boddaerti in 10% sw to that of the sham-operated fish. However, cortisol increased TEP to a positive value in hypophysectomizedB. boddaerti, though it was still lower than the sham-operated control. Cortisol treatment also affected the plasma osmolality, plasma Na+ and Cl contents and branchial Na+,K+-ATPase and HCO3 ,Cl-ATPase activities. Overall, the hormonal control of osmoregulation inB. boddaerti appeared to differ from that of other teleosts.  相似文献   

15.
为研究盐度对珍珠龙胆石斑鱼()渗透调节与耗氧率的影响,设计实验一,将(162.5±12.1)g珍珠龙胆石斑鱼置于不同盐度(6、12、18、24、30)下养殖10 d,测定血清渗透压及Na+、Cl-、K+离子浓度。实验结果表明,随盐度的升高血清渗透压及Na+、Cl-、K+离子浓度也随着升高,各组[Na+]:[Cl-]比值无显著差异(>0.05);经回归分析得到血清等渗点渗透压为365.95 mOsm/kg,所对应盐度为12.75。实验二,将(26.4±2.7)g幼鱼置于不同盐度(6、12、18、24、30)下养殖30 d,测定在开始暴露后0 h、3 h、24 h、72 h鳃Na+/K+-ATPase活性及表达和第30天耗氧率,结果表明鳃Na+/K+-ATPase活性随盐度的增大呈“U”形变化;鳃Na+/K+-ATPase α1基因表达量波动较大,在72 h后随盐度增大先降低后增加,变化趋势与酶活性一致;第30天耗氧率随盐度的增加先降低后增加又降低。综上所述,珍珠龙胆石斑鱼幼鱼10 d内能够完全适应6~30盐度急性变化,耗氧率除了受离子渗透调节的影响,还可能与其生活史阶段有关。  相似文献   

16.
The effect of sulfide on K+ influx pathways was measured in red blood cells (RBCs) of sulfide-sensitive rainbow trout (Oncorhynchus mykiss) and sulfide-tolerant crucian carp (Carassius carassius). In trout RBCs, maximal inhibition of Na+, K+-ATPase was attained at 10 mol l–1 sulfide and amounted to 32% without being influenced by pH between 6.7 and 8.3. Ouabain-resistant K+ influx in the absence and presence of sulfide was insignificant at pH values between 6.7 and 7.7. At higher pH values ouabain-resistant K+ influx increased, but was inhibited to about 15% by 30 mol l–1 sulfide. In RBCs of crucian carp neither Na+, K+-ATPase nor ouabain-resistant K+ influx were affected by sulfide concentrations up to 850 mol l–1. Differences in sulfide-sensitivity of K+ influx between both species can be based upon different properties of the membrane transporter themselves. The reduced Na+, K+-ATPase activity in trout RBCs may also result from a slightly reduced (by 9%) ATP level after sulfide exposure. In addition, intracellular sulfide concentrations were higher in trout RBCs as compared to crucian carp. In trout, intracellular sulfide concentrations reached extracellular levels within 5 min of incubation whereas sulfide concentrations in crucian carp RBCs remained about 2-fold lower than extracellular concentrations. Although the physiological basis of sulfide-insensitive K+ influx in crucian carp RBCs is currently unknown it may contribute to the extremely high sulfide-tolerance of this species.  相似文献   

17.
With the aim of comparing the effects of oral T3 and NaCl administration on trout hypoosmoregulatory mechanisms, three groups of rainbow trout (Oncorhynchus mykiss Walbaum) held in freshwater (FW) were fed a basal diet (C), the same diet containing 8.83 ppm of 3,5,3-triiodo-L-thyronine (T3) (T) or 10% (w/w) NaCl (N) respectively for 30 d. They were then transferred to brackish water (BW) for 22 d and fed on diet C. Gill (Na++K+)-ATPase activity and its dependence on ATP, Na+ and pH, number of gill chloride cells (CC), serum T3 level as well as fish growth, condition factor (K) and mortality were evaluated. During the FW phase, as compared to C trout, T trout showed a two fold higher serum T3 level, had unchanged gill (Na++K+)-ATPase activity and increased CC number, whereas N trout showed higher gill (Na++K+)-ATPase activity and CC number. At the end of the experiment the enzyme activity was in the order T>N>C groups and all groups showed similar CC number. Both treatments changed the enzyme activation kinetics by ATP and Na+. A transient increase in K value occurred in N group during the period of salt administration. In BW, T and N groups had higher and lower survival than C group respectively. Other parameters were unaffected by the treatments. This trial suggests that T3 administration promotes the development of hypoosmoregulatory mechanisms of trout but it leaves the (Na++K+)-ATPase activity unaltered till the transfer to a hyperosmotic environment.  相似文献   

18.
Branchial plasma membranes from the freshwater cichlid teleostOreochromis mossambicus (tilapia) contain two Na+-dependent ATPases: Na+/K+ ATPase, and an amiloride-sensitive ATPase which is postulated to operate as a Na+/H+ (–NH4 +) ATPase. It is suggested that both enzyme activities are located in the basolateral membrane system of the chloride cells. K+ has opposing effects on the two enzymes: it stimulates Na+/K+ ATPase and inhibits Na+/H+ (–NH4 +) ATPase activity. Na+/H+ ATPase appears more sensitive to NH4 + at low concentrations than Na+/K+ ATPase and the stimulatory effect by NH4 + ions on the first enzyme could be important in facilitating NH4 + excretion by tilapia gills under physiological conditions.In vitro maximum stimulation by NH4 + is similar for the two enzymes (200%). In contrast to Na+/K+ ATPase, Na+/H+ ATPase activity is inhibited by supra-physiological (>20 mM) concentrations of NH4 +.  相似文献   

19.
The activity of the enzyme Na+,K+-ATPase and morphological changes of gill chloride cells in grouper, Epinephelus coioides larvae and juveniles were determined 6–48 h after abrupt transfer from ambient rearing conditions (30–32 ppt, 26.5–30 °C) to different salinity (8, 18, 32, 40 ppt) and temperature (25, 30 °C) combinations. Na+,K+-ATPase activity in day 20 larvae did not change at salinities 8–32 ppt. Activity decreased significantly (P <0.01) after exposure to 40 ppt at 25–30 °C, which was accompanied by an increase (P <0.05) in density and fractional area of chloride cells. Enzyme activity in 40 ppt did not reach a stable level and larvae failed to recover from an osmotic imbalance that produced a low survival at 25 °C and death of all larvae at 30 °C. Enzyme activity and chloride cell morphology in day 40 groupers did not change in 8–40 ppt at 25 °C and 8–32 ppt at 30 °C. A significant decrease and a subsequent increase in Na+,K+-ATPase activity in 40 ppt at 30 °C was associated with the increase in chloride cell density resulting in an increased fractional area but a decreased cell size. Enzyme activity and chloride cells of day 60 grouper were unaffected by abrupt transfer to test salinities and temperatures. These results demonstrate that grouper larvae and juveniles are efficient osmoregulators over a wide range of salinities. Salinity adaptation showed an ontogenetic shift as the larvae grew and reached the juvenile stage. This development of tolerance limits may reflect their response to actual conditions existing in the natural environment.  相似文献   

20.
Branchial activities of Na+,K+-ATPase (ouabain sensitive), Mg2+ ATPase (ouabain insensitive) and kinetic analysis of high and low affinity Ca2+ ATPase were measured inAnguilla anguilla that had been acclimated to demineralized water (DW, Ca < 10 M), freshwater (FW, Ca = 2 mM), and Low calcium freshwater (L-Ca, Ca = 0.9 mM). Na+,K+-ATPase activity decreased while ouabain insensitive activity increased when ambient Ca2+ decreased. Two kinetic forms of Ca2+ ATPase could be resolved in each environmental condition. The stimulation coefficients of both sites or enzymes were not affected by ambient Ca2+ concentrations. The maximal velocity of both the high and the low affinity Ca2+ ATPase was increased when external Ca2+ was decreased during acclimation. The low affinity Ca2+ ATPase and the Mg2+ stimulated enzyme could be a non specific enzyme accepting either Ca2+ or Mg2+. Results are compared with previous results in the literature and in relation to the branchial morphology and ionic exchanges in fish.  相似文献   

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