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首页> 外文期刊>Aquaculture Nutrition >Juvenile Atlantic salmon decrease white trunk muscle IGF-1 expression and reduce muscle and plasma free sulphur amino acids when methionine availability is low while liver sulphur metabolites mostly is unaffected by treatment
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Juvenile Atlantic salmon decrease white trunk muscle IGF-1 expression and reduce muscle and plasma free sulphur amino acids when methionine availability is low while liver sulphur metabolites mostly is unaffected by treatment

机译:当蛋氨酸利用率低而肝硫代谢物大部分不受治疗影响时,幼大西洋大西洋鲑鱼会降低白主干肌IGF-1表达并减少肌肉和血浆中的游离硫氨基酸

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We previously reported that juvenile Atlantic salmon with mean initial BW 11.5 g offed a methionine deficient diet had lower weight gain due to a reduced protein accretion, while lipid gain was unaffected. Muscle of the fish fed the methionine deficient diet was depleted for sulphur amino acids, while in liver, the concentration of these metabolites was maintained within narrow limits. We speculated whether this could be due to an increased muscle proteolysis to support a prioritized liver metabolism in fish fed the low methionine diets. In this study, we assessed whether genes associated with muscle proteolysis increased under methionine deficiency. The composition of the diets was similar to those used previously containing 1.6 or 2.1 g Met/16 g N. We confirmed that the fish fed the low methionine diet gained less protein compared to fish fed the DL-methionine enriched diet (P = 0.014), but growth did not reduce significantly. Also the deficient fish maintained the concentrations of liver sulphur amino acids and reduced muscle free methionine. Several of the other free amino acids within muscle increased. Further, methylation capacity was maintained in liver but reduced in the muscle (P = 0.78 and 0.04, respectively). Gene expression of muscle IGF-1 was lower (P = 0.008) and myosin light chain 2 tended (MLC2, P = 0.06) to be reduced in fish fed low methionine diet, concurrently the activity of cathepsins B+L increased (P = 0.047) in muscle of fish fed the low methionine diet. Gene expression of the muscle-specific E3 ubiquitine ligases (Murf and MaFbx) was not affected by treatment. Thus, the lower protein gain observed in fish fed the low methionine diet may be caused by reduced protein synthesis in line with the reduced IGF-1 gene expression in the white trunk muscle. Thus, to support metabolism, the dietary protein needs to be balanced in amino acids to support metabolism in all compartments of the body and secure maximal protein gain.
机译:我们以前曾报道过,平均初始体重为11.5 g的少年大西洋鲑鱼食用甲硫氨酸缺乏饮食后,其体重增加会由于蛋白质积聚减少而降低,而脂质增加则不受影响。喂食蛋氨酸缺乏饮食的鱼的肌肉中的硫氨基酸被消耗掉了,而在肝脏中,这些代谢物的浓度保持在狭窄的范围内。我们推测这是否可能是由于在饲喂低蛋氨酸饮食的鱼中增加了肌肉蛋白水解以支持优先肝脏代谢。在这项研究中,我们评估了蛋氨酸缺乏时与肌肉蛋白水解有关的基因是否增加。日粮的组成与以前使用的日粮中含有1.6或2.1 g Met / 16 g N的日粮相似。我们证实,与饲喂富含DL-蛋氨酸的日粮相比,饲喂低蛋氨酸日粮的鱼获得的蛋白质更少(P = 0.014) ,但增长并未明显减少。缺乏的鱼还保持了肝脏硫氨基酸的浓度,减少了肌肉游离蛋氨酸的含量。肌肉中的其他一些游离氨基酸增加了。此外,肝脏中甲基化能力得以维持,但肌肉中甲基化能力降低(分别为P = 0.78和0.04)。在低蛋氨酸饮食的鱼中,肌肉IGF-1的基因表达较低(P = 0.008),而肌球蛋白轻链2倾向于降低(MLC2,P = 0.06),同时组织蛋白酶B + L的活性增加(P = 0.047) )喂低蛋氨酸饮食的鱼的肌肉。肌肉特异性E3泛素连接酶(Murf和MaFbx)的基因表达不受治疗影响。因此,饲喂低蛋氨酸日粮的鱼体内观察到的蛋白质增加量较低可能是由于蛋白质合成减少所致,这与白主干肌肉中IGF-1基因表达的减少相一致。因此,为了支持新陈代谢,饮食中的蛋白质需要在氨基酸中保持平衡,以支持人体所有部位的新陈代谢并确保最大的蛋白质获取。

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