膳食中不可缺少的氨基酸缺乏对无胃鱼摄食量的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Giovanni S. Molinari , Michal Wojno , Karolina Kwasek
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引用次数: 0

摘要

有证据表明,鱼类比哺乳动物更能耐受膳食氨基酸的不平衡。然而,鱼类对膳食不可缺少氨基酸(IDAA)个体缺乏的行为和生理反应仍不清楚。本研究以斑马鱼(Danio rerio)为模型,考察了无胃鱼对缺乏限制性 IDAA(赖氨酸、蛋氨酸和苏氨酸)的日粮的反应。对缺乏性日粮的反应评估基于:1)生长性能和饲养效率;2)饲料摄入量;3)食欲调节激素和营养感应受体的表达;4)肌肉餐后游离氨基酸(FAA)水平。共有 6 个处理,每个处理有 3 个重复的水槽。每组都配制了半纯化日粮。CG 日粮以酪蛋白和明胶为基础,而 FAA50 日粮则有 50% 的日粮蛋白质由结晶氨基酸提供。这两种日粮都含有相匹配的均衡氨基酸。其余日粮的配方与 FAA50 日粮相同,只是稍作调整,以造成特定 IDAA 的缺乏。(-)赖氨酸、(-)甲硫氨酸和(-)苏氨酸日粮分别从 FAA 混合饲料中扣留了赖氨酸、甲硫氨酸和苏氨酸,而 Def 日粮则缺乏这三种氨基酸。从孵化后 21 天到 50 天,每天喂养幼年斑马鱼 3 次,直至饱食。结果表明,用结晶氨基酸替代 50% 的日粮蛋白质会显著降低斑马鱼幼鱼的生长速度。FAA50组与日粮缺乏组的生长没有明显差异。单一 IDAA 的缺乏并未引起摄食量的显著变化;然而,Def 日粮中的综合缺乏会导致摄食量的显著增加。采食量增加导致饲喂效率下降。在 (-) Lys 组也观察到饲喂效率明显下降。在 Def 组中观察到了神经肽 Y(NPY)的上调,这是一种促食欲激素。总之,本研究的结果表明,无胃鱼在摄入 IDAA 缺乏的饲料时会增加摄食量,而 NPY 的调节可能在这种反应中发挥作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effects of dietary indispensable amino acid deficiencies on feed intake in stomachless fish

Effects of dietary indispensable amino acid deficiencies on feed intake in stomachless fish

Evidence suggests that fish are more tolerant than mammals to imbalanced dietary amino acid profiles. However, the behavioral and physiological responses of fish to individual deficiencies in dietary indispensable amino acids (IDAA) remain unclear. This study examined how stomachless fish respond to diets deficient in limiting IDAA (lysine, methionine, and threonine), using Zebrafish (Danio rerio) as a model. The response to deficient diets was assessed based on; 1) growth performance and feeding efficiency; 2) feed intake; 3) expression of appetite-regulating hormones and nutrient-sensing receptors; and 4) muscle postprandial free amino acid (FAA) levels. There were 6 treatments, each with 3 replicate tanks. A semi-purified diet was formulated for each group. The CG diet was based on casein and gelatin, while the FAA50 diet had 50 % of dietary protein supplied with crystalline amino acids. Both were formulated to contain matching, balanced amino acid profiles. The remaining diets were formulated the same as the FAA50 diet, with minor adjustments to create deficiencies in selected IDAA. The (−) Lys, (−) Met, and (−) Thr diets had lysine, methionine, and threonine withheld from the FAA mix, respectively, and the Def diet was deficient in all three. The juvenile Zebrafish were fed to satiation 3 times daily from 21 to 50 days-post-hatch. Results showed that 50 % replacement of dietary protein with crystalline amino acids significantly reduced growth of juvenile Zebrafish. There were no significant differences in growth between the FAA50 group and groups that received deficient diets. The deficiency of singular IDAA did not induce significant changes in feed intake; however, the combined deficiency in the Def diet caused a significant increase in feed intake. This increased feed intake led to decreased feeding efficiency. A significant decrease in feeding efficiency was also observed in the (−) Lys group. There was an observed upregulation of neuropeptide Y (NPY), an orexigenic hormone, in the Def group. Overall, results from this study suggest stomachless fish increase feed intake when challenged with IDAA-deficient diets, and the regulation of NPY might play a role in this response.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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