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Hepatic glutamate transport and glutamine synthesis capacities are decreased in finished vs. growing beef steers concomitant with increased GTRAP3-18 content

机译：成品牛肉和生长牛肉的肝谷氨酸转运和谷氨酰胺合成能力降低同时GTRAP3-18含量增加

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Hepatic glutamate uptake and conversion to glutamine is critical for whole-body N metabolism, but how this process is regulated during growth is poorly described. The hepatic glutamate uptake activities, protein content of system

X_{AG}^{-}

transporters (EAAC1, GLT-1) and regulatory proteins (GTRAP3-18, ARL6IP1), glutamine synthetase (GS) activity and content, and glutathione (GSH) content, were compared in liver tissue of weaned Angus steers randomly assigned (n = 8) to predominantly lean (growing) or predominantly lipid (finished) growth regimens. Steers were fed a cotton seed hull-based diet to achieve final body weights of 301 or 576 kg, respectively, at a constant rate of growth. Liver tissue was collected at slaughter and hepatic membranes fractionated. Total (75%), Na⁺-dependent (90%), system

X_{AG}^{-}

-dependent (abolished) glutamate uptake activity, and EAAC1 content (36%) in canalicular membrane-enriched vesicles decreased as steers developed from growing (n = 6) to finished (n = 4) stages, whereas Na⁺-independent uptake did not change. In basolateral membrane-enriched vesicles, total (60%), Na⁺-dependent (60%), and Na⁺-independent (56%) activities decreased, whereas neither system

X_{AG}^{-}

-dependent uptake nor protein content changed. EAAC1 protein content in liver homogenates (n = 8) decreased in finished vs. growing steers, whereas GTRAP3-18 and ARL6IP1 content increased and GLT-1 content did not change. Concomitantly, hepatic GS activity decreased (32%) as steers fattened, whereas GS and GSH contents did not differ. We conclude that hepatic glutamate uptake and GS synthesis capacities are reduced in livers of finished versus growing beef steers, and that hepatic system

X_{AG}^{-}

transporter activity/EAAC1 content is inversely proportional to GTRAP3-18 content.

机译：肝谷氨酸的吸收和向谷氨酰胺的转化对于全身N代谢至关重要，但是对生长过程中如何调节这一过程的描述却很少。肝谷氨酸的摄取活动，系统

XAG-转运蛋白（EAAC1，GLT-1）和调节蛋白（GTRAP3- 18，ARL6IP1），谷氨酰胺合成酶（GS）活性和含量以及谷胱甘肽（GSH）含量在随机分配（n = 8）断奶（主要生长）或脂类（最终）生长的断奶安格斯牛肝组织中进行了比较养生方法。牛以棉籽壳为基础饲喂，以恒定的增长率分别达到301或576 kg的最终体重。屠宰时收集肝组织，并分馏肝膜。总计（75％），Na+ 依赖（90％），系统<数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ M4 “溢出=” scroll“> XAG--依赖（废除）的谷氨酸摄取活性，富集的小管膜囊泡中的EAAC1含量（36％）随着developed牛从生长（n = 6）到完成（n = 4）阶段的发展而降低，而Na+ -独立摄取没有改变。在富含基底外侧膜的囊泡中，总活性（60％），Na + -依赖性（60％）和Na + -非依赖性（56％）活性降低，而两者均没有系统 X< / mrow>AG-依赖的摄取，蛋白质含量也没有变化。最终与生长的公牛肝脏匀浆中的EAAC1蛋白含量降低（n = 8），而GTRAP3-18和ARL6IP1含量增加而GLT-1含量不变。随之而来的是，随着公牛的肥育，肝脏的GS活性降低（32％），而GS和GSH含量没有差异。我们得出的结论是，成品牛肉和生长牛肉的肝脏中肝脏谷氨酸的吸收和GS合成能力降低，并且肝脏系统XAG-转运蛋白活性/ EAAC1含量与GTRAP3-18含量成反比。

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期刊名称 Springer Open Choice
作者
J. Huang; Y. Jia; Q. Li; W. R. Burris; P. J. Bridges; J. C. Matthews;
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作者单位

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年(卷),期 -1(50),5
年度 -1
页码 513–525
总页数 13
原文格式 PDF
正文语种
中图分类外科学;
关键词
Cattle Glutamate transport Glutamine synthetase Growth phase Liver;

机译：牛;谷氨酸转运;谷氨酰胺合成酶;生长期;肝脏;

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1. Hepatic glutamate transport and glutamine synthesis capacities are decreased in finished vs. growing beef steers, concomitant with increased GTRAP3-18 content [J] . Huang J., Jia Y., Li Q., Amino acids . 2018,第5期

机译：肝谷氨酸转运和谷氨酰胺合成容量在成品与生长牛肉转器中减少，伴随着GTRAP3-18含量增加
2. GTRAP3-18 protein negatively modulates canalicular glutamate transport and glutamine synthesis capacity in the liver of finishing versus growing beef steers. [J] . Huang J., Jia Y., Li Q., Journal of Animal Science . 2017,第Suppla4期

机译：GTRAP3-18蛋白在整理肝脏肝脏中对肝脏谷氨酸转运和谷氨酰胺合成能力产生负面调节。
3. Content of ileal EAAC1 and hepatic GLT-1 high-affinity glutamate transporters is increased in growing vs. nongrowing lambs, paralleling increased tissue - and -glutamate, plasma glutamine, and alanine concentrations [J] . Matthews?J. C. Journal of animal science . 2003,第4期

机译：回肠EAAC1和肝GLT-1高亲和力谷氨酸转运蛋白的含量在生长与不生长的羔羊中增加，与组织和谷氨酸，血浆谷氨酰胺和丙氨酸浓度增加平行
4. Capacity Decrease vs. Impedance Increase of Lithium Batteries A comparative study [C] . Hartmut Popp, Markus Einhorn, Fiorentino Valerio Conte International Electric Vehicle Symposium . 2012

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5. Studies on nucleotide interactive proteins in control versus ischemic rat brains. I.~Increased glutamine synthetase synthesis and photolabeling. II.~Decreased phosphorylation of calcium-ATPase. III.~Identification of peptides in the NADP(+) binding site of isocitrate dehydrogenase. [D] . Sankaran, Banumathi. 1994

机译：对照和缺血大鼠脑中核苷酸相互作用蛋白的研究。 I.〜增加谷氨酰胺合成酶的合成和光标记。 II。〜降低钙-ATP酶的磷酸化。 III。在异柠檬酸脱氢酶的NADP（+）结合位点中鉴定肽。
6. Glutathione content and expression of proteins involved with glutathione metabolism differs in longissimus dorsi subcutaneous adipose and liver tissues of finished vs. growing beef steers [O] . Jing Huang, Yang Jia, Qing Li, 2018

机译：牛背最长背肌皮下脂肪和牛公牛与生长牛公牛的肝组织中谷胱甘肽含量和涉及谷胱甘肽代谢的蛋白质表达不同
7. High-affinity glutamate transporter and glutamine synthetase content in longissimus dorsi and adipose tissues of growing Angus steers differs among suckling, weanling, backgrounding, and finishing production stages1 [O] . J. C. Matthews, J. Huang, G. Rentfrow 2016

机译：高亲和力谷氨酸转运蛋白和谷氨酰胺合成酶含量在长鼻喉杆菌和脂肪组织中生长的安斯阉牛的脂肪组织不同，乳酸，断奶，背景和整理生产阶段不同.1

Hepatic glutamate transport and glutamine synthesis capacities are decreased in finished vs. growing beef steers concomitant with increased GTRAP3-18 content

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