在休眠期间蜗牛（Helix apersa）体内蛋白质合成的下调

In vivo downregulation of protein synthesis in the snail Helix apersa during estivation.

作者信息

Pakay Julian L, Withers Philip C, Hobbs Andrew A, Guppy Michael

机构信息

Biochemistry Department, University of Western Australia, 35 Stirling Highway, Crawley, Western Australia 6009, Australia.

出版信息

Am J Physiol Regul Integr Comp Physiol. 2002 Jul;283(1):R197-204. doi: 10.1152/ajpregu.00636.2001.

DOI:10.1152/ajpregu.00636.2001

PMID:12069946

Abstract

Protein synthesis is downregulated during metabolic depression in a number of systems where the metabolic depression is effected by obvious extrinsic cues. The metabolic depression of the estivating land snail Helix apersa occurs in the absence of any obvious physiological stress and has an intrinsic component independent of temperature, pH, O(2) status, or osmolality. We show that this metabolic depression is accompanied by a downregulation of protein synthesis in vivo. The rate of protein synthesis decreases in two major tissues during estivation: to 23% and 53% of the awake rate in hepatopancreas and foot muscle, respectively. We show from calculations of the theoretical contribution of protein synthesis to total O(2) consumption that the depression of protein synthesis must be a significant, obligate, in vivo component of metabolic depression in H. aspersa.

摘要

在许多因明显外在线索导致代谢抑制的系统中，蛋白质合成会下调。夏眠的陆地蜗牛（Helix apersa）的代谢抑制发生在没有任何明显生理应激的情况下，并且具有独立于温度、pH值、氧气状态或渗透压的内在成分。我们发现，这种代谢抑制伴随着体内蛋白质合成的下调。在夏眠期间，两个主要组织中的蛋白质合成速率下降：在肝胰腺和足部肌肉中分别降至清醒时速率的23%和53%。我们通过计算蛋白质合成对总氧气消耗的理论贡献表明，蛋白质合成的抑制必定是散大蜗牛代谢抑制在体内的一个重要的、必然的组成部分。

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在休眠期间蜗牛（Helix apersa）体内蛋白质合成的下调

In vivo downregulation of protein synthesis in the snail Helix apersa during estivation.

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