狭温性和广温性等足类甲壳动物蛋白质合成代谢成本的比较。

A comparison of the metabolic cost of protein synthesis in stenothermal and eurythermal isopod crustaceans.

作者信息

Whiteley N M, Taylor E W, el Haj A J

机构信息

School of Biological Sciences, University of Birmingham, United Kingdom.

出版信息

Am J Physiol. 1996 Nov;271(5 Pt 2):R1295-303. doi: 10.1152/ajpregu.1996.271.5.R1295.

DOI:10.1152/ajpregu.1996.271.5.R1295

PMID:8945967

Abstract

To examine the presence of metabolic cold adaptation in Antarctic isopods, whole animal rates of oxygen uptake (MVo2) and protein synthesis were measured in Glyptonotus antarcticus at 0 degree C and compared with the temperature isopod Idotea rescata at 4 and 14 degrees C. The specific relationship between rates of metabolism and protein synthesis was investigated by injecting animals with cycloheximide, a protein synthesis inhibitor. In G. antarcticus, routine MVo2 was 11.10 +/- 0.89 mumol.kg-1.min-1 (n = 19 animals), and ks was 0.24 +/- 0.04% protein synthesized/day (n = 8 animals). Comparison with I. rescata showed that standardized whole animal MVo2 decreased with temperature (temperature quotient = 1.99), but whole animal ks was considerably lower in the Antarctic isopod; 66 and 22% of total MVo2 was attributable to protein synthesis in G. antarcticus at 0 degree C and I. rescata at 4 degrees C, respectively. The energetic cost of protein synthesis was four times higher in G. antarcticus at 885 +/- 141 mmol ATP/g protein (n = 5 animals) compared with 237 +/- 76 mmol ATP/g protein (n = 6) in I. rescata. G. antarcticus does not show metabolic rate compensation and maintains extremely low ks levels because of the relatively high energetic cost of protein synthesis.

摘要

为研究南极等足类动物是否存在代谢冷适应现象，在0℃下测定了南极吉氏等足虫（Glyptonotus antarcticus）的全动物耗氧率（MVo2）和蛋白质合成率，并与4℃和14℃下的同温度等足虫红褐背尾水虱（Idotea rescata）进行了比较。通过给动物注射蛋白质合成抑制剂环己酰亚胺，研究了代谢率与蛋白质合成率之间的特定关系。在南极吉氏等足虫中，常规MVo2为11.10±0.89μmol·kg-1·min-1（n = 19只动物），ks为0.24±0.04%蛋白质每日合成量（n = 8只动物）。与红褐背尾水虱的比较表明，标准化全动物MVo2随温度降低（温度系数 = 1.99），但南极等足虫的全动物ks显著更低；在0℃的南极吉氏等足虫和4℃的红褐背尾水虱中，分别有66%和22%的总MVo2归因于蛋白质合成。南极吉氏等足虫蛋白质合成的能量成本比红褐背尾水虱高四倍，分别为885±141 mmol ATP/g蛋白质（n = 5只动物）和237±76 mmol ATP/g蛋白质（n = 6只动物）。南极吉氏等足虫未表现出代谢率补偿，且由于蛋白质合成的能量成本相对较高，其ks水平维持在极低水平。

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狭温性和广温性等足类甲壳动物蛋白质合成代谢成本的比较。

A comparison of the metabolic cost of protein synthesis in stenothermal and eurythermal isopod crustaceans.

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