Enhanced glycosylation of a 50 kD protein during development of thermotolerance in CHO cells.

International journal of radiation biology and related studies in physics, chemistry, and medicine Pub Date : 1988-05-01 DOI:10.1080/09553008814551171

K J Henle, W A Nagle, J S Norris, A J Moss

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引用次数: 29

Abstract

During the development of thermotolerance, Chinese hamster ovary cells not only synthesized classical heat shock proteins, but also incorporated [3H]D-glucose or mannose into a glycoprotein with a Mr of approximately 50 kD. The glycosylation of the 50 kD protein correlated with the expression of thermotolerance under conditions when tolerance was induced either by acute or chronic heat conditioning. A phosphoprotein with the same molecular weight as the 50 kD glycoprotein was dephosphorylated immediately after heat conditioning. Both phosphate and glucose label in the ion front were enhanced immediately after heating, and may represent elevated levels of sugar phosphates. However, the composition of the ion front material remains to be determined. The data are consistent with a hypothesis that attributes increased heat resistance of thermotolerant cells to the glycosylation of specific heat-sensitive cellular sites.

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在CHO细胞的耐热性发育过程中，一个50 kD蛋白的糖基化增强。

在耐热性发育过程中，中国仓鼠卵巢细胞不仅可以合成经典的热休克蛋白，还可以将[3H] d -葡萄糖或甘露糖纳入Mr约为50 kD的糖蛋白中。在急性或慢性热调节诱导下，50kd蛋白的糖基化与耐热性表达相关。一个与50 kD糖蛋白分子量相同的磷酸化蛋白在热调节后立即被去磷酸化。加热后，离子前沿的磷酸盐和葡萄糖标记都立即增强，这可能表示糖磷酸盐水平升高。然而，离子前沿材料的组成仍有待确定。这些数据与一种假设相一致，即耐热细胞的耐热性增加是由于特定热敏细胞位点的糖基化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of radiation biology and related studies in physics, chemistry, and medicine

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