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糖胺聚糖的合成在有丝分裂期间受到抑制，而在G1早期升高。

Glycosaminoglycan synthesis is depressed during mitosis and elevated during early G1.

作者信息

Preston S F, Regula C S, Sager P R, Pearson C B, Daniels L S, Brown P A, Berlin R D

出版信息

J Cell Biol. 1985 Sep;101(3):1086-93. doi: 10.1083/jcb.101.3.1086.

DOI:10.1083/jcb.101.3.1086

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2113704/

Abstract

[35S]Sulfate incorporation was measured in populations of Chinese hamster ovary cells enriched for mitotics, early G1 cells, and interphase monolayers or suspensions. Incorporation was determined by biochemical analysis of extracts and quantitative autoradiography of thick sections. 90% of [35S]sulfate was incorporated into glycosaminoglycan (GAG). Incorporation was depressed fourfold in mitotics and stimulated by from two- to three-fold in early G1 cells relative to mixed interphase cells. GAG synthesis was maintained into late G2. Thus, the rate of GAG biosynthesis was correlated temporally with the detachment and reattachment of cells to substrate. Inhibitors of protein synthesis brought about the rapid arrest of GAG biosynthesis. However, xylosides, which bypass the requirement for core protein, did not bring oligosaccharide sulfation in mitotics to interphase levels. These observations indicate an inhibition of Golgi processing and are consistent with a generalized defect of membrane vesicle-mediated transport during mitosis.

摘要

在富集有有丝分裂细胞、早期G1期细胞以及间期单层或悬浮细胞的中国仓鼠卵巢细胞群体中测量了[35S]硫酸盐掺入情况。通过提取物的生化分析和厚切片的定量放射自显影来确定掺入情况。90%的[35S]硫酸盐掺入了糖胺聚糖（GAG）。相对于混合的间期细胞，有丝分裂细胞中的掺入量降低了四倍，而早期G1期细胞中的掺入量则增加了两到三倍。GAG合成持续到G2晚期。因此，GAG生物合成速率在时间上与细胞从底物上脱离和重新附着相关。蛋白质合成抑制剂导致GAG生物合成迅速停止。然而，绕过对核心蛋白需求的木糖苷并没有使有丝分裂期的寡糖硫酸化达到间期水平。这些观察结果表明高尔基体加工受到抑制，并且与有丝分裂期间膜泡介导运输的普遍缺陷一致。