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基因活性染色质和非活性染色质的组蛋白。

Histones of genetically active and inactive chromatin.

作者信息

Comings D E

出版信息

J Cell Biol. 1967 Dec;35(3):699-708. doi: 10.1083/jcb.35.3.699.

DOI:10.1083/jcb.35.3.699

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2107156/

Abstract

It has frequently been proposed that a variation in the relative content of lysine-rich, moderately lysine-rich, and arginine-rich histones might provide a mechanism by which specific portions of the genome may be genetically regulated. This possibility was investigated by comparing the electrophoretic pattern of these three fractions in cells differing markedly in their content of genetically active and genetically inactive chromatin. Three models were used: heterochromatin versus euchromatin; metaphase cells versus interphase cells, and mature lymphocytes versus phytohemagglutinin-stimulated lymphocytes. In no case was there a significant difference in the histone patterns of these contrasting models. It is concluded that, although histones may act as a generalized repressor and structural component of chromatin, factors other than a variation in histone pattern may be responsible for repression or derepression of specific segments of the genome.

摘要

人们经常提出，富含赖氨酸、中度富含赖氨酸和富含精氨酸的组蛋白相对含量的变化可能提供一种机制，通过这种机制基因组的特定部分可以受到基因调控。通过比较这三种组分在遗传活性染色质和遗传非活性染色质含量差异显著的细胞中的电泳图谱，对这种可能性进行了研究。使用了三种模型：异染色质与常染色质；中期细胞与间期细胞，以及成熟淋巴细胞与植物血凝素刺激的淋巴细胞。在这些对比模型的组蛋白模式中，无一例外地没有显著差异。得出的结论是，虽然组蛋白可能作为染色质的一种普遍抑制因子和结构成分，但组蛋白模式变化以外的因素可能是基因组特定片段抑制或去抑制的原因。