酵母着丝粒的染色质构象

Chromatin conformation of yeast centromeres.

作者信息

Bloom K S, Amaya E, Carbon J, Clarke L, Hill A, Yeh E

出版信息

J Cell Biol. 1984 Nov;99(5):1559-68. doi: 10.1083/jcb.99.5.1559.

DOI:10.1083/jcb.99.5.1559

PMID:6092387

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2113365/

Abstract

The centromere region of Saccharomyces cerevisiae chromosome III has been replaced by various DNA fragments from the centromere regions of yeast chromosomes III and XI. A 289-base pair centromere (CEN3) sequence can stabilize yeast chromosome III through mitosis and meiosis. The orientation of the centromeric fragments within chromosome III has no effect on the normal mitotic or meiotic behavior of the chromosome. The structural integrity of the centromere region in these genomic substitution strains was examined by mapping nucleolytic cleavage sites within the chromatin DNA. A nuclease-protected centromere core of 220-250 base pairs was evident in all of the genomic substitution strains. The position of the protected region is determined strictly by the centromere DNA sequence. These results indicate that the functional centromere core is contained within 220-250 base pairs of the chromatin DNA that is structurally distinct from the flanking nucleosomal chromatin.

摘要

酿酒酵母三号染色体的着丝粒区域已被来自酵母三号和十一号染色体着丝粒区域的各种DNA片段所取代。一段289个碱基对的着丝粒（CEN3）序列能够在有丝分裂和减数分裂过程中稳定酵母三号染色体。着丝粒片段在三号染色体内的方向对该染色体正常的有丝分裂或减数分裂行为没有影响。通过绘制染色质DNA内的核酸酶切割位点，对这些基因组替代菌株中着丝粒区域的结构完整性进行了检测。在所有基因组替代菌株中都明显存在一个220 - 250个碱基对的核酸酶保护着丝粒核心。受保护区域的位置严格由着丝粒DNA序列决定。这些结果表明，功能性着丝粒核心包含在染色质DNA的220 - 250个碱基对内，其结构与侧翼核小体染色质不同。

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