染色体环附着位点处的蛋白质与DNA相互作用。

Protein:DNA interactions at chromosomal loop attachment sites.

作者信息

Blasquez V C, Sperry A O, Cockerill P N, Garrard W T

机构信息

Department of Biochemistry, University of Texas Southwestern Medical Center, Dallas 75235.

出版信息

Genome. 1989;31(2):503-9. doi: 10.1139/g89-098.

DOI:10.1139/g89-098

PMID:2561108

Abstract

We have recently identified an evolutionarily conserved class of sequences that organize chromosomal loops in the interphase nucleus, which we have termed "matrix association regions" (MARs). MARs are about 200 bp long, AT-rich, contain topoisomerase II consensus sequences and other AT-rich sequence motifs, often reside near cis-acting regulatory sequences, and their binding sites are abundant (greater than 10,000 per mammalian nucleus). Here we demonstrate that the interactions between the mouse kappa immunoglobulin gene MAR and topoisomerase II or the "nuclear matrix" occur between multiple and sometimes overlapping binding sites. Interestingly, the sites most susceptible to topoisomerase II cleavage are localized near the breakpoints of a previously described illegitimate recombination event. The presence of multiple binding sites within single MARs may allow DNA and RNA polymerase passage without disrupting primary loop organization.

摘要

我们最近鉴定出一类在进化上保守的序列，它们在间期核中组织染色体环，我们将其称为“基质附着区域”（MARs）。MARs长度约为200bp，富含AT，包含拓扑异构酶II共有序列和其他富含AT的序列基序，常位于顺式作用调控序列附近，且其结合位点丰富（每个哺乳动物细胞核中超过10000个）。在此我们证明，小鼠κ免疫球蛋白基因MAR与拓扑异构酶II或“核基质”之间的相互作用发生在多个且有时重叠的结合位点之间。有趣的是，最易受拓扑异构酶II切割的位点位于先前描述的异常重组事件的断点附近。单个MAR内多个结合位点的存在可能允许DNA和RNA聚合酶通过而不破坏初级环的组织。

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染色体环附着位点处的蛋白质与DNA相互作用。

Protein:DNA interactions at chromosomal loop attachment sites.

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