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果蝇DNA拓扑异构酶I的亲水性N端结构域靶向转录活性位点。

Targeting to transcriptionally active loci by the hydrophilic N-terminal domain of Drosophila DNA topoisomerase I.

作者信息

Shaiu W L, Hsieh T S

机构信息

Department of Biochemistry, Duke University Medical Center, Durham, North Carolina 27710, USA.

出版信息

Mol Cell Biol. 1998 Jul;18(7):4358-67. doi: 10.1128/MCB.18.7.4358.

Abstract

DNA topoisomerase I (topo I) from Drosophila melanogaster contains a nonconserved, hydrophilic N-terminal domain of about 430 residues upstream of the conserved core domains. Deletion of this N terminus did not affect the catalytic activity of topo I, while further removal of sequences into the conserved regions inactivated its enzymatic activity. We have investigated the cellular function of the Drosophila topo I N-terminal domain with top1-lacZ transgenes. There was at least one putative nuclear localization signal within the first 315 residues of the N-terminal domain that allows efficient import of the large chimeric proteins into Drosophila nuclei. The top1-lacZ fusion proteins colocalized with RNA polymerase II (pol II) at developmental puffs on the polytene chromosomes. Either topo I or the top1-lacZ fusion protein was colocalized with RNA pol II in some but not all of the nonpuff, interband loci. However, the fusion proteins as well as RNA pol II were recruited to heat shock puffs during heat treatment, and they returned to the developmental puffs after recovery from heat shock. By immunoprecipitation, we showed that two of the largest subunits of RNA pol II coprecipitated with the N-terminal 315-residue fusion protein by using antibodies against beta-galactosidase. These data suggest that the topo I fusion protein can be localized to the transcriptional complex on chromatin and that the N-terminal 315 residues were sufficient to respond to cellular processes, especially during the reprogramming of gene expression.

摘要

黑腹果蝇的DNA拓扑异构酶I(拓扑异构酶I)在保守的核心结构域上游含有一个约430个残基的非保守亲水性N端结构域。删除该N端并不影响拓扑异构酶I的催化活性,而进一步去除保守区域内的序列则会使其酶活性失活。我们用top1-lacZ转基因研究了果蝇拓扑异构酶I N端结构域的细胞功能。在N端结构域的前315个残基内至少有一个假定的核定位信号,可使大型嵌合蛋白有效导入果蝇细胞核。top1-lacZ融合蛋白与RNA聚合酶II(pol II)在多线染色体上的发育疏松区共定位。拓扑异构酶I或top1-lacZ融合蛋白在一些但不是所有的非疏松区带间位点与RNA pol II共定位。然而,在热处理期间,融合蛋白以及RNA pol II被募集到热休克疏松区,热休克恢复后它们又回到发育疏松区。通过免疫沉淀,我们发现RNA pol II的两个最大亚基通过使用抗β-半乳糖苷酶抗体与N端315个残基的融合蛋白共沉淀。这些数据表明,拓扑异构酶I融合蛋白可以定位于染色质上的转录复合物,并且N端的315个残基足以响应细胞过程,特别是在基因表达重编程期间。

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