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Drosophila P-element transposase is a novel site-specific endonuclease.果蝇P因子转座酶是一种新型的位点特异性内切核酸酶。
Genes Dev. 1997 Aug 15;11(16):2137-51. doi: 10.1101/gad.11.16.2137.
2
Reprogramming the purine nucleotide cofactor requirement of Drosophila P element transposase in vivo.在体内对果蝇P因子转座酶的嘌呤核苷酸辅因子需求进行重编程。
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3
Transposase makes critical contacts with, and is stimulated by, single-stranded DNA at the P element termini in vitro.在体外,转座酶与P因子末端的单链DNA进行关键接触并受到其刺激。
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Isolation and characterization of IS10 transposase separation of function mutants: identification of amino acid residues in transposase that are important for active site function and the stability of transposition intermediates.IS10转座酶功能分离突变体的分离与鉴定:确定转座酶中对活性位点功能和转座中间体稳定性至关重要的氨基酸残基。
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本文引用的文献

1
Reprogramming the purine nucleotide cofactor requirement of Drosophila P element transposase in vivo.在体内对果蝇P因子转座酶的嘌呤核苷酸辅因子需求进行重编程。
EMBO J. 1997 Jul 16;16(14):4441-7. doi: 10.1093/emboj/16.14.4441.
2
Stimulation of V(D)J cleavage by high mobility group proteins.高迁移率族蛋白对V(D)J切割的刺激作用。
EMBO J. 1997 May 15;16(10):2665-70. doi: 10.1093/emboj/16.10.2665.
3
Initiation of V(D)J recombination in vivo: role of recombination signal sequences in formation of single and paired double-strand breaks.体内V(D)J重组的起始:重组信号序列在单链和配对双链断裂形成中的作用。
EMBO J. 1997 May 15;16(10):2656-64. doi: 10.1093/emboj/16.10.2656.
4
RAG1 and RAG2 form a stable postcleavage synaptic complex with DNA containing signal ends in V(D)J recombination.在V(D)J重组过程中,RAG1和RAG2与含有信号末端的DNA形成稳定的切割后突触复合体。
Cell. 1997 Apr 4;89(1):43-53. doi: 10.1016/s0092-8674(00)80181-6.
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Disruption of the terminal base pairs of retroviral DNA during integration.逆转录病毒DNA整合过程中末端碱基对的破坏。
Genes Dev. 1997 Feb 1;11(3):371-82. doi: 10.1101/gad.11.3.371.
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A stable RAG1-RAG2-DNA complex that is active in V(D)J cleavage.一种在V(D)J切割中具有活性的稳定RAG1-RAG2-DNA复合物。
Cell. 1997 Jan 10;88(1):65-72. doi: 10.1016/s0092-8674(00)81859-0.
7
The origins of V(D)J recombination.V(D)J重排的起源。
Cell. 1997 Jan 24;88(2):159-62. doi: 10.1016/s0092-8674(00)81833-4.
8
Efficient gap repair in Drosophila melanogaster requires a maximum of 31 nucleotides of homologous sequence at the searching ends.在黑腹果蝇中进行高效的缺口修复,在搜索末端需要最多31个核苷酸的同源序列。
Mol Cell Biol. 1997 Feb;17(2):627-34. doi: 10.1128/MCB.17.2.627.
9
Flanking duplications and deletions associated with P-induced male recombination in Drosophila.与果蝇中P诱导的雄性重组相关的侧翼重复和缺失
Genetics. 1996 Dec;144(4):1623-38. doi: 10.1093/genetics/144.4.1623.
10
P-element-induced male recombination and gene conversion in Drosophila.P 因子诱导的果蝇雄性重组和基因转换
Genetics. 1996 Dec;144(4):1611-22. doi: 10.1093/genetics/144.4.1611.

果蝇P因子转座酶是一种新型的位点特异性内切核酸酶。

Drosophila P-element transposase is a novel site-specific endonuclease.

作者信息

Beall E L, Rio D C

机构信息

Department of Molecular and Cell Biology, University of California, Berkeley 94720-3204, USA.

出版信息

Genes Dev. 1997 Aug 15;11(16):2137-51. doi: 10.1101/gad.11.16.2137.

DOI:10.1101/gad.11.16.2137
PMID:9284052
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC316450/
Abstract

We developed in vitro assays to study the first step of the P-element transposition reaction: donor DNA cleavage. We found that P-element transposase required both 5' and 3' P-element termini for efficient DNA cleavage to occur, suggesting that a synaptic complex forms prior to cleavage. Transposase made a staggered cleavage at the P-element termini that is novel for all known site-specific endonucleases: the 3' cleavage site is at the end of the P-element, whereas the 5' cleavage site is 17 bp within the P-element 31-bp inverted repeats. The P-element termini were protected from exonucleolytic degradation following the cleavage reaction, suggesting that a stable protein complex remains bound to the element termini after cleavage. These data are consistent with a cut-and-paste mechanism for P-element transposition and may explain why P elements predominantly excise imprecisely in vivo.

摘要

我们开发了体外分析方法来研究P因子转座反应的第一步:供体DNA切割。我们发现,P因子转座酶需要P因子的5'和3'末端才能有效切割DNA,这表明在切割之前会形成一个突触复合体。转座酶在P因子末端进行交错切割,这对于所有已知的位点特异性内切核酸酶来说都是新颖的:3'切割位点位于P因子末端,而5'切割位点位于P因子31bp反向重复序列内17bp处。切割反应后,P因子末端受到保护,免受核酸外切酶降解,这表明切割后一种稳定的蛋白质复合体仍与元件末端结合。这些数据与P因子转座的剪切粘贴机制一致,可能解释了为什么P因子在体内主要进行不准确的切除。