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本文引用的文献

1
The Drosophila P-element KP repressor protein dimerizes and interacts with multiple sites on P-element DNA.果蝇P因子KP阻遏蛋白会形成二聚体,并与P因子DNA上的多个位点相互作用。
Mol Cell Biol. 1996 Oct;16(10):5616-22. doi: 10.1128/MCB.16.10.5616.
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GTPase activity of Rab5 acts as a timer for endocytic membrane fusion.Rab5的GTP酶活性作为内吞膜融合的定时器。
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GTP hydrolysis in protein synthesis: two for Tu?蛋白质合成中的GTP水解:Tu需要两个吗?
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Purification and characterization of SAR1p, a small GTP-binding protein required for transport vesicle formation from the endoplasmic reticulum.内质网来源的运输小泡形成所需的小GTP结合蛋白SAR1p的纯化与鉴定
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The 2.2 A crystal structure of transducin-alpha complexed with GTP gamma S.与GTPγS复合的转导素α的2.2埃晶体结构。
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DNA-dependent ATPase from HeLa cells is related to human Ku autoantigen.来自HeLa细胞的DNA依赖性ATP酶与人类Ku自身抗原相关。
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7
A Drosophila protein homologous to the human p70 Ku autoimmune antigen interacts with the P transposable element inverted repeats.一种与人类p70 Ku自身免疫抗原同源的果蝇蛋白与P转座因子反向重复序列相互作用。
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Reciprocal stimulation of GTP hydrolysis by two directly interacting GTPases.
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Protein fusions with the kanamycin resistance gene from transposon Tn5.与转座子Tn5的卡那霉素抗性基因的蛋白质融合体。
EMBO J. 1984 Dec 20;3(13):3317-22. doi: 10.1002/j.1460-2075.1984.tb02297.x.
10
Mutant ras-encoded proteins with altered nucleotide binding exert dominant biological effects.具有改变的核苷酸结合能力的突变型ras编码蛋白发挥显性生物学效应。
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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。

Reprogramming the purine nucleotide cofactor requirement of Drosophila P element transposase in vivo.

作者信息

Mul Y M, Rio D C

机构信息

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

出版信息

EMBO J. 1997 Jul 16;16(14):4441-7. doi: 10.1093/emboj/16.14.4441.

DOI:10.1093/emboj/16.14.4441
PMID:9250688
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1170070/
Abstract

Guanosine triphosphate (GTP)-binding proteins are involved in controlling a wide range of fundamental cellular processes. In vitro studies have indicated a role for GTP during Drosophila P element transposition. Here we show that P element transposase contains a non-canonical GTP-binding domain that is critical for its ability to mediate transposition in Drosophila cells. Moreover, a single amino acid substitution could switch the nucleotide binding-specificity of transposase from GTP to xanthosine triphosphate (XTP). Importantly, this mutant protein could no longer function effectively in transposition in vivo but required addition of exogenous xanthine or xanthosine for reactivation. These results suggest that transposition may be controlled by physiological GTP levels and demonstrate that a single mutation can switch the nucleotide specificity for a complex cellular process in vivo.

摘要

三磷酸鸟苷(GTP)结合蛋白参与控制广泛的基本细胞过程。体外研究表明GTP在果蝇P元件转座过程中发挥作用。在此我们表明,P元件转座酶含有一个非典型的GTP结合结构域,该结构域对其在果蝇细胞中介导转座的能力至关重要。此外,单个氨基酸取代可将转座酶的核苷酸结合特异性从GTP转换为三磷酸黄苷(XTP)。重要的是,这种突变蛋白在体内转座中不再能有效发挥作用,但需要添加外源黄嘌呤或黄苷才能重新激活。这些结果表明转座可能受生理GTP水平控制,并证明单个突变可在体内改变复杂细胞过程的核苷酸特异性。