通过 tethered-EDTA(Fe) 切割确定人 U1A RBD1 在其 UTR 上的方向。

Defining the orientation of the human U1A RBD1 on its UTR by tethered-EDTA(Fe) cleavage.

作者信息

Beck D L, Stump W T, Hall K B

机构信息

Department of Molecular Microbiology, Washington University School of Medicine, St. Louis, Missouri 63110, USA.

出版信息

RNA. 1998 Mar;4(3):331-9.

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1369621/

Abstract

The N-terminal RNA binding domain of the human U1A protein (RBD1) specifically binds an RNA hairpin of U1 snRNA as well as two internal loops in the 3' UTR of its own mRNA. Here, a single cysteine has been introduced into Loop 1 of RBD1, which is subsequently used to attach (EDTA-2-aminoethyl) 2-pyridyl disulfide-Fe3+ (EPD-Fe). This EDTA-Fe derivative is used to generate hydroxyl radicals to cleave the proximal RNA sugar-phosphate backbone in the RNA-RBD complexes. RBD1(K20C)-EPD-Fe cleaves the 5' strand of the RNA hairpin stem, centered four base pairs away from the base of the loop, and cleaves the UTR in two places, again centered on the 5' side of the fourth base pair from each internal loop. These data, extrapolated to the position of Lys 20 in RBD1, orient the two proteins bound to the UTR, and provide direct biochemical evidence for the proposed model of the RBD1:UTR complex.

摘要

人U1A蛋白的N端RNA结合结构域（RBD1）特异性结合U1 snRNA的一个RNA发夹结构以及其自身mRNA 3'UTR中的两个内部环。在此，在RBD1的环1中引入了一个半胱氨酸，随后用于连接（乙二胺四乙酸-2-氨基乙基）2-吡啶二硫化物-Fe3+（EPD-Fe）。这种EDTA-Fe衍生物用于产生羟基自由基，以切割RNA-RBD复合物中近端的RNA糖-磷酸骨架。RBD1(K20C)-EPD-Fe切割RNA发夹茎的5'链，以环基部为中心，在四个碱基对处，并且在两个位置切割UTR，同样以每个内部环的第四个碱基对的5'侧为中心。这些数据外推到RBD1中赖氨酸20的位置，确定了与UTR结合的两种蛋白质的方向，并为RBD1:UTR复合物的提议模型提供了直接的生化证据。

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