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单链DNA结构和靶胞嘧啶的位置背景决定了AID的酶促效率。

Single-stranded DNA structure and positional context of the target cytidine determine the enzymatic efficiency of AID.

作者信息

Larijani Mani, Martin Alberto

机构信息

Department of Immunology, University of Toronto, Medical Sciences Bldg. 5265, Toronto, Canada M5S 1A8.

出版信息

Mol Cell Biol. 2007 Dec;27(23):8038-48. doi: 10.1128/MCB.01046-07. Epub 2007 Sep 24.

Abstract

Activation-induced cytidine deaminase (AID) initiates antibody diversification processes by deaminating immunoglobulin sequences. Since transcription of target genes is required for deamination in vivo and AID exclusively mutates single-stranded DNA (ssDNA) in vitro, AID has been postulated to mutate transcription bubbles. However, since ssDNA generated by transcription can assume multiple structures, it is unknown which of these are targeted in vivo. Here we examine the enzymatic and binding properties of AID for different DNA structures. We report that AID has minimal activity on stem-loop structures and preferentially deaminates five-nucleotide bubbles. We compared AID activity on cytidines placed at various distances from the single-stranded/double-stranded DNA junction of bubble substrates and found that the optimal target consists of a single-stranded NWRCN motif. We also show that high-affinity binding is required for but does not necessarily lead to efficient deamination. Using nucleotide analogues, we show that AID's WRC preference (W = A or T; R = A or G) involves the recognition of a purine in the R position and that the carbonyl or amino side chains of guanosine negatively influence specificity at the W position. Our results indicate that AID is likely to target short-tract regions of ssDNA produced by transcription elongation and that it requires a fully single-stranded WRC motif.

摘要

活化诱导的胞苷脱氨酶(AID)通过对免疫球蛋白序列进行脱氨基作用来启动抗体多样化过程。由于体内脱氨基作用需要靶基因转录,且AID在体外仅使单链DNA(ssDNA)发生突变,因此推测AID使转录泡发生突变。然而,由于转录产生的ssDNA可呈现多种结构,目前尚不清楚体内靶向的是其中哪种结构。在此,我们研究了AID对不同DNA结构的酶促活性和结合特性。我们报告称,AID对茎环结构的活性极小,且优先使五核苷酸泡发生脱氨基作用。我们比较了AID对位于泡状底物单链/双链DNA交界处不同距离处胞苷的活性,发现最佳靶点由单链NWRCN基序组成。我们还表明,高效脱氨基作用需要高亲和力结合,但高亲和力结合不一定会导致高效脱氨基。使用核苷酸类似物,我们表明AID对WRC的偏好(W = A或T;R = A或G)涉及对R位置嘌呤的识别,且鸟苷的羰基或氨基侧链会对W位置的特异性产生负面影响。我们的结果表明,AID可能靶向转录延伸产生的ssDNA短片段区域,并且它需要一个完全单链的WRC基序。

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