Evolutionary preservation of CpG dinucleotides in RAG1 may elucidate the relatively high rate of methylation-mediated mutagenesis of RAG1 transposase.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2024-06-01 Epub Date: 2024-01-19 DOI:10.1007/s12026-023-09451-8
Mariam M Fawzy, Maiiada H Nazmy, Azza A K El-Sheikh, Moustafa Fathy
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Abstract

Recombination-activating gene 1 (RAG1) is a vital player in V(D)J recombination, a fundamental process in primary B cell and T cell receptor diversification of the adaptive immune system. Current vertebrate RAG evolved from RAG transposon; however, it has been modified to play a crucial role in the adaptive system instead of being irreversibly silenced by CpG methylation. By interrogating a range of publicly available datasets, the current study investigated whether RAG1 has retained a disproportionate level of its original CpG dinucleotides compared to other genes, thereby rendering it more exposed to methylation-mediated mutation. Here, we show that 57.57% of RAG1 pathogenic mutations and 51.6% of RAG1 disease-causing mutations were associated with CpG methylation, a percentage that was significantly higher than that of its RAG2 cofactor alongside the whole genome. The CpG scores and densities for all RAG ancestors suggested that RAG transposon was CpG denser. The percentage of the ancestral CpG of RAG1 and RAG2 were 6% and 4.2%, respectively, with no preference towards CG containing codons. Furthermore, CpG loci of RAG1 in sperms were significantly higher methylated than that of RAG2. In conclusion, RAG1 has been exposed to CpG mediated methylation mutagenesis more than RAG2 and the whole genome, presumably due to its late entry to the genome later with an initially higher CpG content.

Abstract Image

RAG1 中 CpG 二核苷酸的进化保存可以解释 RAG1 转座酶甲基化介导的诱变率相对较高的原因。
重组激活基因 1(RAG1)是 V(D)J 重组的重要参与者,而 V(D)J 重组是适应性免疫系统中初级 B 细胞和 T 细胞受体多样化的基本过程。目前的脊椎动物 RAG 是由 RAG 转座子进化而来的;然而,它已被改造,在适应性系统中发挥着关键作用,而不是被 CpG 甲基化不可逆地沉默。本研究通过询问一系列公开可用的数据集,调查了与其他基因相比,RAG1 是否保留了过多的原始 CpG 二核苷酸,从而使其更容易受到甲基化介导的突变的影响。在这里,我们发现 57.57% 的 RAG1 致病突变和 51.6% 的 RAG1 致病突变与 CpG 甲基化有关,这一比例明显高于全基因组的 RAG2 辅因子。所有 RAG 祖先的 CpG 得分和密度表明,RAG 转座子的 CpG 密度较高。RAG1 和 RAG2 的祖先 CpG 百分比分别为 6% 和 4.2%,并不偏好含有 CG 的密码子。此外,精子中 RAG1 的 CpG 位点甲基化程度明显高于 RAG2。总之,与 RAG2 和整个基因组相比,RAG1 受 CpG 介导的甲基化突变的影响更大,这可能是由于它进入基因组的时间较晚,最初的 CpG 含量较高。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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