Identification of an endonuclease and N6-adenine methyltransferase from Ureaplasma parvum SV3F4 strain

IF 3.4 3区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Enzyme and Microbial Technology Pub Date : 2024-06-26 DOI:10.1016/j.enzmictec.2024.110471

Heng Ning Wu , Yuya Fujisawa , Zenzaburo Tozuka , Alexey Fomenkov , Yukiko Nakura , Shin-ichiro Kajiyama , Shinsuke Fujiwara , Kiyoshi Yasukawa , Richard J. Roberts , Itaru Yanagihara

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引用次数: 0

Abstract

Here, we report a novel endonuclease and N⁶-adenine DNA methyltransferase (m⁶A methyltransferase) in the Ureaplasma parvum SV3F4 strain. Our previous study found that the SV3F4 strain carries 17 unique genes, which are not encoded in the two previously reported U. parvum serovar 3 strain, OMC-P162 and ATCC 700970. Of these 17 unique genes, UP3_c0261 and UP3_c0262, were originally annotated as encoding hypothetical proteins. Comparative genomics analyses more recently indicated they encode a Type II restriction endonuclease and an m6A methyltransferase, respectively. The UP3_c0261 and UP3_c0262 genes were individually expressed and purified in Escherichia coli. The UP3_c0261 recombinant protein showed endonuclease activity on the pT7Blue vector, recognizing and cleaving a GTNAC motif, resulting in a 5 base 5’ extension. The UP3_c0261 protein digested a polymerase chain reaction (PCR) product harboring the GTNAC motif. The endonuclease UP3_c0261 was designated as UpaF4I. Treatment of the PCR product with the recombinant protein UP3_c0262 completely blocked the restriction enzyme activity of UpaF4I. Analysis of the treated PCR product harboring a modified nucleotide by UP3_c0262 with HPLC-MS/MS and MS/MS showed that UP3_c0262 was an m6A methyltransferase containing a methylated A residue in both DNA strands of the GTNAC motif. Whole genome methylation analysis of SV3F4 showed that 99.9 % of the GTNAC motif was m6A modified. These results suggest the UP3_c0261 and UP3_c0262 genes may act as a novel Type II restriction-modification system in the Ureaplasma SV3F4 strain.

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鉴定副脲原体 SV3F4 株的内切酶和 N6-腺嘌呤甲基转移酶。

在此，我们报告了副猪脲原体 SV3F4 株系中的一种新型内切酶和 N6-腺嘌呤 DNA 甲基转移酶（m6A 甲基转移酶）。我们之前的研究发现，SV3F4 菌株携带有 17 个独特的基因，这些基因在之前报道的两个副猪脲原体血清 3 菌株（OMC-P162 和 ATCC 700970）中没有编码。在这 17 个独特基因中，UP3_c0261 和 UP3_c0262 最初被注释为编码假定蛋白。最近的比较基因组学分析表明，它们分别编码一种 II 型限制性内切酶和一种 m6A 甲基转移酶。UP3_c0261 和 UP3_c0262 基因分别在大肠杆菌中表达和纯化。UP3_c0261重组蛋白在pT7Blue载体上显示出内切酶活性，能识别并裂解GTNAC基序，导致5个碱基的5'延伸。UP3_c0261 蛋白消化了含有 GTNAC 基序的聚合酶链反应（PCR）产物。内切酶 UP3_c0261 被命名为 UpaF4I。用重组蛋白 UP3_c0262 处理 PCR 产物可完全阻断 UpaF4I 的限制酶活性。用 HPLC-MS/MS 和 MS/MS 分析被 UP3_c0262 处理过的 PCR 产物，发现 UP3_c0262 是一种 m6A 甲基转移酶，在 GTNAC 主题的两条 DNA 链上都含有一个被甲基化的 A 残基。对SV3F4的全基因组甲基化分析表明，99.9%的GTNAC图案被m6A修饰。这些结果表明，UP3_c0261和UP3_c0262基因可能是尿形支原体SV3F4菌株中一种新型的II型限制性修饰系统。

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来源期刊

Enzyme and Microbial Technology 生物-生物工程与应用微生物

CiteScore

7.60

自引率

5.90%

发文量

142

审稿时长

38 days

期刊介绍： Enzyme and Microbial Technology is an international, peer-reviewed journal publishing original research and reviews, of biotechnological significance and novelty, on basic and applied aspects of the science and technology of processes involving the use of enzymes, micro-organisms, animal cells and plant cells. We especially encourage submissions on: Biocatalysis and the use of Directed Evolution in Synthetic Biology and Biotechnology Biotechnological Production of New Bioactive Molecules, Biomaterials, Biopharmaceuticals, and Biofuels New Imaging Techniques and Biosensors, especially as applicable to Healthcare and Systems Biology New Biotechnological Approaches in Genomics, Proteomics and Metabolomics Metabolic Engineering, Biomolecular Engineering and Nanobiotechnology Manuscripts which report isolation, purification, immobilization or utilization of organisms or enzymes which are already well-described in the literature are not suitable for publication in EMT, unless their primary purpose is to report significant new findings or approaches which are of broad biotechnological importance. Similarly, manuscripts which report optimization studies on well-established processes are inappropriate. EMT does not accept papers dealing with mathematical modeling unless they report significant, new experimental data.