小鼠DNA甲基转移酶Dnmt3a的保守基序VIII对甲基化活性至关重要。

Conserved motif VIII of murine DNA methyltransferase Dnmt3a is essential for methylation activity.

作者信息

Lukashevich Olga V, Cherepanova Natalia A, Jurkovska Renata Z, Jeltsch Albert, Gromova Elizaveta S

机构信息

Department of Chemistry, Moscow State University, 119991, Moscow, Russia.

BioMedX Innovation Center, Im Neuenheimer Feld 583, 69120, Heidelberg, Germany.

出版信息

BMC Biochem. 2016 Mar 22;17:7. doi: 10.1186/s12858-016-0064-y.

DOI:10.1186/s12858-016-0064-y

PMID:27001594

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4802922/

Abstract

BACKGROUND

Dnmt3a is a DNA methyltransferase that establishes de novo DNA methylation in mammals. The structure of the Dnmt3a C-terminal domain is similar to the bacterial M. HhaI enzyme, a well-studied prokaryotic DNA methyltransferase. No X-ray structure is available for the complex of Dnmt3a with DNA and the mechanistic details of DNA recognition and catalysis by mammalian Dnmts are not completely understood.

RESULTS

Mutant variants of the catalytic domain of the murine Dnmt3a carrying substitutions of highly conserved N167, R200, and R202 have been generated by site directed mutagenesis and purified. Their methylation activity, DNA binding affinity, ability to flip the target cytosine out of the DNA double helix and covalent complex formation with DNA have been examined. Substitutions of N167 lead to reduced catalytic activity and reduced base flipping. Catalytic activity, base flipping, and covalent conjugate formation were almost completely abolished for the mutant enzymes with substitutions of R200 or R202.

CONCLUSIONS

We conclude that R202 plays a similar role in catalysis in Dnmt3a-CD as R232 in M.SssI and R165 in M.HhaI, which could be positioning of the cytosine for nucleophilic attack by a conserved Cys. R200 of Dnmt3a-CD is important in both catalysis and cytosine flipping. Both conserved R200 and R202 are involved in creating and stabilizing of the transient covalent intermediate of the methylation reaction. N167 might contribute to the positioning of the residues from the motif VI, but does not play a direct role in catalysis.

摘要

背景

Dnmt3a是一种在哺乳动物中建立从头DNA甲基化的DNA甲基转移酶。Dnmt3a C末端结构域的结构与细菌M. HhaI酶相似，后者是一种经过充分研究的原核DNA甲基转移酶。目前尚无Dnmt3a与DNA复合物的X射线结构，哺乳动物DNA甲基转移酶对DNA识别和催化的机制细节尚未完全了解。

结果

通过定点诱变产生并纯化了携带高度保守的N167、R200和R202替代的小鼠Dnmt3a催化结构域的突变变体。检测了它们的甲基化活性、DNA结合亲和力、将目标胞嘧啶从DNA双螺旋中翻转出来的能力以及与DNA形成共价复合物的能力。N167的替代导致催化活性降低和碱基翻转减少。对于R200或R202替代的突变酶，催化活性、碱基翻转和共价共轭形成几乎完全被消除。

结论

我们得出结论，R202在Dnmt3a-CD中的催化作用与M.SssI中的R232和M.HhaI中的R165相似，这可能是将胞嘧啶定位以便被保守的半胱氨酸进行亲核攻击。Dnmt3a-CD的R200在催化和胞嘧啶翻转中都很重要。保守的R200和R202都参与甲基化反应瞬时共价中间体的形成和稳定。N167可能有助于基序VI中残基的定位，但在催化中不发挥直接作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3589/4802922/c7cf89f8a635/12858_2016_64_Fig1_HTML.jpg

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小鼠DNA甲基转移酶Dnmt3a的保守基序VIII对甲基化活性至关重要。

Conserved motif VIII of murine DNA methyltransferase Dnmt3a is essential for methylation activity.

作者信息

Lukashevich Olga V, Cherepanova Natalia A, Jurkovska Renata Z, Jeltsch Albert, Gromova Elizaveta S

机构信息

Department of Chemistry, Moscow State University, 119991, Moscow, Russia.

BioMedX Innovation Center, Im Neuenheimer Feld 583, 69120, Heidelberg, Germany.