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-Structure paper
| タイトル | Coordination of phage genome degradation versus host genome protection by a bifunctional restriction-modification enzyme visualized by CryoEM. |
|---|---|
| ジャーナル・号・ページ | Structure, Vol. 29, Issue 6, Page 521-530.e5, Year 2021 |
| 掲載日 | 2021年6月3日 |
 著者 | Betty W Shen / Joel D Quispe / Yvette Luyten / Benjamin E McGough / Richard D Morgan / Barry L Stoddard /  |
| PubMed 要旨 | Restriction enzymes that combine methylation and cleavage into a single assemblage and modify one DNA strand are capable of efficient adaptation toward novel targets. However, they must reliably ...Restriction enzymes that combine methylation and cleavage into a single assemblage and modify one DNA strand are capable of efficient adaptation toward novel targets. However, they must reliably cleave invasive DNA and methylate newly replicated unmodified host sites. One possible solution is to enforce a competition between slow methylation at a single unmodified host target, versus faster cleavage that requires multiple unmodified target sites in foreign DNA to be brought together in a reaction synapse. To examine this model, we have determined the catalytic behavior of a bifunctional type IIL restriction-modification enzyme and determined its structure, via cryoelectron microscopy, at several different stages of assembly and coordination with bound DNA targets. The structures demonstrate a mechanism in which an initial dimer is formed between two DNA-bound enzyme molecules, positioning the endonuclease domain from each enzyme against the other's DNA and requiring further additional DNA-bound enzyme molecules to enable cleavage. |
 リンク | Structure / PubMed:33826880 / PubMed Central |
| 手法 | EM (単粒子) |
| 解像度 | 2.86 - 3.25 Å |
| 構造データ | EMDB-23461, PDB-7lo5: EMDB-23543, PDB-7lvv: |
| 化合物 |  ChemComp-SAM:  ChemComp-CA: |
| 由来 |
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 キーワード | HYDROLASE/DNA /  inhibitor (酵素阻害剤) / Complex / endonuclease (エンドヌクレアーゼ) / methyl transferase (メチルトランスフェラーゼ) / TypeIIL RM system / HYDROLASE (加水分解酵素) / HYDROLASE-DNA complex |
Deinococcus wulumuqiensis 479 (バクテリア)