Yuxuan Zheng scite author profile

ADARs (adenosine deaminases acting on RNA) are editing enzymes that convert adenosine (A) to inosine (I) in duplex RNA, a modification reaction with wide-ranging consequences on RNA function. Our understanding of the ADAR reaction mechanism, origin of editing site selectivity and effect of mutations is limited by the lack of high-resolution structural data for complexes of ADARs bound to substrate RNAs. Here we describe four crystal structures of the deaminase domain of human ADAR2 bound to RNA duplexes bearing a mimic of the deamination reaction intermediate. These structures, together with structure-guided mutagenesis and RNA-modification experiments, explain the basis for ADAR deaminase domain’s dsRNA specificity, its base-flipping mechanism, and nearest neighbor preferences. In addition, an ADAR2-specific RNA-binding loop was identified near the enzyme active site rationalizing differences in selectivity observed between different ADARs. Finally, our results provide a structural framework for understanding the effects of ADAR mutations associated with human disease.

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Single-Cell Transcriptomic Atlas of Primate Ovarian Aging

Wang

Zheng

et al. 2020

Cell

401

333

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Yuxuan Zheng

Single-Cell Transcriptome Analysis Maps the Developmental Track of the Human Heart

Single-cell RNA-seq analysis reveals the progression of human osteoarthritis

Structures of human ADAR2 bound to dsRNA reveal base-flipping mechanism and basis for site selectivity

Single-Cell Transcriptomic Atlas of Primate Ovarian Aging

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