Structural Basis for Processivity and Single-Strand Specificity of RNase II

Structural Basis for Processivity and Single-Strand Specificity of RNase II

RNase II is a member of the widely distributed RNR family of exoribonucleases, which are highly processive 3′→5′ hydrolytic enzymes that play an important role in mRNA decay. Here, we report the crystal structure of E. coli RNase II, which reveals an architecture reminiscent of the RNA exosome. Thre...

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Veröffentlicht in:Molecular cell 2006-10, Vol.24 (1), p.149-156
Hauptverfasser: Zuo, Yuhong, Vincent, Helen A., Zhang, Jianwei, Wang, Yong, Deutscher, Murray P., Malhotra, Arun
Format: Artikel
Sprache:eng
Schlagworte:
Binding Sites
Crystallography, X-Ray
Escherichia coli
Escherichia coli - enzymology
Exoribonucleases - chemistry
Exoribonucleases - metabolism
Exoribonucleases - physiology
Models, Molecular
Protein Structure, Tertiary
RNA
RNA, Messenger - chemistry
RNA, Messenger - metabolism
Substrate Specificity
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Zusammenfassung:RNase II is a member of the widely distributed RNR family of exoribonucleases, which are highly processive 3′→5′ hydrolytic enzymes that play an important role in mRNA decay. Here, we report the crystal structure of E. coli RNase II, which reveals an architecture reminiscent of the RNA exosome. Three RNA-binding domains come together to form a clamp-like assembly, which can only accommodate single-stranded RNA. This leads into a narrow, basic channel that ends at the putative catalytic center that is completely enclosed within the body of the protein. The putative path for RNA agrees well with biochemical data indicating that a 3′ single strand overhang of 7–10 nt is necessary for binding and hydrolysis by RNase II. The presence of the clamp and the narrow channel provides an explanation for the processivity of RNase II and for why its action is limited to single-stranded RNA.
ISSN:1097-2765
1097-4164
DOI:10.1016/j.molcel.2006.09.004