N端结构转换在区分结合小RNA的AGO和游离AGO中的重要性。

Importance of an N-terminal structural switch in the distinction between small RNA-bound and free ARGONAUTE.

作者信息

Bressendorff Simon, Sjøgaard Ida Marie Zobbe, Prestel Andreas, Voutsinos Vasileios, Jansson Martin D, Ménard Patrice, Lund Anders H, Hartmann-Petersen Rasmus, Kragelund Birthe B, Poulsen Christian, Brodersen Peter

机构信息

Copenhagen Plant Science Center, Department of Biology, University of Copenhagen, Copenhagen, Denmark.

Structural Biology and NMR Laboratory, Department of Biology, University of Copenhagen, Copenhagen, Denmark.

出版信息

Nat Struct Mol Biol. 2025 Apr;32(4):625-638. doi: 10.1038/s41594-024-01446-9. Epub 2025 Jan 7.

DOI:10.1038/s41594-024-01446-9

PMID:39774835

Abstract

ARGONAUTE (AGO) proteins bind to small non-coding RNAs to form RNA-induced silencing complexes. In the RNA-bound state, AGO is stable while RNA-free AGO turns over rapidly. Molecular features unique to RNA-free AGO that allow its specific recognition and degradation remain unknown. Here, we identify a confined, linear region in Arabidopsis AGO1 and human Ago2, the N-coil, as a structural switch with preferential accessibility in the RNA-free state. RNA-free Arabidopsis AGO1 interacts with the autophagy cargo receptor ATI1 by direct contact with specific N-coil amino acid residues whose mutation reduces the degradation rate of RNA-free AGO1 in vivo. The N-coil of human Ago2 has similar degron activity dependent on residues in positions equivalent to those required for the Arabidopsis AGO1-ATI1 interaction. These results elucidate the molecular basis for specific recognition and degradation of the RNA-free state of eukaryotic AGO proteins.

摘要

AGO（Argonaute）蛋白与小非编码RNA结合形成RNA诱导沉默复合体。在与RNA结合的状态下，AGO是稳定的，而游离RNA的AGO则迅速周转。游离RNA的AGO所特有的允许其被特异性识别和降解的分子特征仍然未知。在这里，我们在拟南芥AGO1和人类Ago2中鉴定出一个受限的线性区域，即N-螺旋，作为在游离RNA状态下具有优先可及性的结构开关。游离RNA的拟南芥AGO1通过与特定的N-螺旋氨基酸残基直接接触，与自噬货物受体ATI1相互作用，这些氨基酸残基的突变降低了游离RNA的AGO1在体内的降解速率。人类Ago2的N-螺旋具有类似的降解结构域活性，其依赖于与拟南芥AGO1-ATI1相互作用所需位置等效的残基。这些结果阐明了真核生物AGO蛋白游离RNA状态被特异性识别和降解的分子基础。

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N端结构转换在区分结合小RNA的AGO和游离AGO中的重要性。

Importance of an N-terminal structural switch in the distinction between small RNA-bound and free ARGONAUTE.

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