The clade-specific target recognition mechanisms of plant RISCs

Eukaryotic Argonaut proteins (AGOs) assemble RNA-induced silencing complexes (RISCs) with guide RNAs that allow binding to complementary RNA sequences and subsequent silencing of target genes. The model plant Arabidopsis thaliana encodes 10 different AGOs, categorized into three distinct clades base...

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Veröffentlicht in:	Nucleic acids research 2024-06, Vol.52 (11), p.6662-6673
1. Verfasser:	Iwakawa, Hiro-Oki
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Schlagworte:	Arabidopsis - genetics Arabidopsis - immunology Arabidopsis - metabolism Arabidopsis Proteins - genetics Arabidopsis Proteins - metabolism Argonaute Proteins - genetics Argonaute Proteins - metabolism Base Pair Mismatch DNA, Plant - genetics DNA, Plant - metabolism Protein Binding RNA and RNA-protein complexes RNA Interference RNA, Plant - chemistry RNA, Plant - genetics RNA, Plant - metabolism RNA-Induced Silencing Complex - genetics RNA-Induced Silencing Complex - metabolism
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description	Eukaryotic Argonaut proteins (AGOs) assemble RNA-induced silencing complexes (RISCs) with guide RNAs that allow binding to complementary RNA sequences and subsequent silencing of target genes. The model plant Arabidopsis thaliana encodes 10 different AGOs, categorized into three distinct clades based on amino acid sequence similarity. While clade 1 and 2 RISCs are known for their roles in post-transcriptional gene silencing, and clade 3 RISCs are associated with transcriptional gene silencing in the nucleus, the specific mechanisms of how RISCs from each clade recognize their targets remain unclear. In this study, I conducted quantitative binding analyses between RISCs and target nucleic acids with mismatches at various positions, unveiling distinct target binding characteristics unique to each clade. Clade 1 and 2 RISCs require base pairing not only in the seed region but also in the 3' supplementary region for stable target RNA binding, with clade 1 exhibiting a higher stringency. Conversely, clade 3 RISCs tolerate dinucleotide mismatches beyond the seed region. Strikingly, they bind to DNA targets with an affinity equal to or surpassing that of RNA, like prokaryotic AGO complexes. These insights challenge existing views on plant RNA silencing and open avenues for exploring new functions of eukaryotic AGOs.
doi_str_mv	10.1093/nar/gkae257
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The model plant Arabidopsis thaliana encodes 10 different AGOs, categorized into three distinct clades based on amino acid sequence similarity. While clade 1 and 2 RISCs are known for their roles in post-transcriptional gene silencing, and clade 3 RISCs are associated with transcriptional gene silencing in the nucleus, the specific mechanisms of how RISCs from each clade recognize their targets remain unclear. In this study, I conducted quantitative binding analyses between RISCs and target nucleic acids with mismatches at various positions, unveiling distinct target binding characteristics unique to each clade. Clade 1 and 2 RISCs require base pairing not only in the seed region but also in the 3' supplementary region for stable target RNA binding, with clade 1 exhibiting a higher stringency. Conversely, clade 3 RISCs tolerate dinucleotide mismatches beyond the seed region. 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The model plant Arabidopsis thaliana encodes 10 different AGOs, categorized into three distinct clades based on amino acid sequence similarity. While clade 1 and 2 RISCs are known for their roles in post-transcriptional gene silencing, and clade 3 RISCs are associated with transcriptional gene silencing in the nucleus, the specific mechanisms of how RISCs from each clade recognize their targets remain unclear. In this study, I conducted quantitative binding analyses between RISCs and target nucleic acids with mismatches at various positions, unveiling distinct target binding characteristics unique to each clade. Clade 1 and 2 RISCs require base pairing not only in the seed region but also in the 3' supplementary region for stable target RNA binding, with clade 1 exhibiting a higher stringency. Conversely, clade 3 RISCs tolerate dinucleotide mismatches beyond the seed region. 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subjects	Arabidopsis - genetics Arabidopsis - immunology Arabidopsis - metabolism Arabidopsis Proteins - genetics Arabidopsis Proteins - metabolism Argonaute Proteins - genetics Argonaute Proteins - metabolism Base Pair Mismatch DNA, Plant - genetics DNA, Plant - metabolism Protein Binding RNA and RNA-protein complexes RNA Interference RNA, Plant - chemistry RNA, Plant - genetics RNA, Plant - metabolism RNA-Induced Silencing Complex - genetics RNA-Induced Silencing Complex - metabolism
title	The clade-specific target recognition mechanisms of plant RISCs
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