Distinction between small RNA-bound and free ARGONAUTE via an N-terminal protein-protein interaction site
Bressendorff, S.; Sjogaard, I. M. Z.; Oksbjerg, E. D.; Kausika, S.; Michels, A.; Prestel, A.; Kragelund, B. B.; Poulsen, C.; Brodersen, P.
Show abstract
ARGONAUTE (AGO) proteins bind to small non-coding RNAs to form RNA Induced Silencing Complexes (RISCs). In the RNA-bound state, AGO proteins are stable while RNA-free AGOs turn over rapidly. Molecular determinants unique to RNA-free AGO that allow its specific recognition and degradation remain unknown. Here, we show that a confined, linear region in Arabidopsis AGO1, the N-coil, is accessible to antibodies preferentially in the RNA-free state of AGO1. Reanalysis of hydrogen-deuterium exchange data on human Ago2 indicates similar structural flexibility of the N-coil depending on small RNA binding. Unloaded Arabidopsis AGO1 interacts with the autophagy cargo receptor ATI1 via direct contact to specific amino acid residues in the N-coil, and mutation of residues required for ATI1 interaction reduces the degradation rate of unloaded AGO1 in vivo. These results provide insight into the molecular basis for specific recognition and degradation of the RNA-free state of eukaryotic AGO proteins.
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