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8FFI

Structure of tetramerized MapSPARTA upon guide RNA-mediated target DNA binding

Summary for 8FFI
Entry DOI10.2210/pdb8ffi/pdb
EMDB information29043 29219 29222 29223 29224 29225 29226
DescriptorTIR-APAZ, short pAgo, guide RNA, ... (5 entities in total)
Functional Keywordspago, sparta, argonuare, oligomerization, tir domain, nad, immune system
Biological sourceMaribacter polysiphoniae
More
Total number of polymer chains16
Total formula weight502853.03
Authors
Shen, Z.F.,Yang, X.Y.,Fu, T.M. (deposition date: 2022-12-08, release date: 2023-08-23, Last modification date: 2023-09-20)
Primary citationShen, Z.,Yang, X.Y.,Xia, S.,Huang, W.,Taylor, D.J.,Nakanishi, K.,Fu, T.M.
Oligomerization-mediated activation of a short prokaryotic Argonaute.
Nature, 621:154-161, 2023
Cited by
PubMed Abstract: Although eukaryotic and long prokaryotic Argonaute proteins (pAgos) cleave nucleic acids, some short pAgos lack nuclease activity and hydrolyse NAD(P) to induce bacterial cell death. Here we present a hierarchical activation pathway for SPARTA, a short pAgo consisting of an Argonaute (Ago) protein and TIR-APAZ, an associated protein. SPARTA progresses through distinct oligomeric forms, including a monomeric apo state, a monomeric RNA-DNA-bound state, two dimeric RNA-DNA-bound states and a tetrameric RNA-DNA-bound active state. These snapshots together identify oligomerization as a mechanistic principle of SPARTA activation. The RNA-DNA-binding channel of apo inactive SPARTA is occupied by an auto-inhibitory motif in TIR-APAZ. After the binding of RNA-DNA, SPARTA transitions from a monomer to a symmetric dimer and then an asymmetric dimer, in which two TIR domains interact through charge and shape complementarity. Next, two dimers assemble into a tetramer with a central TIR cluster responsible for hydrolysing NAD(P). In addition, we observe unique features of interactions between SPARTA and RNA-DNA, including competition between the DNA 3' end and the auto-inhibitory motif, interactions between the RNA G2 nucleotide and Ago, and splaying of the RNA-DNA duplex by two loops exclusive to short pAgos. Together, our findings provide a mechanistic basis for the activation of short pAgos, a large section of the Ago superfamily.
PubMed: 37494956
DOI: 10.1038/s41586-023-06456-z
PDB entries with the same primary citation
Experimental method
ELECTRON MICROSCOPY (2.7 Å)
Structure validation

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