Department of Pharmacological Sciences, Icahn School of Medicine at Mount Sinai, New York, NY, 10029, USA.
Department of Antiviral Drug Research, Institute of Advanced Virology, Thiruvananthapuram, Kerala, 695317, India.
Nat Commun. 2024 Jun 6;15(1):4852. doi: 10.1038/s41467-024-49271-4.
A short prokaryotic Argonaute (pAgo) TIR-APAZ (SPARTA) defense system, activated by invading DNA to unleash its TIR domain for NAD(P) hydrolysis, was recently identified in bacteria. We report the crystal structure of SPARTA heterodimer in the absence of guide-RNA/target-ssDNA (2.66 Å) and a cryo-EM structure of the SPARTA oligomer (tetramer of heterodimers) bound to guide-RNA/target-ssDNA at nominal 3.15-3.35 Å resolution. The crystal structure provides a high-resolution view of SPARTA, revealing the APAZ domain as equivalent to the N, L1, and L2 regions of long pAgos and the MID domain containing a unique insertion (insert57). Cryo-EM structure reveals regions of the PIWI (loop10-9) and APAZ (helix αN) domains that reconfigure for nucleic-acid binding and decrypts regions/residues that reorganize to expose a positively charged pocket for higher-order assembly. The TIR domains amass in a parallel-strands arrangement for catalysis. We visualize SPARTA before and after RNA/ssDNA binding and uncover the basis of its active assembly leading to abortive infection.
一种短的原核 Argonaute(pAgo)TIR-APAZ(SPARTA)防御系统,被入侵的 DNA 激活,释放其 TIR 结构域用于 NAD(P)水解,最近在细菌中被发现。我们报告了 SPARTA 异二聚体在没有指导 RNA/靶 ssDNA 的情况下的晶体结构(2.66Å)和 SPARTA 寡聚体(异二聚体的四聚体)与指导 RNA/靶 ssDNA 结合的 cryo-EM 结构,分辨率为名义上的 3.15-3.35Å。晶体结构提供了 SPARTA 的高分辨率视图,揭示了 APAZ 结构域与长 pAgos 的 N、L1 和 L2 区域等效,而 MID 结构域包含一个独特的插入(插入 57)。cryo-EM 结构揭示了 PIWI(loop10-9)和 APAZ(αN 螺旋)结构域的区域为核酸结合而重新配置,并解密了重新组织以暴露正电荷口袋用于更高阶组装的区域/残基。TIR 结构域在平行链排列中聚集以进行催化。我们在 RNA/ssDNA 结合前后可视化 SPARTA,并揭示其导致中止感染的活性组装的基础。
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