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9B0E

Cryo-EM Structure of E.coli produced recombinant N-acetyltransferase 10 (NAT10) in complex with cytidine-amide-CoA bisubstrate probe and ADP

This is a non-PDB format compatible entry.
Summary for 9B0E
Entry DOI10.2210/pdb9b0e/pdb
EMDB information44038
DescriptorRNA cytidine acetyltransferase, ADENOSINE-5'-DIPHOSPHATE, [[(2~{R},3~{S},4~{S},5~{R})-5-(6-aminopurin-9-yl)-4-oxidanyl-3-phosphonooxy-oxolan-2-yl]methoxy-oxidanyl-phosphoryl] [(3~{R})-4-[[3-[2-[2-[[1-[(2~{R},3~{S},4~{R},5~{R})-5-(hydroxymethyl)-3,4-bis(oxidanyl)oxolan-2-yl]-2-oxidanylidene-pyrimidin-4-yl]amino]-2-oxidanylidene-ethyl]sulfanylethylamino]-3-oxidanylidene-propyl]amino]-2,2-dimethyl-3-oxidanyl-4-oxidanylidene-butyl] hydrogen phosphate (3 entities in total)
Functional Keywordsrna binding protein, ac4c modification, rna acetyltransferase
Biological sourceThermochaetoides thermophila DSM 1495
Total number of polymer chains2
Total formula weight245907.77
Authors
Zhou, M.,Marmorstein, R. (deposition date: 2024-03-12, release date: 2024-09-11)
Primary citationZhou, M.,Gamage, S.T.,Tran, K.A.,Bartee, D.,Wei, X.,Yin, B.,Berger, S.,Meier, J.L.,Marmorstein, R.
Molecular Basis for RNA Cytidine Acetylation by NAT10.
Biorxiv, 2024
Cited by
PubMed Abstract: Human NAT10 acetylates the N4 position of cytidine in RNA, predominantly on rRNA and tRNA, to facilitate ribosome biogenesis and protein translation. NAT10 has been proposed as a therapeutic target in cancers as well as aging-associated pathologies such as Hutchinson-Gilford Progeria Syndrome (HGPS). The ∼120 kDa NAT10 protein uses its acetyl-CoA-dependent acetyltransferase, ATP-dependent helicase, and RNA binding domains in concert to mediate RNA-specific N4-cytidine acetylation. While the biochemical activity of NAT10 is well known, the molecular basis for catalysis of eukaryotic RNA acetylation remains relatively undefined. To provide molecular insights into the RNA-specific acetylation by NAT10, we determined the single particle cryo-EM structures of NAT10 ( NAT10) bound to a bisubstrate cytidine-CoA probe with and without ADP. The structures reveal that NAT10 forms a symmetrical heart-shaped dimer with conserved functional domains surrounding the acetyltransferase active sites harboring the cytidine-CoA probe. Structure-based mutagenesis with analysis of mutants supports the catalytic role of two conserved active site residues (His548 and Tyr549 in NAT10), and two basic patches, both proximal and distal to the active site for RNA-specific acetylation. Yeast complementation analyses and senescence assays in human cells also implicates NAT10 catalytic activity in yeast thermoadaptation and cellular senescence. Comparison of the NAT10 structure to protein lysine and N-terminal acetyltransferase enzymes reveals an unusually open active site suggesting that these enzymes have been evolutionarily tailored for RNA recognition and cytidine-specific acetylation.
PubMed: 38585770
DOI: 10.1101/2024.03.27.587050
PDB entries with the same primary citation
Experimental method
ELECTRON MICROSCOPY (3.19 Å)
Structure validation

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PDB entries from 2024-11-13

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