Modomics - A Database of RNA Modifications

ID Card:

Full name: rRNA methyltransferase 2, mitochondrial
Synonym: FTSJ2, FJH1
GI: 7019377
COG: COG0293
UniProt: Q9UI43
Structures: | 2NYU | 7O9K | 7O9M | 7ODS |
Alpha Fold Predicted Structure: AF-Q9UI43-F1
Enzyme type: methyltransferase
Position of modification - modification: l:1369(2552) - Um


PDB Structures:


2NYU

Structure Description:

Title:
Classification:
Technique:

Abstract of the PDB Structure's related Publication:

Mitochondrial ribosomes (mitoribosomes) synthesize a critical set of proteins essential for oxidative phosphorylation. Therefore, mitoribosomal function is vital to the cellular energy supply. Mitoribosome biogenesis follows distinct molecular pathways that remain poorly understood. Here, we determine the cryo-EM structures of mitoribosomes isolated from human cell lines with either depleted or overexpressed mitoribosome assembly factor GTPBP5, allowing us to capture consecutive steps during mitoribosomal large subunit (mt-LSU) biogenesis. Our structures provide essential insights into the last steps of 16S rRNA folding, methylation and peptidyl transferase centre (PTC) completion, which require the coordinated action of nine assembly factors. We show that mammalian-specific MTERF4 contributes to the folding of 16S rRNA, allowing 16 S rRNA methylation by MRM2, while GTPBP5 and NSUN4 promote fine-tuning rRNA rearrangements leading to PTC formation. Moreover, our data reveal an unexpected involvement of the elongation factor mtEF-Tu in mt-LSU assembly, where mtEF-Tu interacts with GTPBP5, similar to its interaction with tRNA during translational elongation.

Download RCSB-PDB Structures:

Pdb Files   2NYU.pdb  
Pdbx/mmCIF Files   2NYU.cif   7O9K.cif   7O9M.cif   7ODS.cif  


Protein sequence:

MAGYLKLVCVSFQRQGFHTVGSRCKNRTGAEHLWLTRHLRDPFVKAAKVESYRCRSAFKLLEVNERHQILRPGLRVLDCGAAPGAWSQVAVQKVNAAGTDPSSPVGFVLGVDLLHIFPLEGATFLCPADVTDPRTSQRILEVLPGRRADVILSDMAPNATGFRDLDHDRLISLCLTLLSVTPDILQPGGTFLCKTWAGSQSRRLQRRLTEEFQNVRIIKPEASRKESSEVYFLATQYHGRKGTVKQ

Comments:

Mitochondrial.




Reaction Substrate SubstrateType Position (Anti)Codon Modified (Anti)Codon Amino Acid Change Transcript Name Transcript Region Cellular Localization References
U:Um rRNA (r) LSU/16S/mitochondrion 1369 25074936   

Alpha Fold Predicted Structure:






Clear Selection and Reset Camera

Protein sequence:

M A G Y L K L V C V S F Q R Q G F H T V G S R C K N R T G A E H L W L T R H L R D P F V K A A K V E S Y R C R S A F K L L E V N E R H Q I L R P G L R V L D C G A A P G A W S Q V A V Q K V N A A G T D P S S P V G F V L G V D L L H I F P L E G A T F L C P A D V T D P R T S Q R I L E V L P G R R A D V I L S D M A P N A T G F R D L D H D R L I S L C L T L L S V T P D I L Q P G G T F L C K T W A G S Q S R R L Q R R L T E E F Q N V R I I K P E A S R K E S S E V Y F L A T Q Y H G R K G T V K Q

Secondary Structure Alphabet

  • G: 3-turn helix (310helix)
  • H: α-helix
  • I: 𝝅-helix (5 - turn helix)
  • T: Hydrogen Bonded Turn
  • B: β-sheet
  • S: Bend
  • C: Coil (residues not present in any of the above conformations)
  • N: Not assigned

Download PDB Structures & DSSP Secondary Structures:

Alpha Fold Pdb Files   AF-Q9UI43-F1.pdb  
Alpha Fold Pdbx/mmCIF Files   AF-Q9UI43-F1.cif  
DSSP Secondary Structures   Q9UI43.dssp  





Publications:

Title Authors Journal Details PubMed Id DOI
Assignment of 2'-O-methyltransferases to Modification Sites on the Mammalian Mitochondrial Large Subunit 16S rRNA. Lee KW, Bogenhagen DF... J Biol Chem [details] 25074936 -
MRM2 and MRM3 are involved in biogenesis of the large subunit of the mitochondrial ribosome. Rorbach J, Boesch P, Gammage PA, Nicholls TJ, Pearce SF, Patel D, Hauser A, Perocchi F, Minczuk M Mol Biol Cell [details] 25009282 10.1091/mbc.E14-01-0014