Modomics - A Database of RNA Modifications

ID Card:

Full name: tRNA (mnm(5)s(2)U34)-methyltransferase
UniProt: O34614
Structures: | 8H0T | 8H0S |
Alpha Fold Predicted Structure: AF-O34614-F1
Enzyme type: methyltransferase


PDB Structures:


8H0T

Structure Description:

Title:
Classification:
Technique:

Abstract of the PDB Structure's related Publication:

The uridine at the 34th position of tRNA, which is able to base pair with the 3'-end codon on mRNA, is usually modified to influence many aspects of decoding properties during translation. Derivatives of 5-methyluridine (xm5U), which include methylaminomethyl (mnm-) or carboxymethylaminomethyl (cmnm-) groups at C5 of uracil base, are widely conserved at the 34th position of many prokaryotic tRNAs. In Gram-negative bacteria such as Escherichia coli, a bifunctional MnmC is involved in the last two reactions of the biosynthesis of mnm5(s2)U, in which the enzyme first converts cmnm5(s2)U to 5-aminomethyl-(2-thio)uridine (nm5(s2)U) and subsequently installs the methyl group to complete the formation of mnm5(s2)U. Although mnm5s2U has been identified in tRNAs of Gram-positive bacteria and plants as well, their genomes do not contain an mnmC ortholog and the gene(s) responsible for this modification is unknown. We discovered that MnmM, previously known as YtqB, is the methyltransferase that converts nm5s2U to mnm5s2U in Bacillus subtilis through comparative genomics, gene complementation experiments, and in vitro assays. Furthermore, we determined X-ray crystal structures of MnmM complexed with anticodon stem loop of tRNAGln. The structures provide the molecular basis underlying the importance of U33-nm5s2U34-U35 as the key determinant for the specificity of MnmM.

Download RCSB-PDB Structures:

Pdb Files   8H0S.pdb   8H0T.pdb  
Pdbx/mmCIF Files   8H0S.cif   8H0T.cif  


Protein sequence:

MILKKILPYSKELLKMAAGEGDIVVDATMGNGHDTQFLAELVGENGHVYAFDIQESAVANTKERLGDMYQARTTLFHKSHDKIAESLPPETHGKVAAAVFNLGYLPGGDKSITTNGSSTIKAIEQLLSIMKDEGLIVLVVYHGHPEGKAEKNDVLEFCRDLDQQTARVLTYGFINQQNDPPFIVAIEKKAQISK

Comments:





Alpha Fold Predicted Structure:






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Protein sequence:

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

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-O34614-F1.pdb  
Alpha Fold Pdbx/mmCIF Files   AF-O34614-F1.cif  
DSSP Secondary Structures   O34614.dssp  





Publications:

Title Authors Journal Details PubMed Id DOI
Identification of a novel 5-aminomethyl-2-thiouridine methyltransferase in tRNA modification. Cho, G., Lee, J., Kim, J. [details] 36762482 doi.org/10.1093/nar/gkad048