Modomics - A Database of RNA Modifications

ID Card:

Full name: rRNA adenine N-7-methyltransferase
Synonym: 16S rRNA (guanine(1405)-N(7))-methyltransferase
GI: 124021052
Orf: armA
COG: COG2813
UniProt: Q6F5A0
Structures: | 3FZG |
Alpha Fold Predicted Structure: AF-Q6F5A0-F1
Enzyme type: methyltransferase
Position of modification - modification: s:1405(1405) - m7G


PDB Structures:


3FZG

Structure Description:

Title:
Classification:
Technique:

Abstract of the PDB Structure's related Publication:

Aminoglycosides are used extensively for the treatment of severe infections due to Gram-negative bacteria. However, certain species have become highly resistant after acquisition of genes for methyltransferases which catalyze post-transcriptional methylation of N7-G1405 in 16 S rRNA of 30 S ribosomal subunits. Inactivation of this enzymatic activity is therefore an important challenge for development of an effective therapy. The present work describes the crystallographic structures of methyltransferases RmtB and ArmA from clinical isolates. Together with biochemical experiments, the 3D structures indicate that the N-terminal domain specific for this family of methyltransferases is required for enzymatic activity. Site-directed mutagenesis has enabled important residues for catalysis and RNA binding to be identified. These high-resolution structures should underpin the design of potential inhibitors of these enzymes, which could be used to restore the activity of aminoglycosides against resistant pathogens.

Download RCSB-PDB Structures:

Pdb Files   3FZG.pdb  
Pdbx/mmCIF Files   3FZG.cif  


Protein sequence:

MDKNDVVKKILESKKYENLDSDIVEKVVSISEKKYKLKEVENYSKKKLHQIWGSYYSAYPNWDKLLKKYNQGQLSIEDLLKIHSSTNERVATLNDFYTYVFGNIKHVSSILDFGCGFNPLALYQWNENEKIIYHAYDIDRAEIAFLSSIIGKLKTTIKYRFLNKESDVYKGTYDVVFLLKMLPVLKQQDVNILDFLQLFHTQNFVISFPIKSLSGKEKGMEENYQLWFESFTKGWIKILDSKVIGNELVYITSGFQK

Comments:

ArmA specifically methylates the N7 position of guanine 1405 in the SSU-16S rRNA subunit. It confers resistance to different aminoglycosides. The interplay between biochemical experiments and structural biological analyses shows that the N-terminal domain, specific for RmtB and ArmA, is required for their enzymatic activity, underpinning the design of the inhibitors of these enzymes that could be used to restore the activity of the aminoglycosides against resistant pathogens (Schmitt et al. 2009 ).




Reaction Substrate SubstrateType Position (Anti)Codon Modified (Anti)Codon Amino Acid Change Transcript Name Transcript Region Cellular Localization References
G:m7G rRNA   1405 SSU-16S cytosol 19303884   

Alpha Fold Predicted Structure:






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Protein sequence:

M D K N D V V K K I L E S K K Y E N L D S D I V E K V V S I S E K K Y K L K E V E N Y S K K K L H Q I W G S Y Y S A Y P N W D K L L K K Y N Q G Q L S I E D L L K I H S S T N E R V A T L N D F Y T Y V F G N I K H V S S I L D F G C G F N P L A L Y Q W N E N E K I I Y H A Y D I D R A E I A F L S S I I G K L K T T I K Y R F L N K E S D V Y K G T Y D V V F L L K M L P V L K Q Q D V N I L D F L Q L F H T Q N F V I S F P I K S L S G K E K G M E E N Y Q L W F E S F T K G W I K I L D S K V I G N E L V Y I T S G F Q 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-Q6F5A0-F1.pdb  
Alpha Fold Pdbx/mmCIF Files   AF-Q6F5A0-F1.cif  
DSSP Secondary Structures   Q6F5A0.dssp  





Publications:

Title Authors Journal Details PubMed Id DOI
Structural bases for 16 S rRNA methylation catalyzed by ArmA and RmtB methyltransferases. Schmitt E, Galimand M, Panvert M, Courvalin P, Mechulam Y J Mol Biol [details] 19303884 -
Plasmid-mediated 16S rRNA methylases among extended-spectrum beta-lactamase-producing Enterobacteriaceae isolates. Bercot B, Poirel L, Nordmann P Antimicrob Agents Chemother [details] 18838598 -