Modomics - A Database of RNA Modifications

ID Card:

Full name: apolipoprotein B mRNA editing enzyme catalytic subunit 3A
Synonym: ARP3,PHRBN
GI: 814603379
UniProt: P31941
Structures: | 2M65 | 4XXO | 5KEG | 5SWW | 7D3V | 7D3W | 7D3X |
Alpha Fold Predicted Structure: AF-P31941-F1


PDB Structures:


2M65

Structure Description:

Title:
Classification:
Technique:

Abstract of the PDB Structure's related Publication:

Human APOBEC3A is a single-stranded DNA cytidine deaminase that restricts viral pathogens and endogenous retrotransposons, and has a role in the innate immune response. Furthermore, its potential to act as a genomic DNA mutator has implications for a role in carcinogenesis. A deeper understanding of APOBEC3A's deaminase and nucleic acid-binding properties, which is central to its biological activities, has been limited by the lack of structural information. Here we report the nuclear magnetic resonance solution structure of APOBEC3A and show that the critical interface for interaction with single-stranded DNA substrates includes residues extending beyond the catalytic centre. Importantly, by monitoring deaminase activity in real time, we find that A3A displays similar catalytic activity on APOBEC3A-specific TTCA- or A3G-specific CCCA-containing substrates, involving key determinants immediately 5' of the reactive C. Our results afford novel mechanistic insights into APOBEC3A-mediated deamination and provide the structural basis for further molecular studies.

Download RCSB-PDB Structures:

Pdb Files   2M65.pdb   4XXO.pdb   5KEG.pdb   5SWW.pdb   7D3V.pdb   7D3W.pdb   7D3X.pdb  
Pdbx/mmCIF Files   2M65.cif   4XXO.cif   5KEG.cif   5SWW.cif   7D3V.cif   7D3W.cif   7D3X.cif  


Protein sequence:

MEASPASGPRHLMDPHIFTSNFNNGIGRHKTYLCYEVERLDNGTSVKMDQHRGFLHNQAKNLLCGFYGRHAELRFLDLVPSLQLDPAQIYRVTWFISWSPCFSWGCAGEVRAFLQENTHVRLRIFAARIYDYDPLYKEALQMLRDAGAQVSIMTYDEFKHCWDTFVDHQGCPFQPWDGLDEHSQALSGRLRAILQNQGN

Comments:

None





Alpha Fold Predicted Structure:






Clear Selection and Reset Camera

Protein sequence:

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

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-P31941-F1.pdb  
Alpha Fold Pdbx/mmCIF Files   AF-P31941-F1.cif  
DSSP Secondary Structures   P31941.dssp  





Diseases connected to this enzyme:

Description Reaction Disease Name
RNA editing of A3A induces changes in WT1 mRNA which correspond to driver cancer mutations suggests a potential role for this novel modification in cancer mutagenesis C:U
Wilms tumor and
RNA editing of A3A induces changes in WT1 mRNA which correspond to driver cancer mutations suggests a potential role for this novel modification in cancer mutagenesis C:U
Acute Myeloid Leukemia

Publications:

Title Authors Journal Details PubMed Id DOI