Modomics - A Database of RNA Modifications

ID Card:

Full name: tRNA-dihydrouridine(20) synthase [NAD(P)+]-like
Synonym: DUS2L
GI: 8923374
COG: COG0042
UniProt: Q9NX74
Structures: | 4WFS | 4WFT | 4XP7 | 5OC4 | 5OC5 | 5OC6 | 6EI8 | 6EZA | 6EZB | 6EZC | 6F00 |
Alpha Fold Predicted Structure: AF-Q9NX74-F1
Enzyme type: dihydrouridine synthase


PDB Structures:


4WFS

Structure Description:

Title:
Classification:
Technique:

Abstract of the PDB Structure's related Publication:

In tRNA, dihydrouridine is a conserved modified base generated by the post-transcriptional reduction of uridine. Formation of dihydrouridine 20, located in the D-loop, is catalyzed by dihydrouridine synthase 2 (Dus2). Human Dus2 (HsDus2) expression is upregulated in lung cancers, offering a growth advantage throughout its ability to interact with components of the translation apparatus and inhibit apoptosis. Here, we report the crystal structure of the individual domains of HsDus2 and their functional characterization. HsDus2 is organized into three major modules. The N-terminal catalytic domain contains the flavin cofactor involved in the reduction of uridine. The second module is the conserved α-helical domain known as the tRNA binding domain in HsDus2 homologues. It is connected via a flexible linker to an unusual extended version of a dsRNA binding domain (dsRBD). Enzymatic assays and yeast complementation showed that the catalytic domain binds selectively NADPH but cannot reduce uridine in the absence of the dsRBD. While in Dus enzymes from bacteria, plants and fungi, tRNA binding is essentially achieved by the α-helical domain, we showed that in HsDus2 this function is carried out by the dsRBD. This is the first reported case of a tRNA-modifying enzyme carrying a dsRBD used to bind tRNAs.

Download RCSB-PDB Structures:

Pdb Files   4WFS.pdb   4WFT.pdb   4XP7.pdb   5OC4.pdb   5OC5.pdb   5OC6.pdb   6EI8.pdb   6EZA.pdb   6EZB.pdb   6EZC.pdb   6F00.pdb  
Pdbx/mmCIF Files   4WFS.cif   4WFT.cif   4XP7.cif   5OC4.cif   5OC5.cif   5OC6.cif   6EI8.cif   6EZA.cif   6EZB.cif   6EZC.cif   6F00.cif  


Protein sequence:

MILNSLSLCYHNKLILAPMVRVGTLPMRLLALDYGADIVYCEELIDLKMIQCKRVVNEVLSTVDFVAPDDRVVFRTCEREQNRVVFQMGTSDAERALAVARLVENDVAGIDVNMGCPKQYSTKGGMGAALLSDPDKIEKILSTLVKGTRRPVTCKIRILPSLEDTLSLVKRIERTGIAAIAVHGRKREERPQHPVSCEVIKAIADTLSIPVIANGGSHDHIQQYSDIEDFRQATAASSVMVARAAMWNPSIFLKEGLRPLEEVMQKYIRYAVQYDNHYTNTKYCLCQMLREQLESPQGRLLHAAQSSREICEAFGLGAFYEETTQELDAQQARLSAKTSEQTGEPAEDTSGVIKMAVKFDRRAYPAQITPKMCLLEWCRREKLAQPVYETVQRPLDRLFSSIVTVAEQKYQSTLWDKSKKLAEQAAAIVCLRSQGLPEGRLGEESPSLHKRKREAPDQDPGGPRAQELAQPGDLCKKPFVALGSGEESPLEGW

Comments:

hDUS2 shows 39% similarity to S. cerevisiae DUS2 and catalyzes the same D-formation in the D-loop of tRNA through reduction of uracil base with flavin mononucleotide (FMN) as a cofactor. This human Dus enzyme was shown to interact with a few tRNA synthetases (specific for Glu-Pro). hDus2 plays a role in pulmonary carcinogenesis.





Alpha Fold Predicted Structure:






Clear Selection and Reset Camera

Protein sequence:

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

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-Q9NX74-F1.pdb  
Alpha Fold Pdbx/mmCIF Files   AF-Q9NX74-F1.cif  
DSSP Secondary Structures   Q9NX74.dssp  





Publications:

Title Authors Journal Details PubMed Id DOI
A novel human tRNA-dihydrouridine synthase involved in pulmonary carcinogenesis. Kato T, Daigo Y, Hayama S, Ishikawa N, Yamabuki T, Ito T, Miyamoto M, Kondo S, Nakamura Y Cancer Res [details] 15994936 -
An extended dsRBD is required for post-transcriptional modification in human tRNAs. Bou-Nader C, Pecqueur L, Bregeon D, Kamah A, Guerineau V, Golinelli-Pimpaneau B, Guimaraes BG, Fontecave M, Hamdane D... Nucleic Acids Res [details] 26429968 -

Links:

_PubMed_