ISDA

Deposition Date 2017-12-03

Release Date 2018-01-03

Last Version Date 2024-05-22

Entry Detail

PDB ID:

6BSH

Keywords:

viral protein/dna/rna/inhibitor

Title:

Structure of HIV-1 RT complexed with RNA/DNA hybrid in the RNA hydrolysis mode

Biological Source:

Source Organism:

Human immunodeficiency virus type 1 group M subtype B (Taxon ID: 11686)
Human immunodeficiency virus 1 (Taxon ID: 11676)
Homo sapiens (Taxon ID: 9606)

Host Organism:

Escherichia coli

Method Details:

Experimental Method:

X-RAY DIFFRACTION

Resolution:

2.65 Å

R-Value Free:

0.22

R-Value Work:

0.18

R-Value Observed:

0.19

Space Group:

P 31 2 1

Download Validation Report

Macromolecular Entities

Protein Blast

Polymer Type:polypeptide(L)
Molecule:REVERSE TRANSCRIPTASE P66 SUBUNIT
Chain IDs:A
Chain Length:558
Number of Molecules:1
Biological Source:Human immunodeficiency virus type 1 group M subtype B

UniProt ID:P04585 Pfam ID:PF00078, PF06817, PF06815, PF00075

Protein Blast

Polymer Type:polypeptide(L)
Molecule:REVERSE TRANSCRIPTASE P51 SUBUNIT
Chain IDs:B
Chain Length:441
Number of Molecules:1
Biological Source:Human immunodeficiency virus 1

UniProt ID:P04585 Pfam ID:PF00078, PF06817, PF06815, PF00075

Polymer Type:polydeoxyribonucleotide
Molecule:DNA (5'-D(*GP*TP*AP*TP*GP*CP*CP*AP*CP*TP*AP*GP*TP*TP*AP*TP*TP*GP*TP*GP*GP*CP*C)-3')
Chain IDs:C (auth: D)
Chain Length:23
Number of Molecules:1
Biological Source:Homo sapiens

Polymer Type:polyribonucleotide
Molecule:RNA (25-MER)
Chain IDs:D (auth: R)
Chain Length:25
Number of Molecules:1
Biological Source:Homo sapiens

Ligand Molecules

EFZ

GOL

TAM

Primary Citation

Structure of HIV-1 reverse transcriptase cleaving RNA in an RNA/DNA hybrid.

Tian, L, Kim, M.S, Li, H, Wang, J, Yang, W.Show

Proc. Natl. Acad. Sci. U.S.A. 115 507 512 (2018)

PMID: 29295939 DOI: 10.1073/pnas.1719746115

Abstact

HIV-1 reverse transcriptase (RT) contains both DNA polymerase and RNase H activities to convert the viral genomic RNA to dsDNA in infected host cells. Here we report the 2.65-Å resolution structure of HIV-1 RT engaging in cleaving RNA in an RNA/DNA hybrid. A preferred substrate sequence is absolutely required to enable the RNA/DNA hybrid to adopt the distorted conformation needed to interact properly with the RNase H active site in RT. Substituting two nucleotides 4 bp upstream from the cleavage site results in scissile-phosphate displacement by 4 Å. We also have determined the structure of HIV-1 RT complexed with an RNase H-resistant polypurine tract sequence, which adopts a rigid structure and is accommodated outside of the nuclease active site. Based on this newly gained structural information and a virtual drug screen, we have identified an inhibitor specific for the viral RNase H but not for its cellular homologs.

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