PDB code | Main view | Title | 1a1v | | HEPATITIS C VIRUS NS3 HELICASE DOMAIN COMPLEXED WITH SINGLE STRANDED SDNA |
1c4o | | CRYSTAL STRUCTURE OF THE DNA NUCLEOTIDE EXCISION REPAIR ENZYME UVRB FROM THERMUS THERMOPHILUS |
1cu1 | | CRYSTAL STRUCTURE OF AN ENZYME COMPLEX FROM HEPATITIS C VIRUS |
1d2m | | UVRB PROTEIN OF THERMUS THERMOPHILUS HB8; A NUCLEOTIDE EXCISION REPAIR ENZYME |
1d9x | | CRYSTAL STRUCTURE OF THE DNA REPAIR PROTEIN UVRB |
1d9z | | CRYSTAL STRUCTURE OF THE DNA REPAIR PROTEIN UVRB IN COMPLEX WITH ATP |
1fuu | | YEAST INITIATION FACTOR 4A |
1gku | | Reverse gyrase from Archaeoglobus fulgidus |
1gl9 | | Archaeoglobus fulgidus reverse gyrase complexed with ADPNP |
1gm5 | | Structure of RecG bound to three-way DNA junction |
1hei | | STRUCTURE OF THE HEPATITIS C VIRUS RNA HELICASE DOMAIN |
1hv8 | | CRYSTAL STRUCTURE OF A DEAD BOX PROTEIN FROM THE HYPERTHERMOPHILE METHANOCOCCUS JANNASCHII |
1oyw | | Structure of the RecQ Catalytic Core |
1oyy | | Structure of the RecQ Catalytic Core bound to ATP-gamma-S |
1q0u | | Crystal Structure of the BstDEAD N-terminal Domain |
1qde | | CRYSTAL STRUCTURE OF THE ATPASE DOMAIN OF TRANSLATION INITIATION FACTOR 4A FROM SACCHAROMYCES CEREVISIAE-THE PROTOTYPE OF THE DEAD BOX PROTEIN FAMILY |
1qva | | YEAST INITIATION FACTOR 4A N-TERMINAL DOMAIN |
1rif | | Crystal structure of the UvsW helicase from Bacteriophage T4 |
1s2m | | Crystal Structure of the DEAD box protein Dhh1p |
1t5l | | Crystal structure of the DNA repair protein UvrB point mutant Y96A revealing a novel fold for domain 2 |
1t6n | | Crystal structure of the N-terminal domain of human UAP56 |
1vec | | Crystal structure of the N-terminal domain of rck/p54, a human DEAD-box protein |
1wp9 | | Crystal structure of Pyrococcus furiosus Hef helicase domain |
1wrb | | Crystal structure of the N-terminal RecA-like domain of DjVLGB, a pranarian Vasa-like RNA helicase |
1xti | | Structure of Wildtype human UAP56 |
1xtj | | structure of human UAP56 in complex with ADP |
1xtk | | structure of DECD to DEAD mutation of human UAP56 |
1yks | | Crystal structure of yellow fever virus NS3 helicase |
1z3i | | Structure of the SWI2/SNF2 chromatin remodeling domain of eukaryotic Rad54 |
1z63 | | Sulfolobus solfataricus SWI2/SNF2 ATPase core in complex with dsDNA |
1z6a | | Sulfolobus solfataricus SWI2/SNF2 ATPase core domain |
2bhr | | Dengue virus RNA helicase |
2bmf | | Dengue virus RNA helicase at 2.4A |
2d7d | | Structural insights into the cryptic DNA dependent ATP-ase activity of UvrB |
2db3 | | Structural basis for RNA unwinding by the DEAD-box protein Drosophila Vasa |
2eyq | | Crystal structure of Escherichia coli transcription-repair coupling factor |
2f55 | | Two hepatitis c virus ns3 helicase domains complexed with the same strand of dna |
2fdc | | Structural Basis of DNA Damage Recognition and Processing by UvrB: crystal structure of a UvrB/DNA complex |
2fwr | | Structure of Archaeoglobus Fulgidis XPB |
2fz4 | | Crystal Structure of the N-terminal half of Archaeoglobus Fulgidus XPB |
2g9n | | Structure of the DEAD domain of Human eukaryotic initiation factor 4A, eIF4A |
2gxq | | HERA N-terminal domain in complex with AMP, crystal form 1 |
2gxs | | HERA N-terminal domain in complex with AMP, crystal form 2 |
2gxu | | HERA N-terminal domain in complex with orthophosphate, crystal form 1 |
2hxy | | Crystal structure of human apo-eIF4AIII |
2hyi | | Structure of the human exon junction complex with a trapped DEAD-box helicase bound to RNA |
2i4i | | Crystal Structure of human DEAD-box RNA helicase DDX3X |
2j0q | | The crystal structure of the Exon Junction Complex at 3.2 A resolution |
2j0s | | The crystal structure of the Exon Junction Complex at 2.2 A resolution |
2j0u | | The crystal structure of eIF4AIII-Barentsz complex at 3.0 A resolution |
2jlq | | Dengue virus 4 NS3 helicase structure, apo enzyme. |
2jlr | | Dengue virus 4 NS3 helicase in complex with AMPPNP |
2jls | | Dengue virus 4 NS3 helicase in complex with ADP |
2jlu | | Dengue virus 4 NS3 helicase in complex with ssRNA |
2jlv | | Dengue virus 4 NS3 helicase in complex with ssRNA and AMPPNP |
2jlw | | Dengue virus 4 NS3 helicase in complex with ssRNA2 |
2jlx | | Dengue virus 4 NS3 helicase in complex with ssRNA and ADP-Vanadate |
2jly | | Dengue virus 4 NS3 helicase in complex with ssRNA and ADP-Phosphate |
2jlz | | Dengue virus 4 NS3 helicase in complex with ssRNA and ADP |
2kbe | | solution structure of amino-terminal domain of Dbp5p |
2nmv | | Damage detection by the UvrABC pathway: Crystal structure of UvrB bound to fluorescein-adducted DNA |
2oca | | The crystal structure of T4 UvsW |
2oxc | | Human DEAD-box RNA helicase DDX20, DEAD domain in complex with ADP |
2p6r | | Crystal structure of superfamily 2 helicase Hel308 in complex with unwound DNA |
2p6u | | Apo structure of the Hel308 superfamily 2 helicase |
2pl3 | | Human DEAD-box RNA helicase DDX10, DEAD domain in complex with ADP |
2qeq | | Crystal structure of kunjin virus ns3 helicase |
2v1x | | Crystal structure of human RECQ-like DNA helicase |
2v8o | | Structure of the Murray Valley encephalitis virus RNA helicase to 1. 9A resolution |
2va8 | | DNA Repair Helicase Hel308 |
2vbc | | Crystal structure of the NS3 protease-helicase from Dengue virus |
2vl7 | | Structure of S. tokodaii Xpd4 |
2vso | | Crystal Structure of a Translation Initiation Complex |
2vsx | | Crystal Structure of a Translation Initiation Complex |
2w00 | | Crystal structure of the HsdR subunit of the EcoR124I restriction enzyme in complex with ATP |
2whx | | A second conformation of the NS3 protease-helicase from dengue virus |
2wv9 | | Crystal Structure of the NS3 protease-helicase from Murray Valley encephalitis virus |
2wwy | | Structure of human RECQ-like helicase in complex with a DNA substrate |
2wzq | | Insertion Mutant E173GP174 of the NS3 protease-helicase from dengue virus |
2xau | | Crystal structure of the Prp43p DEAH-box RNA helicase in complex with ADP |
2xb2 | | Crystal structure of the core Mago-Y14-eIF4AIII-Barentsz-UPF3b assembly shows how the EJC is bridged to the NMD machinery |
2xgj | | Structure of Mtr4, a DExH helicase involved in nuclear RNA processing and surveillance |
2xzl | | Upf1-RNA complex |
2ykg | | Structural insights into RNA recognition by RIG-I |
2z0m | | Crystal structure of hypothetical ATP-dependent RNA helicase from Sulfolobus tokodaii |
2z83 | | Crystal Structure of Catalytic Domain of Japanese Encephalitis Virus NS3 Helicase/Nucleoside Triphosphatase at a Resolution 1.8 |
2zj2 | | Archaeal DNA helicase Hjm apo state in form 1 |
2zj5 | | Archaeal DNA helicase Hjm complexed with ADP in form 1 |
2zj8 | | Archaeal DNA helicase Hjm apo state in form 2 |
2zja | | Archaeal DNA helicase Hjm complexed with AMPPCP in form 2 |
2zjo | | Crystal structure of hepatitis C virus NS3 helicase with a novel inhibitor |
2zu6 | | crystal structure of the eIF4A-PDCD4 complex |
3b6e | | Crystal structure of human DECH-box RNA Helicase MDA5 (Melanoma differentiation-associated protein 5), DECH-domain |
3b7g | | Human DEAD-box RNA helicase DDX20, Conserved domain I (DEAD) in complex with AMPPNP (Adenosine-(Beta,gamma)-imidotriphosphate) |
3ber | | Human DEAD-box RNA-helicase DDX47, conserved domain I in complex with AMP |
3bor | | Crystal structure of the DEADc domain of human translation initiation factor 4A-2 |
3dkp | | Human DEAD-box RNA-helicase DDX52, conserved domain I in complex with ADP |
3dmq | | Crystal structure of RapA, a Swi2/Snf2 protein that recycles RNA polymerase during transcription |
3eiq | | Crystal structure of Pdcd4-eIF4A |
3ews | | Human DEAD-box RNA-helicase DDX19 in complex with ADP |
3ex7 | | The crystal structure of EJC in its transition state |
3fe2 | | Human DEAD-BOX RNA helicase DDX5 (P68), conserved domain I in complex with ADP |
3fhc | | Crystal structure of human Dbp5 in complex with Nup214 |
3fho | | Structure of S. pombe Dbp5 |
3fht | | Crystal structure of human Dbp5 in complex with AMPPNP and RNA |
3fmo | | Crystal structure of the nucleoporin Nup214 in complex with the DEAD-box helicase Ddx19 |
3fmp | | Crystal structure of the nucleoporin Nup214 in complex with the DEAD-box helicase Ddx19 |
3g0h | | Human dead-box RNA helicase DDX19, in complex with an ATP-analogue and RNA |
3h1t | | The fragment structure of a putative HsdR subunit of a type I restriction enzyme from Vibrio vulnificus YJ016 |
3i5x | | Structure of Mss116p bound to ssRNA and AMP-PNP |
3i5y | | Structure of Mss116p bound to ssRNA containing a single 5-BrU and AMP-PNP |
3i61 | | Structure of Mss116p bound to ssRNA and ADP-Beryllium Fluoride |
3i62 | | Structure of Mss116p bound to ssRNA and ADP-Aluminum Fluoride |
3iuy | | Crystal structure of DDX53 DEAD-box domain |
3jcm | | 3JCM |
3jcr | | 3JCR |
3kqh | | Three Conformational Snapshots of the Hepatitis C Virus NS3 Helicase Reveal a Ratchet Translocation Mechanism |
3kqk | | Three Conformational Snapshots of the Hepatitis C Virus NS3 Helicase Reveal a Ratchet Translocation Mechanism |
3kql | | Three Conformational Snapshots of the Hepatitis C Virus NS3 Helicase Reveal a Ratchet Translocation Mechanism |
3kqn | | Three Conformational Snapshots of the Hepatitis C Virus NS3 Helicase Reveal a Ratchet Translocation Mechanism |
3kqu | | Three Conformational Snapshots of the Hepatitis C Virus NS3 Helicase Reveal a Ratchet Translocation Mechanism |
3kx2 | | Crystal structure of Prp43p in complex with ADP |
3llm | | Crystal Structure Analysis of a RNA Helicase |
3ly5 | | DDX18 dead-domain |
3mwj | | Q28E mutant of HERA N-terminal RecA-like domain, apo form |
3mwk | | Q28E mutant of HERA N-terminal RecA-like domain, complex with 8-oxo-AMP |
3mwl | | Q28E mutant of HERA N-terminal RecA-like domain in complex with 8-OXOADENOSINE |
3mwy | | Crystal structure of the chromodomain-ATPase portion of the yeast Chd1 chromatin remodeler |
3nbf | | Q28E mutant of hera helicase N-terminal domain bound to 8-oxo-ADP |
3nej | | Q28E mutant of Hera RNA helicase N-terminal domain - perfectly twinned hexagonal form |
3o8b | | Visualizing ATP-dependent RNA Translocation by the NS3 Helicase from HCV |
3o8c | | Visualizing ATP-dependent RNA Translocation by the NS3 Helicase from HCV |
3o8d | | Visualizing ATP-dependent RNA Translocation by the NS3 Helicase from HCV |
3o8r | | Visualizing ATP-dependent RNA Translocation by the NS3 Helicase from HCV |
3oiy | | Helicase domain of reverse gyrase from Thermotoga maritima |
3p4x | | Helicase domain of reverse gyrase from Thermotoga maritima |
3p4y | | Helicase domain of reverse gyrase from Thermotoga maritima - P2 form |
3pew | | S. cerevisiae Dbp5 L327V bound to RNA and ADP BeF3 |
3pey | | S. cerevisiae Dbp5 bound to RNA and ADP BeF3 |
3rrm | | S. cerevisiae dbp5 l327v bound to nup159, gle1 h337r, ip6 and adp |
3rrn | | S. cerevisiae dbp5 l327v bound to gle1 h337r and ip6 |
3rvb | | 3RVB |
3sqw | | Structure of Mss116p (NTE deletion) bound to ssRNA and AMP-PNP |
3sqx | | Structure of Mss116p (NTE and C-tail double deletion) bound to ssRNA and AMP-PNP |
3tbk | | Mouse RIG-I ATPase Domain |
3uwx | | Crystal structure of UvrA-UvrB complex |
3v4r | | Crystal structure of a UvrB dimer-DNA complex |
3zd6 | | Snapshot 1 of RIG-I scanning on RNA duplex |
3zd7 | | Snapshot 3 of RIG-I scanning on RNA duplex |
4a15 | | Crystal structure of an XPD DNA complex |
4a2p | | Structure of duck RIG-I helicase domain |
4a2q | | Structure of duck RIG-I tandem CARDs and helicase domain |
4a2w | | Structure of full-length duck RIG-I |
4a36 | | Structure of duck RIG-I helicase domain bound to 19-mer dsRNA and ATP transition state analogue |
4a4d | | Crystal structure of the N-terminal domain of the Human DEAD-BOX RNA helicase DDX5 (P68) |
4a4z | | CRYSTAL STRUCTURE OF THE S. CEREVISIAE DEXH HELICASE SKI2 BOUND TO AMPPNP |
4a92 | | Full-length HCV NS3-4A protease-helicase in complex with a macrocyclic protease inhibitor. |
4ay2 | | Capturing 5' tri-phosphorylated RNA duplex by RIG-I |
4b3f | | crystal structure of Ighmbp2 helicase |
4b3g | | crystal structure of Ighmbp2 helicase in complex with RNA |
4b6e | | Discovery of an allosteric mechanism for the regulation of HCV NS3 protein function |
4b6f | | Discovery of an allosteric mechanism for the regulation of HCV NS3 protein function |
4b71 | | Discovery of an allosteric mechanism for the regulation of HCV NS3 protein function |
4b73 | | Discovery of an allosteric mechanism for the regulation of HCV NS3 protein function |
4b74 | | Discovery of an allosteric mechanism for the regulation of HCV NS3 protein function |
4b75 | | Discovery of an allosteric mechanism for the regulation of HCV NS3 protein function |
4b76 | | Discovery of an allosteric mechanism for the regulation of HCV NS3 protein function |
4be7 | | MUTANT (K220R) OF THE HSDR SUBUNIT OF THE ECOR124I RESTRICTION ENZYME IN COMPLEX WITH ATP |
4beb | | MUTANT (K220E) OF THE HSDR SUBUNIT OF THE ECOR124I RESTRICTION ENZYME IN COMPLEX WITH ATP |
4bec | | MUTANT (K220A) OF THE HSDR SUBUNIT OF THE ECOR124I RESTRICTION ENZYME IN COMPLEX WITH ATP |
4bgd | | Crystal structure of Brr2 in complex with the Jab1/MPN domain of Prp8 |
4bpb | | STRUCTURAL INSIGHTS INTO RNA RECOGNITION BY RIG-I |
4bru | | Crystal structure of the yeast Dhh1-Edc3 complex |
4brw | | Crystal structure of the yeast Dhh1-Pat1 complex |
4buj | | Crystal structure of the S. cerevisiae Ski2-3-8 complex |
4c9b | | Crystal structure of eIF4AIII-CWC22 complex |
4cbg | | 4CBG |
4cbh | | 4CBH |
4cbi | | 4CBI |
4cbl | | 4CBL |
4cbm | | 4CBM |
4cdg | | Crystal structure of the Bloom's syndrome helicase BLM in complex with Nanobody |
4cgz | | Crystal structure of the Bloom's syndrome helicase BLM in complex with DNA |
4ct4 | | CNOT1 MIF4G domain - DDX6 complex |
4ct5 | | DDX6 |
4d25 | | 4D25 |
4d26 | | 4D26 |
4ddt | | Thermotoga maritima reverse gyrase, C2 FORM 2 |
4ddu | | Thermotoga maritima reverse gyrase, C2 FORM 1 |
4ddv | | Thermotoga maritima reverse gyrase, triclinic form |
4ddw | | Thermotoga maritima reverse gyrase, c-centered orthorhombic form |
4ddx | | Thermotoga maritima reverse gyrase, primitive monoclinic form |
4f91 | | Brr2 Helicase Region |
4f92 | | Brr2 Helicase Region S1087L |
4f93 | | Brr2 Helicase Region S1087L, Mg-ATP |
4gl2 | | Structural Basis for dsRNA duplex backbone recognition by MDA5 |
4kbf | | two different open conformations of the helicase core of the RNA helicase Hera |
4kbg | | almost closed conformation of the helicase core of the RNA helicase Hera |
4kit | | Crystal structure of human Brr2 in complex with the Prp8 Jab1/MPN domain |
4ljy | | Crystal structure of RNA splicing effector Prp5 in complex with ADP |
4lk2 | | Crystal structure of RNA splicing effector Prp5 |
4nho | | 4NHO |
4nl4 | | PriA Helicase Bound to ADP |
4nl8 | | PriA Helicase Bound to SSB C-terminal Tail Peptide |
4o3m | | Ternary complex of Bloom's syndrome helicase |
4ojq | | Crystal Structure of Hepatitis C Virus NS3 Helicase Inhibitor Co-complex with Fragment 1 [(5-bromo-1H-indol-3-yl)acetic acid] |
4ok3 | | Crystal Structure of Hepatitis C Virus NS3 Helicase Inhibitor Co-complex with Compound 7 [[1-(3-chlorobenzyl)-1H-indol-3-yl]acetic acid] |
4ok5 | | Crystal Structure of Hepatitis C Virus NS3 Helicase Inhibitor Co-complex with Compound 9 [1-(3-ethynylbenzyl)-1H-indol-3-yl]acetic acid] |
4ok6 | | Crystal Structure of Hepatitis C Virus NS3 Helicase Inhibitor Co-complex with Compound 13 [[1-(2-methoxy-5-nitrobenzyl)-1H-indol-3-yl]acetic acid] |
4oks | | Crystal Structure of Hepatitis C Virus NS3 Helicase Inhibitor Co-complex with Compound 19 [[6-(3,5-diaminophenyl)-1-(2-methoxy-5-nitrobenzyl)-1H-indol-3-yl]acetic acid] |
4on9 | | 4ON9 |
4px9 | | 4PX9 |
4pxa | | 4PXA |
4q2c | | 4Q2C |
4q2d | | 4Q2D |
4q47 | | 4Q47 |
4q48 | | 4Q48 |
4qu4 | | 4QU4 |
4s20 | | 4S20 |
4tmu | | 4TMU |
4tyn | | 4TYN |
4tyw | | 4TYW |
4tyy | | 4TYY |
4tz0 | | 4TZ0 |
4tz6 | | 4TZ6 |
4u4c | | 4U4C |
4u7d | | 4U7D |
4w7s | | 4W7S |
4wxp | | 4WXP |
4wxr | | 4WXR |
4xgt | | 4XGT |
4xjx | | 4XJX |
4xqk | | 4XQK |
5a9f | | 5A9F |
5a9j | | 5A9J |
5aga | | 5AGA |
5anr | | 5ANR |
5aor | | 5AOR |
5d0u | | 5D0U |
5dca | | 5DCA |
5dtu | | 5DTU |
5dzr | | 5DZR |
5e02 | | 5E02 |
5e3h | | 5E3H |
5e4f | | 5E4F |
5e7i | | 5E7I |
5e7j | | 5E7J |
5e7m | | 5E7M |
5elx | | 5ELX |
5f98 | | 5F98 |
5f9f | | 5F9F |
5f9h | | 5F9H |
5ffj | | 5FFJ |
5ffm | | 5FFM |
5fmf | | 5FMF |
5fps | | 5FPS |
5fpt | | 5FPT |
5fpy | | 5FPY |
5gan | | 5GAN |
5gao | | 5GAO |
5gap | | 5GAP |
5gjb | | 5GJB |
5gjc | | 5GJC |
5gm6 | | 5GM6 |
5gvr | | 5GVR |
5gvs | | 5GVS |
5hzr | | 5HZR |
5ivw | | 5IVW |
5iy6 | | 5IY6 |
5iy7 | | 5IY7 |
5iy8 | | 5IY8 |
5iy9 | | 5IY9 |
5jaj | | 5JAJ |
5jb2 | | 5JB2 |
5jbg | | 5JBG |
5jbj | | 5JBJ |
5jc3 | | 5JC3 |
5jc7 | | 5JC7 |
5jcf | | 5JCF |
5jch | | 5JCH |
5jmt | | 5JMT |
5jrz | | 5JRZ |
5jwh | | 5JWH |
5k8i | | 5K8I |
5k8l | | 5K8L |
5k8t | | 5K8T |
5k8u | | 5K8U |
5lb3 | | 5LB3 |
5lb5 | | 5LB5 |
5lb8 | | 5LB8 |
5lba | | 5LBA |
5lj5 | | 5LJ5 |
5lqw | | 5LQW |
5sva | | 5SVA |
8ohm | | CRYSTAL STRUCTURE OF RNA HELICASE FROM GENOTYPE 1B HEPATITIS C VIRUS: MECHANISM OF UNWINDING DUPLEX RNA |