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GlycoNAVI Proteins
GlycoNAVI-Proteins is dataset of glycan and protein information. This is the content of GlycoNAVI.
| Source | Last Updated |
|---|---|
| GlycoNAVI Proteins | November 21, 2024 |
| PDB ID | UniProt ID | Title | Descriptor ▼ |
|---|---|---|---|
| 7P6S | P55259 | Crystal structure of the FimH-binding decoy module of human glycoprotein 2 (GP2) (crystal form II) | |
| 7P6T | P55259 | Crystal structure of the FimH-binding decoy module of human glycoprotein 2 (GP2) (crystal form III) | |
| 7PFP | P07911 | Full-length cryo-EM structure of the native human uromodulin (UMOD)/Tamm-Horsfall protein (THP) filament | |
| 7PU1 | G3XAP7 | High resolution X-ray structure of Thermoascus aurantiacus LPMO | |
| 7PUK | Q6U890 | Crystal structure of Endoglycosidase E GH18 domain from Enterococcus faecalis in complex with Man5 product | |
| 7Q1L | P02787 | Glycosilated Human Serum Apo-tranferrin | |
| 7Q1W | A7B6A6 | Ruminococcus gnavus ATC29149 endo-beta-1,4-galactosidase (RgGH98) E411A in complex with blood group A (BgA II) tetrasaccharide | |
| 7Q3N | Q1R2J4 | Cryo-EM of the complex between human uromodulin (UMOD)/Tamm-Horsfall protein (THP) and the FimH lectin domain from uropathogenic E. coli | |
| 7Q3N | P07911 | Cryo-EM of the complex between human uromodulin (UMOD)/Tamm-Horsfall protein (THP) and the FimH lectin domain from uropathogenic E. coli | |
| 7QA8 | P0CI39 | Structure of the GPCR dimer Ste2 bound to an antagonist | |
| 7QA8 | 7QA8 | Structure of the GPCR dimer Ste2 bound to an antagonist | |
| 7QB9 | P0CI39 | Structure of the ligand-free GPCR dimer Ste2 | |
| 7QBC | P0CI39 | Structure of the GPCR dimer Ste2 in the inactive-like state bound to agonist | |
| 7QBC | 7QBC | Structure of the GPCR dimer Ste2 in the inactive-like state bound to agonist | |
| 7QBI | P0CI39 | Structure of the GPCR dimer Ste2 in the active-like state bound to agonist | |
| 7QBI | 7QBI | Structure of the GPCR dimer Ste2 in the active-like state bound to agonist | |
| 7QPT | Q3LRX8 | Botulinum neurotoxin A4 cell binding domain in complex with GD1a oligosaccharide | |
| 7RGF | Q91XX0 | Protocadherin gammaC4 EC1-4 crystal structure disrupted trans interface | |
| 7SFU | P05674 | CryoEM structure of Venezuelan Equine Encephalitis virus (VEEV) TC-83 strain VLP | |
| 7SFV | P05674 | CryoEM structure of Venezuelan Equine Encephalitis virus (VEEV) TC-83 strain VLP in complex with Fab hVEEV-63 | |
| 7SFV | 7SFV | CryoEM structure of Venezuelan Equine Encephalitis virus (VEEV) TC-83 strain VLP in complex with Fab hVEEV-63 | |
| 7SFW | P05674 | CryoEM structure of Venezuelan Equine Encephalitis virus (VEEV) TC-83 strain VLP in complex with Fab hVEEV-63 (focus refine of the asymmetric unit) | |
| 7SFW | 7SFW | CryoEM structure of Venezuelan Equine Encephalitis virus (VEEV) TC-83 strain VLP in complex with Fab hVEEV-63 (focus refine of the asymmetric unit) | |
| 7TEY | P0DTC2 | Cryo-EM structure of SARS-CoV-2 Delta (B.1.617.2) spike protein | |
| 7TEZ | P0DTC2 | Cryo-EM structure of SARS-CoV-2 Kappa (B.1.617.1) spike protein in complex with human ACE2 (focused refinement of RBD and ACE2) | |
| 7TEZ | Q9BYF1 | Cryo-EM structure of SARS-CoV-2 Kappa (B.1.617.1) spike protein in complex with human ACE2 (focused refinement of RBD and ACE2) | |
| 7KSQ | A9T399 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A0A2K1IW94 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A9TEM8 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A9RW10 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | Q8MFA3 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | Q8MFA2 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | Q6YXQ2 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A9REG3 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A9SPD7 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A0A2K1IN36 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A9SJ10 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A9TCU9 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | Q6YXR3 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | Q6YXM2 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A0A2K1JLW2 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A9S1E1 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | Q6YXK4 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KSQ | A0A2K1JDE1 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KUX | A9T399 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KUX | A0A2K1IW94 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KUX | A9TEM8 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KUX | A9RW10 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KUX | Q8MFA3 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna | |
| 7KUX | Q8MFA2 | The Structure of the moss PSI-LHCI reveals the evolution of the LHCI antenna |
