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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 | September 04, 2024 |
| PDB ID | UniProt ID ▼ | Title | Descriptor |
|---|---|---|---|
| 3B3Q | Q4KMN5 | Crystal structure of a synaptic adhesion complex | |
| 6VLK | Q4JR05 | A varicella-zoster virus glycoprotein | |
| 4A05 | Q4JQF8 | Structure of the catalytic core domain of the cellobiohydrolase, Cel6A, from Chaetomium thermophilum | |
| 8RZL | Q4JBK8 | Sulfolobus acidocaldarius threads (0406) filament. | |
| 7ZCX | Q4J6E5 | S-layer protein SlaA from Sulfolobus acidocaldarius at pH 4.0 | |
| 8AN2 | Q4J6E5 | S-layer protein SlaA from Sulfolobus acidocaldarius at pH 10.0 | |
| 8AN3 | Q4J6E5 | S-layer protein SlaA from Sulfolobus acidocaldarius at pH 7.0 | |
| 8JFZ | Q4H132 | Cryo-EM structure of Na+,K+-ATPase in the E1.Mg2+ state. | |
| 7WYU | Q4H132 | Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by ATP | |
| 7WYV | Q4H132 | Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by ATP in the presence of 40 mM Mg2+ | |
| 7WYW | Q4H132 | Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by inorganic phosphate | |
| 7WYX | Q4H132 | Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by ATP with istaroxime | |
| 7WYY | Q4H132 | Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by inorganic phosphate with istaroxime | |
| 7WYZ | Q4H132 | Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by ATP with ouabain | |
| 7WZ0 | Q4H132 | Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by inorganic phosphate with ouabain | |
| 2ZXE | Q4H132 | Crystal structure of the sodium - potassium pump in the E2.2K+.Pi state | |
| 3A3Y | Q4H132 | Crystal structure of the sodium-potassium pump with bound potassium and ouabain | Na, K-ATPase alpha subunit, NA+,K+-ATPASE BETA SUBUNIT, Phospholemman-like protein |
| 5AVQ | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 0.75 min. | |
| 5AVR | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 1.5 min | |
| 5AVS | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 3.5 min | |
| 5AVT | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 5 min | |
| 5AVU | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 7.0 min | |
| 5AVV | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 8.5 min | |
| 5AVW | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 16.5 min | |
| 5AVX | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 20 min | |
| 5AVY | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 20 min | |
| 5AVZ | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 55 min | |
| 5AW0 | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 55 min | |
| 5AW1 | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 85 min | |
| 5AW2 | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 85 min | |
| 5AW3 | Q4H132 | Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 100 min | |
| 5AW4 | Q4H132 | Kinetics by X-ray crystallography: Rb+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 1.5 min | |
| 5AW5 | Q4H132 | Kinetics by X-ray crystallography: Rb+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 2.2 min | |
| 5AW6 | Q4H132 | Kinetics by X-ray crystallography: Rb+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 5.5 min | |
| 5AW7 | Q4H132 | Kinetics by X-ray crystallography: Rb+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after 11.3 min | |
| 5AW8 | Q4H132 | Kinetics by X-ray crystallography: E2.MgF42-.2RB+ crystal | |
| 5AW9 | Q4H132 | Kinetics by X-ray crystallography: native E2.MgF42-.2K+ crystal for Rb+ bound crystals | |
| 7Y45 | Q4H132 | Cryo-EM structure of the Na+,K+-ATPase in the E2.2K+ state | |
| 7Y46 | Q4H132 | Cryo-EM structure of the Na+,K+-ATPase in the E2.2K+ state after addition of ATP | |
| 3A79 | Q4G1L3 | Crystal structure of TLR2-TLR6-Pam2CSK4 complex | |
| 4UIP | Q4G1L3 | The complex structure of extracellular domain of EGFR with Repebody (rAC1). | |
| 4UIP | Q4G1L3 | The complex structure of extracellular domain of EGFR with Repebody (rAC1). | |
| 6BXA | Q4G1L2 | Crystal structure of N-terminal fragment of Zebrafish Toll-Like Receptor 5 (TLR5) with Lamprey Variable Lymphocyte Receptor 2 (VLR2) bound | |
| 7MLM | Q4G1L2 | Crystal structure of mouse TLR4/MD-2 in complex with sulfatides | |
| 6BXC | Q4G1L2 | Crystal structure of N-terminal fragment of Zebrafish Toll-Like Receptor 5 (TLR5) with Lamprey Variable Lymphocyte Receptor 9 (VLR9) bound | |
| 2Z62 | Q4G1L2 | Crystal structure of the TV3 hybrid of human TLR4 and hagfish VLRB.61 | |
| 2Z63 | Q4G1L2 | Crystal structure of the TV8 hybrid of human TLR4 and hagfish VLRB.61 | |
| 2Z65 | Q4G1L2 | Crystal structure of the human TLR4 TV3 hybrid-MD-2-Eritoran complex | |
| 2Z66 | Q4G1L2 | Crystal structure of the VT3 hybrid of human TLR4 and hagfish VLRB.61 | |
| 2Z7X | Q4G1L2 | Crystal structure of the TLR1-TLR2 heterodimer induced by binding of a tri-acylated lipopeptide |
