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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 | December 18, 2024 |
| PDB ID | UniProt ID | Title ▼ | Descriptor |
|---|---|---|---|
| 1FZO | P04857 | MHC CLASS I NATURAL MUTANT H-2KBM8 HEAVY CHAIN COMPLEXED WITH BETA-2 MICROGLOBULIN AND SENDAI VIRUS NUCLEOPROTEIN | |
| 1FZJ | P01901 | MHC CLASS I NATURAL MUTANT H-2KBM1 HEAVY CHAIN COMPLEXED WITH BETA-2 MICROGLOBULIN AND VESICULAR STOMATITIS VIRUS NUCLEOPROTEIN | |
| 1FZJ | P01887 | MHC CLASS I NATURAL MUTANT H-2KBM1 HEAVY CHAIN COMPLEXED WITH BETA-2 MICROGLOBULIN AND VESICULAR STOMATITIS VIRUS NUCLEOPROTEIN | |
| 1FZJ | P11212 | MHC CLASS I NATURAL MUTANT H-2KBM1 HEAVY CHAIN COMPLEXED WITH BETA-2 MICROGLOBULIN AND VESICULAR STOMATITIS VIRUS NUCLEOPROTEIN | |
| 1FZK | P01901 | MHC CLASS I NATURAL MUTANT H-2KBM1 HEAVY CHAIN COMPLEXED WITH BETA-2 MICROGLOBULIN AND SENDAI VIRUS NUCLEOPROTEIN | |
| 1FZK | P01887 | MHC CLASS I NATURAL MUTANT H-2KBM1 HEAVY CHAIN COMPLEXED WITH BETA-2 MICROGLOBULIN AND SENDAI VIRUS NUCLEOPROTEIN | |
| 1FZK | P04857 | MHC CLASS I NATURAL MUTANT H-2KBM1 HEAVY CHAIN COMPLEXED WITH BETA-2 MICROGLOBULIN AND SENDAI VIRUS NUCLEOPROTEIN | |
| 1QLF | P01899 | MHC CLASS I H-2DB COMPLEXED WITH GLYCOPEPTIDE K3G | |
| 1QLF | P01884 | MHC CLASS I H-2DB COMPLEXED WITH GLYCOPEPTIDE K3G | |
| 1QLF | P04857 | MHC CLASS I H-2DB COMPLEXED WITH GLYCOPEPTIDE K3G | |
| 1CFJ | P04058 | METHYLPHOSPHONYLATED ACETYLCHOLINESTERASE (AGED) OBTAINED BY REACTION WITH O-ISOPROPYLMETHYLPHOSPHONOFLUORIDATE (GB, SARIN) | |
| 1VXO | P04058 | METHYLPHOSPHONYLATED ACETYLCHOLINESTERASE (AGED) OBTAINED BY REACTION WITH O-ETHYL-S-[2-[BIS(1-METHYLETHYL)AMINO]ETHYL] METHYLPHOSPHONOTHIOATE (VX) | |
| 1LFI | P02788 | METAL SUBSTITUTION IN TRANSFERRINS: THE CRYSTAL STRUCTURE OF HUMAN COPPER-LACTOFERRIN AT 2.1 ANGSTROMS RESOLUTION | |
| 8IFN | 8IFN | MERS-CoV spike trimer in complex with nanobody VHH-T148 | |
| 8IFN | R9UQ53 | MERS-CoV spike trimer in complex with nanobody VHH-T148 | |
| 6J11 | A0A2D0YPK3 | MERS-CoV spike N-terminal domain and 7D10 scFv complex | |
| 6J11 | 6J11 | MERS-CoV spike N-terminal domain and 7D10 scFv complex | |
| 6NB3 | A0A140AYW5 | MERS-CoV complex with human neutralizing LCA60 antibody Fab fragment (state 1) | |
| 6NB3 | 6NB3 | MERS-CoV complex with human neutralizing LCA60 antibody Fab fragment (state 1) | |
| 6Q05 | K0BRG7 | MERS-CoV S structure in complex with sialyl-lewisX | |
| 6Q04 | K0BRG7 | MERS-CoV S structure in complex with 5-N-acetyl neuraminic acid | |
| 6Q07 | K0BRG7 | MERS-CoV S structure in complex with 2,6-sialyl-N-acetyl-lactosamine | |
| 6Q06 | K0BRG7 | MERS-CoV S structure in complex with 2,3-sialyl-N-acetyl-lactosamine | |
| 6NB4 | A0A140AYW5 | MERS-CoV S complex with human neutralizing LCA60 antibody Fab fragment (state 2) | |
| 6NB4 | 6NB4 | MERS-CoV S complex with human neutralizing LCA60 antibody Fab fragment (state 2) | |
| 7M5E | A0A140AYW5 | MERS-CoV S bound to the broadly neutralizing B6 Fab fragment (C3 refinement) | |
| 8YSH | 8YSH | MERS-CoV RBD in complex with nanobody Nb14 | |
| 8YSH | R9UQ53 | MERS-CoV RBD in complex with nanobody Nb14 | |
| 6PZ8 | W5ZZF5 | MERS S0 trimer in complex with variable domain of antibody G2 | |
| 6PZ8 | W6A090 | MERS S0 trimer in complex with variable domain of antibody G2 | |
| 6PZ8 | 6PZ8 | MERS S0 trimer in complex with variable domain of antibody G2 | |
| 5W9H | W5ZZF5 | MERS S ectodomain trimer in complex with variable domain of neutralizing antibody G4 | |
| 5W9H | 5W9H | MERS S ectodomain trimer in complex with variable domain of neutralizing antibody G4 | |
| 5W9I | W5ZZF5 | MERS S ectodomain trimer in complex with variable domain of neutralizing antibody G4 | Spike glycoprotein, G4 VH, G4 VL |
| 5W9I | 5W9I | MERS S ectodomain trimer in complex with variable domain of neutralizing antibody G4 | Spike glycoprotein, G4 VH, G4 VL |
| 1C82 | Q54873 | MECHANISM OF HYALURONAN BINDING AND DEGRADATION: STRUCTURE OF STREPTOCOCCUS PNEUMONIAE HYALURONATE LYASE IN COMPLEX WITH HYALURONIC ACID DISACCHARIDE AT 1.7 A RESOLUTION | |
| 1XLC | P12070 | MECHANISM FOR ALDOSE-KETOSE INTERCONVERSION BY D-XYLOSE ISOMERASE INVOLVING RING OPENING FOLLOWED BY A 1,2-HYDRIDE SHIFT | |
| 1XLD | P12070 | MECHANISM FOR ALDOSE-KETOSE INTERCONVERSION BY D-XYLOSE ISOMERASE INVOLVING RING OPENING FOLLOWED BY A 1,2-HYDRIDE SHIFT | |
| 1XLF | P12070 | MECHANISM FOR ALDOSE-KETOSE INTERCONVERSION BY D-XYLOSE ISOMERASE INVOLVING RING OPENING FOLLOWED BY A 1,2-HYDRIDE SHIFT | |
| 1XLG | P12070 | MECHANISM FOR ALDOSE-KETOSE INTERCONVERSION BY D-XYLOSE ISOMERASE INVOLVING RING OPENING FOLLOWED BY A 1,2-HYDRIDE SHIFT | |
| 1XLI | P12070 | MECHANISM FOR ALDOSE-KETOSE INTERCONVERSION BY D-XYLOSE ISOMERASE INVOLVING RING OPENING FOLLOWED BY A 1,2-HYDRIDE SHIFT | |
| 1XLJ | P12070 | MECHANISM FOR ALDOSE-KETOSE INTERCONVERSION BY D-XYLOSE ISOMERASE INVOLVING RING OPENING FOLLOWED BY A 1,2-HYDRIDE SHIFT | |
| 8T4A | 8T4A | MD65 N332-GT5 SOSIP in complex with RM_N332_36 Fab and RM20A3 Fab | |
| 8T4B | 8T4B | MD65 N332-GT5 SOSIP in complex with RM_N332_32 Fab and RM20A3 | |
| 8T4D | 8T4D | MD65 N332-GT5 SOSIP in complex with RM_N332_08 Fab and RM20A3 Fab | |
| 8T4L | 8T4L | MD65 N332-GT5 SOSIP in complex with RM_N332_07 Fab and RM20A3 Fab | |
| 8T49 | 8T49 | MD65 N332-GT5 SOSIP in complex with RM_N332_03 Fab and RM20A3 Fab | |
| 8T4K | 8T4K | MD64 N332-GT5 SOSIP | |
| 8T4K | Q2N0S8 | MD64 N332-GT5 SOSIP | |
| 5YLF | A0A0R6L508 | MCR-1 complex with D-glucose |
