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Showing 1 - 50 of 100 items for (author: steiner & r)

EMDB-70791:
Cryo-EM structure of the DDB1/CRBN-MRT-5702-G3BP2 ternary complex
Method: single particle / : Quan C, Petzold G, Gainza P, Tsai J, Bunker RD, Wiedmer L, Donckele EJ

PDB-9os2:
Cryo-EM structure of the DDB1/CRBN-MRT-5702-G3BP2 ternary complex
Method: single particle / : Quan C, Petzold G, Gainza P, Tsai J, Bunker RD, Wiedmer L, Donckele EJ

EMDB-53137:
Cryo-EM structure of the PlPVC1 baseplate, 6-fold symmetrized (C6), in extended state
Method: single particle / : Marin-Arraiza L, Taylor NMI

EMDB-53138:
Cryo-EM structure of the PlPVC1 central spike, 3-fold symmetrized (C3), in extended state
Method: single particle / : Marin-Arraiza L, Taylor NMI

EMDB-53139:
Cryo-EM structure of the PlPVC1 cap, 6-fold symmetrized (C6), in extended state
Method: single particle / : Marin-Arraiza L, Taylor NMI

EMDB-53140:
Cryo-EM structure of the PlPVC1 fiber in extended state
Method: single particle / : Marin-Arraiza L, Taylor NMI

EMDB-53141:
Cryo-EM structure of the PlPVC1 sheath, 6-fold symmetrized (C6), in contracted state
Method: single particle / : Marin-Arraiza L, Taylor NMI

EMDB-53143:
Cryo-EM structure of the PlPVC1 baseplate, 6-fold symmetrized (C6), in contracted state
Method: single particle / : Marin-Arraiza L, Taylor NMI

PDB-9qgl:
Cryo-EM structure of the PlPVC1 baseplate, 6-fold symmetrized (C6), in extended state
Method: single particle / : Marin-Arraiza L, Taylor NMI

PDB-9qgm:
Cryo-EM structure of the PlPVC1 central spike, 3-fold symmetrized (C3), in extended state
Method: single particle / : Marin-Arraiza L, Taylor NMI

PDB-9qgn:
Cryo-EM structure of the PlPVC1 cap, 6-fold symmetrized (C6), in extended state
Method: single particle / : Marin-Arraiza L, Taylor NMI

PDB-9qgo:
Interaction between PlPVC1 baseplate and fiber in extended state
Method: single particle / : Marin-Arraiza L, Taylor NMI

PDB-9qgp:
Cryo-EM structure of the PlPVC1 sheath, 6-fold symmetrized (C6), in contracted state
Method: single particle / : Marin-Arraiza L, Taylor NMI

PDB-9fy7:
Dye Type Peroxidase Aa from Streptomyces lividans with N3 ligand by serial electron diffraction (SerialED)
Method: electron crystallography / : Hofer G, Wang L, Pacoste L, Hager P, Finjallaz A, Williams L, Worral J, Steiner R, Xu H, Zou X

PDB-9fyh:
Dye Type Peroxidase Aa from Streptomyces lividans by microcrystal electron diffraction (MicroED/3D ED)
Method: electron crystallography / : Hofer G, Wang L, Pacoste L, Hager P, Finjallaz A, Williams L, Worral J, Steiner R, Xu H, Zou X

PDB-9fyk:
Dye Type Peroxidase Aa from Streptomyces lividans by serial electron diffraction (SerialED)
Method: electron crystallography / : Hofer G, Wang L, Pacoste L, Hager P, Finjallaz A, Williams L, Worral J, Steiner R, Xu H, Zou X

EMDB-19174:
Microtubule-associated kinesin-1 tail complex bound to AMPPNP, single-headed state
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

EMDB-19176:
Microtubule-associated kinesin-1 tail complex bound to AMPPNP, two-headed state
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

EMDB-19188:
Microtubule-associated kinesin-1 tail complex bound to ADP, single-headed state
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

EMDB-19192:
Microtubule-associated kinesin-1 tail complex bound to ADP, two-headed state
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

EMDB-51477:
Microtubule-associated Kif5B IAK tail mutant bound to ADP
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

PDB-8rhb:
Microtubule-associated kinesin-1 tail complex bound to AMPPNP, single-headed state
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

PDB-8rhh:
Microtubule-associated kinesin-1 tail complex bound to AMPPNP, two-headed state
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

PDB-8rik:
Microtubule-associated kinesin-1 tail complex bound to ADP, single-headed state
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

PDB-8riz:
Microtubule-associated kinesin-1 tail complex bound to ADP, two-headed state
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

PDB-9gnq:
Microtubule-associated Kif5B IAK tail mutant bound to ADP
Method: single particle / : Atherton J, Chegkazi MS, Steiner RA

EMDB-18575:
Afp1-17 cap
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18576:
Afp1-16 cap
Method: single particle / : Rebrova EM, Taylor MMI

EMDB-18577:
Afp1-16+ Afp18 delta C8 truncation-Casphi2 cap
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18579:
Afp1-16 + Afp18 deltaC8-ExoU cap
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18580:
Anti-feeding prophage with Afp18DC8-ExoU toxin-effector chimera
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18524:
Anti-feeding prophage with native Afp18 toxin
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18525:
Anti-feeding prophage with Afp18DC8-Casphi2 toxin-effector chimera
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18526:
Anti-feeding prophage with Afp18DC4 toxin (half of Afp18, N-terminal half)
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18527:
Anti-feeding prophage with Afp18DC8-Casphi2 toxin-effector chimera
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18528:
Anti-feeding prophage with Afp18DC8-Casphi2 toxin-effector chimera
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18530:
Anti-feeding prophage with native Afp18 toxin
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18531:
Anti-feeding prophage with Afp18DC8 (half of Afp18, N-terminal half) toxin
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18532:
Anti-feeding prophage with Afp18DC8-Casphi2 toxin-effector chimera
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18551:
Anti-feeding prophage without Afp18 toxin
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-18552:
Anti-feeding prophage with Afp18DC8-ExoU toxin-effector chimera
Method: single particle / : Rebrova EM, Taylor MMI

EMDB-18553:
Anti-feeding prophage with Afp18DC8-ExoU toxin-effector chimera
Method: single particle / : Rebrova EM, Taylor NMI

EMDB-50263:
SARS-CoV-2 BA-2.87.1 Spike ectodomain
Method: single particle / : Ren J, Stuart DI, Duyvesteyn HME

PDB-9f9y:
SARS-CoV-2 BA-2.87.1 Spike ectodomain
Method: single particle / : Ren J, Stuart DI, Duyvesteyn HME

EMDB-18639:
Locally refined SARS-CoV-2 BA-2.86 Spike receptor binding domain (RBD) complexed with angiotensin converting enzyme 2 (ACE2)
Method: single particle / : Ren J, Stuart DI, Duyvesteyn HME

EMDB-18649:
Local refinement of SARS-CoV-2 BA.2.86 Spike and XBB-7 Fab
Method: single particle / : Ren J, Duyvesteyn HME, Stuart DI

EMDB-19002:
XBB-4 Fab in complex with SARS-CoV-2 BA.2.12.1 Spike Glycoprotein
Method: single particle / : Duyvesteyn HME, Ren J, Stuart DI

PDB-8qsq:
Locally refined SARS-CoV-2 BA-2.86 Spike receptor binding domain (RBD) complexed with angiotensin converting enzyme 2 (ACE2)
Method: single particle / : Ren J, Stuart DI, Duyvesteyn HME

PDB-8qtd:
Local refinement of SARS-CoV-2 BA.2.86 Spike and XBB-7 Fab
Method: single particle / : Ren J, Duyvesteyn HME, Stuart DI

PDB-8r8k:
XBB-4 Fab in complex with SARS-CoV-2 BA.2.12.1 Spike Glycoprotein
Method: single particle / : Duyvesteyn HME, Ren J, Stuart DI

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New format data for meta-information of EMDB entries

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Oct 5, 2021. Nobel Prize for mechanically activated and temperature-gated ion channels

Nobel Prize for mechanically activated and temperature-gated ion channels

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External links:The Nobel Prize in Physiology or Medicine 2021 - NobelPrize.org / Structure data by Ardem Patapoutian / Structure data by David Julius

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