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Showing 1 - 50 of 100 items for (author: thee & s)

EMDB-63702:
PGS fused GPR3 dimer with antagonist AF64394
Method: single particle / : Geng C, Jun X

EMDB-63717:
GPR3 dimer with antagonist AF64394
Method: single particle / : Geng C, Jun X

EMDB-63723:
dimer-GPR3-Gs complex
Method: single particle / : Geng C, Jun X

PDB-9m88:
PGS fused GPR3 dimer with antagonist AF64394
Method: single particle / : Geng C, Jun X

PDB-9m8p:
GPR3 dimer with antagonist AF64394
Method: single particle / : Geng C, Jun X

PDB-9m8v:
dimer-GPR3-Gs complex
Method: single particle / : Geng C, Jun X

EMDB-51295:
Recombinant Myeloperoxidase bound to nucleosome core particle
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51296:
Nucleosome core particle
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51297:
Native monomeric Myeloperoxidase bound to nucleosome core particle
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51298:
Native dimeric Myeloperoxidase bound to nucleosome core particle; nucleosome focused map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51299:
Native dimeric Myeloperoxidase bound to nucleosome core particle; MPO focused map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51300:
Native dimeric Myeloperoxidase bound to nucleosome core particle; consensus map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51301:
Native dimeric Myeloperoxidase bound to nucleosome core particle; composite map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51302:
Native dimeric Myeloperoxidase bound to nucleosome core particle, intermediate state, nucleosome focused map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51303:
Native dimeric Myeloperoxidase bound to nucleosome core particle, intermediate state, map focused on MPO
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51304:
Native dimeric Myeloperoxidase bound to nucleosome core particle, intermediate state, consensus map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51305:
Native dimeric Myeloperoxidase bound to nucleosome core particle, intermediate state; composite map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51306:
Native monomeric Myeloperoxidase bound to nucleosome core particle, late time point
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-52865:
Nucleosome core particle bound by one molecule of DTT-reduced native monomeric myeloperoxidase
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-52866:
Nucleosome core particle bound by two molecules of DTT-reduced native monomeric myeloperoxidase
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-52867:
Nucleosome core particle bound by one monomer and one dimer of of DTT-reduced native myeloperoxidase; map focused on nucleosome/MPO monomer
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-52868:
Nucleosome core particle bound by one monomer and one dimer of of DTT-reduced native myeloperoxidase; map focused on MPO dimer
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-52869:
Nucleosome core particle bound by one monomer and one dimer of of DTT-reduced native myeloperoxidase; consensus map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-52870:
Nucleosome core particle bound by one monomer and one dimer of of DTT-reduced native myeloperoxidase
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

PDB-9gen:
Recombinant Myeloperoxidase bound to nucleosome core particle
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

PDB-9geo:
Nucleosome core particle
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

PDB-9gep:
Native monomeric Myeloperoxidase bound to nucleosome core particle
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

PDB-9geq:
Native dimeric Myeloperoxidase bound to nucleosome core particle; composite map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

PDB-9ger:
Native dimeric Myeloperoxidase bound to nucleosome core particle, intermediate state; composite map
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

PDB-9ihd:
Nucleosome core particle bound by one molecule of DTT-reduced native monomeric myeloperoxidase
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

PDB-9ihe:
Nucleosome core particle bound by two molecules of DTT-reduced native monomeric myeloperoxidase
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

PDB-9ihf:
Nucleosome core particle bound by one monomer and one dimer of of DTT-reduced native myeloperoxidase
Method: single particle / : Raisch T, Burn GL, Tacke S, Winkler M, Prumbaum D, Thee S, Zychlinsky A, Raunser S

EMDB-51434:
Befiradol-bound serotonin 5-HT1A receptor - Gs Protein Complex
Method: single particle / : Schneider J, Gmeiner P, Boettcher B, Rasmussen T

PDB-9gl2:
Befiradol-bound serotonin 5-HT1A receptor - Gs Protein Complex
Method: single particle / : Schneider J, Gmeiner P, Boettcher B, Rasmussen T

EMDB-62302:
Cryo-EM Density map of Staphylococcus aureus alpha-hemolysin pore structure derived from 12:0 Phosphatidylcholine (12:0 PC) liposome
Method: single particle / : Chatterjee A, Dutta S, Roy A

EMDB-62303:
Structure of Alpha-hemolysin heptameric pore state derived from Egg-PC/SM liposomes.
Method: single particle / : Chatterjee A, Roy A, Dutta S

EMDB-62304:
Alpha-hemolysin heptameric late pre-pore state derived from 10:0 PC/Sphingomyelin liposomes
Method: single particle / : Chatterjee A, Roy A, Dutta S

EMDB-62305:
Alpha-hemolysin heptameric pre-pore state derived from 10:0 PC liposomes.
Method: single particle / : Chatterjee A, Roy A, Dutta S

EMDB-62307:
Alpha-hemolysin heptameric pore state derived from egg PC/Cholesterol (3:1 molar ratio) liposomes
Method: single particle / : Chatterjee A, Roy A, Dutta S

EMDB-62308:
Map of EggPC/SM derived prepore structure of alpha-hemolysin
Method: single particle / : Chatterjee A, Dutta S, Roy A

EMDB-62309:
12:0 PC liposome derived pre-pore structure of alpha hemolysin
Method: single particle / : Chatterjee A, Dutta S, Roy A

EMDB-62310:
Alpha-hemolysin heptameric pore state derived from 10:0 PC liposomes
Method: single particle / : Chatterjee A, Roy A, Dutta S

PDB-9kg0:
Alpha-hemolysin heptameric late pre-pore state derived from 10:0 PC/Sphingomyelin liposomes
Method: single particle / : Chatterjee A, Roy A, Dutta S

PDB-9kg1:
Alpha-hemolysin heptameric pre-pore state derived from 10:0 PC liposomes.
Method: single particle / : Chatterjee A, Roy A, Dutta S

PDB-9kg3:
Alpha-hemolysin heptameric pore state derived from egg PC/Cholesterol (3:1 molar ratio) liposomes
Method: single particle / : Chatterjee A, Roy A, Dutta S

PDB-9kg6:
Alpha-hemolysin heptameric pore state derived from 10:0 PC liposomes
Method: single particle / : Chatterjee A, Roy A, Dutta S

PDB-9kre:
Alpha-hemolysin heptameric POPC bound pore state derived from egg PC/Cholesterol (3:1 molar ratio) liposomes
Method: single particle / : Chatterjee A, Roy A, Dutta S

PDB-9krf:
Alpha-hemolysin heptameric pore state bound to 10:0 PC lipid chains derived from 10:0 PC liposomes
Method: single particle / : Chatterjee A, Roy A, Dutta S

PDB-9ktm:
Alpha-hemolysin heptameric pre-pore state bound to 10:PC lipid chains derived from 10:0 PC liposomes.
Method: single particle / : Chatterjee A, Roy A, Dutta S

PDB-9kto:
Alpha-hemolysin heptameric late pre-pore state with bound lipids derived from 10:0 PC/Sphingomyelin liposomes
Method: single particle / : Chatterjee A, Roy A, Dutta S

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