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Showing 1 - 50 of 169 items for (author: artur & b)

EMDB-55898:
Cryo-EM structure of Spinacia oleracea cytochrome b6f complex with bound plastocyanin
Method: single particle / : Pietras R, Sarewicz M, Szwalec M, Indyka P, Rawski M, Pintscher S, Mielecki B, Jaciuk M, Koziej L, Glatt S, Osyczka A

PDB-9tgg:
Cryo-EM structure of Spinacia oleracea cytochrome b6f complex with bound plastocyanin
Method: single particle / : Pietras R, Sarewicz M, Szwalec M, Indyka P, Rawski M, Pintscher S, Mielecki B, Jaciuk M, Koziej L, Glatt S, Osyczka A

EMDB-53716:
Hexahistidine-tagged tobacco mosaic virus coat protein 3-layer disk
Method: single particle / : Biela AP, Abu-Baker I

EMDB-53717:
Hexahistidine-tagged tobacco mosaic virus coat protein 4-layer disk
Method: single particle / : Biela AP, Abu-Baker I

EMDB-53718:
Hexahistidine-tagged tobacco mosaic virus coat protein 5-layer disk
Method: single particle / : Biela AP, Abu-Baker I

EMDB-53720:
Hexahistidine-tagged tobacco mosaic virus coat protein 6-layer disk
Method: single particle / : Biela AP, Abu-Baker I

EMDB-52412:
CryoEM structure of human peptidylarginine deiminase type 4 (PAD4) in complex with heparin oligomer (20 subunits) in 0.1 mM calcium
Method: single particle / : Bereta GP, Bielecka E, Biela AP, Wilk P, Wator-Wilk E, Grudnik P, Kantyka T

EMDB-52413:
CryoEM structure of human peptidylarginine deiminase type 4 (PAD4) in 10 mM calcium
Method: single particle / : Bereta GP, Bielecka E, Biela AP, Wilk P, Wator-Wilk E, Grudnik P, Kantyka T

EMDB-52414:
CryoEM structure of human peptidylarginine deiminase type 4 (PAD4) in complex with heparin oligomer (20 subunits).
Method: single particle / : Bereta G, Bielecka E, Biela A, Wilk P, Wator-Wilk E, Grudnik P, Kantyka T

EMDB-52415:
CryoEM structure of human peptidylarginine deiminase type 4 (PAD4) in complex with heparin oligomer (12 subunits)
Method: single particle / : Bereta GP, Bielecka E, Biela AP, Wilk P, Wator-Wilk E, Grudnik P, Kantyka T

PDB-9huh:
CryoEM structure of human peptidylarginine deiminase type 4 (PAD4) in 10 mM calcium
Method: single particle / : Bereta GP, Bielecka E, Biela AP, Wilk P, Wator-Wilk E, Grudnik P, Kantyka T

PDB-9hui:
CryoEM structure of human peptidylarginine deiminase type 4 (PAD4) in complex with heparin oligomer (20 subunits).
Method: single particle / : Bereta G, Bielecka E, Biela A, Wilk P, Wator-Wilk E, Grudnik P, Kantyka T

PDB-9huj:
CryoEM structure of human peptidylarginine deiminase type 4 (PAD4) in complex with heparin oligomer (12 subunits)
Method: single particle / : Bereta GP, Bielecka E, Biela AP, Wilk P, Wator-Wilk E, Grudnik P, Kantyka T

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-18904:
Structure of the Co(II) triggered TRAP (S33HK35H) protein cage (levo form)
Method: single particle / : Biela AP, Heddle JG

EMDB-18905:
Structure of the Co(II) triggered TRAP (S33HK35H) protein cage (dextro form)
Method: single particle / : Biela AP, Heddle JG

EMDB-18906:
Structure of the Zn(II) triggered TRAP (S33HK35H) protein cage (levo form)
Method: single particle / : Biela AP

EMDB-18907:
Structure of the Zn(II) triggered TRAP (S33HK35H) protein cage (dextro form)
Method: single particle / : Biela AP

EMDB-18908:
Structure of the Zn(II) triggered TRAP (K35C) protein cage (levo form)
Method: single particle / : Biela AP

EMDB-18909:
Structure of the Zn(II) triggered TRAP (K35C) protein cage (dextro form)
Method: single particle / : Biela AP

PDB-8r59:
Structure of the Co(II) triggered TRAP (S33HK35H) protein cage (levo form)
Method: single particle / : Biela AP, Heddle JG

PDB-8r5a:
Structure of the Co(II) triggered TRAP (S33HK35H) protein cage (dextro form)
Method: single particle / : Biela AP, Heddle JG

EMDB-16950:
cryo-EM structure of human tRNA(AspGUC)
Method: single particle / : Biela AP

EMDB-17972:
Cryo-EM structure of DHS-ERK2 complex with 1:1 stoichiometry refined in C1 symmetry
Method: single particle / : Kochanowski P, Biela AP, Grudnik P

EMDB-17977:
Cryo-EM structure of the third of three possible DHS-ERK2 complexes with 1:2 stoichiometry refined in C1 symmetry
Method: single particle / : Kochanowski P, Biela AP, Grudnik P

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Feb 9, 2022. New format data for meta-information of EMDB entries

New format data for meta-information of EMDB entries

  • Version 3 of the EMDB header file is now the official format.
  • The previous official version 1.9 will be removed from the archive.

Related info.:EMDB header

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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

  • The Nobel Prize in Physiology or Medicine 2021 was awarded jointly to David Julius and Ardem Patapoutian "for their discoveries of receptors for temperature and touch."
  • EM Navigator can help to find cryo-EM structure data by both pioneers.

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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Related info.:Covid-19 info / Mar 5, 2020. Novel coronavirus structure data

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