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Showing 1 - 50 of 242 items for (author: kler & s)

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-51544:
Cryo-EM structure of mouse PMCA-NPTN complex captured in E2 state (BEF3)
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

EMDB-51545:
Cryo-EM structure of mouse PMCA-NPTN complex captured in E1 state without calcium
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

EMDB-51546:
Mouse PMCA-NPTN complex captured in E1-ATP state without calcium
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

EMDB-51547:
Cryo-EM structure of mouse PMCA-NPTN complex captured in E2-Pi state (ALF4)
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

EMDB-51548:
Cryo-EM structure of PMCA-NPTN complex captured in E1-Ca-ATP state
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

EMDB-51549:
Cryo-EM structure of mouse PMCA captured in E1-ATP in the presence of Calcium
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

EMDB-51558:
Cryo-EM structure of mouse PMCA captured in E2-P state (BEF3)
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

EMDB-51560:
Cryo-EM structure of Mouse PMCA-NPTN complex captured in E1-Ca state
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Shulte U, Constantin CE, Prubaum D, Zolles G, Fakler B

EMDB-51625:
Cryo-EM map of the complete PMCA-NPTN complex captured in E1-Ca state
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Shulte U, Constantin CE, Prubaum D, Zolles G, Fakler B

PDB-9gsd:
Cryo-EM structure of mouse PMCA-NPTN complex captured in E2 state (BEF3)
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

PDB-9gse:
Cryo-EM structure of mouse PMCA-NPTN complex captured in E1 state without calcium
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

PDB-9gsf:
Mouse PMCA-NPTN complex captured in E1-ATP state without calcium
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

PDB-9gsg:
Cryo-EM structure of mouse PMCA-NPTN complex captured in E2-Pi state (ALF4)
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

PDB-9gsh:
Cryo-EM structure of PMCA-NPTN complex captured in E1-Ca-ATP state
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

PDB-9gsi:
Cryo-EM structure of mouse PMCA captured in E1-ATP in the presence of Calcium
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

PDB-9gsy:
Cryo-EM structure of mouse PMCA captured in E2-P state (BEF3)
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Schulte U, Constantin CE, Prumbaum D, Zolles G, Fakler B

PDB-9gtb:
Cryo-EM structure of Mouse PMCA-NPTN complex captured in E1-Ca state
Method: single particle / : Vinayagam D, Raunser S, Sistel O, Shulte U, Constantin CE, Prubaum D, Zolles G, Fakler B

EMDB-52589:
Cryo-tomogram of FIB-milled wild-type untreated yeast cell
Method: electron tomography / : Bonassera M, Peter M

EMDB-52590:
Cryo-tomogram of a FIB-milled stm1-deletion untreated yeast cell
Method: electron tomography / : Bonassera M, Peter M

EMDB-52591:
Cryo-tomogram of a FIB-milled wild-type rapamycin treated yeast cell
Method: electron tomography / : Bonassera M, Peter M

EMDB-52592:
Cryo-tomogram of a FIB-milled stm1-deletion rapamycin treated yeast cell
Method: electron tomography / : Bonassera M, Peter M

EMDB-47066:
Human ClC-3:noTMEM9
Method: single particle / : Son Y, Schrecker M, Hite RK

EMDB-47067:
Human ClC-3:TMEM9, TMEM9 Protomer A and B: Complete
Method: single particle / : Son Y, Schrecker M, Hite RK

EMDB-47068:
Human ClC-3:TMEM9, TMEM9 Protomer A: No CDTMEM9, Protomer B: No LD, No CD
Method: single particle / : Son Y, Schrecker M, Hite RK

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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.

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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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  • 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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