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Showing 1 - 50 of 174 items for (author: paulino & c)
EMDB-18621:
ASCT2 trimer in lipid nanodiscs with bound glutamine and Na+ ions in the outward-facing state (OFS)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
EMDB-18622:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the outward-facing state (OFS.1)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
EMDB-18623:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the outward-facing state (OFS.2)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
EMDB-18624:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the outward-facing state (OFS.3)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
EMDB-18625:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the intermediate outward-facing state (iOFS-up)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
EMDB-18626:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the intermediate outward-facing state (iOFS-down)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
EMDB-18627:
ASCT2 protomer in lipid nanodiscs under low Na+ concentration in the outward-facing state (OFS)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
EMDB-18628:
ASCT2 protomer in lipid nanodiscs under low Na+ concentration in the intermediate outward-facing state (iOFS-up)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
PDB-8qro:
ASCT2 trimer in lipid nanodiscs with bound glutamine and Na+ ions in the outward-facing state (OFS)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
PDB-8qrp:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the outward-facing state (OFS.1)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
PDB-8qrq:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the outward-facing state (OFS.2)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
PDB-8qrr:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the outward-facing state (OFS.3)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
PDB-8qrs:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the intermediate outward-facing state (iOFS-up)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
PDB-8qru:
ASCT2 protomer in lipid nanodiscs with bound glutamine and Na+ ions in the intermediate outward-facing state (iOFS-down)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
PDB-8qrv:
ASCT2 protomer in lipid nanodiscs under low Na+ concentration in the outward-facing state (OFS)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
PDB-8qrw:
ASCT2 protomer in lipid nanodiscs under low Na+ concentration in the intermediate outward-facing state (iOFS-up)
Method: single particle / : Borowska A, Rheinberger J, Paulino C, Slotboom DJ
EMDB-16981:
FMRFa-bound Malacoceros FaNaC1 in lipid nanodiscs
Method: single particle / : Kalienkova V, Dandamudi M, Paulino C, Lynagh T
EMDB-16982:
Apo Malacoceros FaNaC1 in lipid nanodiscs
Method: single particle / : Kalienkova V, Dandamudi M, Paulino C, Lynagh T
EMDB-16983:
ASSFVRIa-bound Malacoceros FaNaC1 in lipid nanodiscs
Method: single particle / : Kalienkova V, Dandamudi M, Paulino C, Lynagh T
EMDB-16984:
FMRFa-bound Malacoceros FaNaC1 in lipid nanodiscs in presence of diminazene
Method: single particle / : Kalienkova V, Dandamudi M, Paulino C, Lynagh T
PDB-8on7:
FMRFa-bound Malacoceros FaNaC1 in lipid nanodiscs
Method: single particle / : Kalienkova V, Dandamudi M, Paulino C, Lynagh T
PDB-8on8:
Apo Malacoceros FaNaC1 in lipid nanodiscs
Method: single particle / : Kalienkova V, Dandamudi M, Paulino C, Lynagh T
PDB-8on9:
ASSFVRIa-bound Malacoceros FaNaC1 in lipid nanodiscs
Method: single particle / : Kalienkova V, Dandamudi M, Paulino C, Lynagh T
PDB-8ona:
FMRFa-bound Malacoceros FaNaC1 in lipid nanodiscs in presence of diminazene
Method: single particle / : Kalienkova V, Dandamudi M, Paulino C, Lynagh T
EMDB-17596:
Ligand-free SpSLC9C1 in lipid nanodiscs, dimer
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17598:
Ligand-free SpSLC9C1 in lipid nanodiscs, protomer state 1
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17599:
Ligand-free SpSLC9C1 in lipid nanodiscs, protomer state 2
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17601:
Ligand-free SpSLC9C1 in lipid nanodiscs, protomer state 3
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17602:
Ligand-free SpSLC9C1 in lipid nanodiscs, protomer state 4
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17603:
Ligand-free SpSLC9C1 in detergent, asymmetric class
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17604:
Ligand-free SpSLC9C1 in detergent, symmetric class
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17605:
cAMP-bound SpSLC9C1 in lipid nanodiscs, dimer
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17607:
cAMP-bound SpSLC9C1 in lipid nanodiscs, protomer state 1
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17621:
cGMP-bound SpSLC9C1 in lipid nanodiscs, dimer
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17622:
cGMP-bound SpSLC9C1 in lipid nanodiscs, protomer
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-17625:
cAMP-bound SpSLC9C1 in lipid nanodiscs, protomer state 2
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
PDB-8pcz:
Ligand-free SpSLC9C1 in lipid nanodiscs, dimer
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
PDB-8pd2:
Ligand-free SpSLC9C1 in lipid nanodiscs, protomer state 1
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
PDB-8pd3:
Ligand-free SpSLC9C1 in lipid nanodiscs, protomer state 2
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
PDB-8pd5:
Ligand-free SpSLC9C1 in lipid nanodiscs, protomer state 3
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
PDB-8pd7:
Ligand-free SpSLC9C1 in lipid nanodiscs, protomer state 4
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
PDB-8pd8:
cAMP-bound SpSLC9C1 in lipid nanodiscs, dimer
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
PDB-8pd9:
cAMP-bound SpSLC9C1 in lipid nanodiscs, protomer state 1
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
PDB-8pdu:
cGMP-bound SpSLC9C1 in lipid nanodiscs, dimer
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
PDB-8pdv:
cGMP-bound SpSLC9C1 in lipid nanodiscs, protomer
Method: single particle / : Kalienkova V, Peter M, Rheinberger J, Paulino C
EMDB-16120:
Cryo-EM structure of the folate-specific ECF transporter complex in MSP2N2 lipid nanodiscs bound to ATP and ADP
Method: single particle / : Thangaratnarajah C, Rheinberger J, Paulino C, Slotboom DJ
EMDB-16121:
Cryo-EM structure of the folate-specific ECF transporter complex in MSP2N2 lipid nanodiscs bound to AMP-PNP
Method: single particle / : Thangaratnarajah C, Rheinberger J, Paulino C, Slotboom DJ
EMDB-16122:
Cryo-EM structure of the wild-type solitary ECF module in MSP2N2 lipid nanodiscs in the ATPase open and nucleotide-free conformation
Method: single particle / : Thangaratnarajah C, Rheinberger J, Paulino C, Slotboom DJ
EMDB-16123:
Cryo-EM structure of the wild-type solitary ECF module in DDM micelles in the ATPase open and nucleotide-free conformation
Method: single particle / : Thangaratnarajah C, Rheinberger J, Paulino C, Slotboom DJ
EMDB-16124:
Cryo-EM structure of the mutant solitary ECF module 2EQ in MSP2N2 lipid nanodiscs in the ATPase closed and ATP-bound conformation
Method: single particle / : Thangaratnarajah C, Rheinberger J, Paulino C, Slotboom DJ
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