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Showing 1 - 50 of 113 items for (author: kamel & m)

EMDB-53560:
Structure of a stalled E. coli 70S RNC-NuoK-48 in complex with the SecYEG Translocon.
Method: single particle / : Rosales-Hernandez C, Busch M, Kamel M, Beckmann R, Kedrov A

EMDB-53568:
Structure of a stalled E. coli 70S RNC-NuoK-48 in complex with the SecYEG Translocon (Focused Refinement)
Method: single particle / : Rosales-Hernandez C, Busch M, Kamel M, Beckmann R, Kedrov A

EMDB-53584:
Structure of a stalled E. coli 70S RNC-NuoK-86-E36K-E76K-mutant in complex with the SecYEG-YidC membrane protein insertase
Method: single particle / : Rosales-Hernandez C, Busch M, Kamel M, Beckmann R, Kedrov A

EMDB-53585:
Structure of a stalled E. coli 70S RNC-NuoK-86-E36K-E76K-mutant in complex with the SecYEG-YidC membrane protein insertase (Focused Refinement)
Method: single particle / : Rosales-Hernandez C, Busch M, Kamel M, Beckmann R, Kedrov A

EMDB-53587:
Structure of a stalled E. coli 70S RNC-NuoK-86 in complex with the SecYEG-YidC membrane protein insertase
Method: single particle / : Rosales-Hernandez C, Busch M, Kamel M, Beckmann R, Kedrov A

EMDB-53589:
Structure of a stalled E. coli 70S RNC-NuoK-86 in complex with the SecYEG-YidC membrane protein insertase (Focused Refinement)
Method: single particle / : Rosales-Hernandez C, Busch M, Kamel M, Beckmann R, Kedrov A

EMDB-54277:
Cryo-EM structure of DISC1 core
Method: single particle / : Zhou JC

PDB-9rux:
Cryo-EM structure of DISC1 core
Method: single particle / : Zhou JC

EMDB-71831:
Bacillus subtilis teneurin-like protein
Method: single particle / : Low YS, Landsberg MJL

PDB-9pt5:
Bacillus subtilis teneurin-like protein
Method: single particle / : Low YS, Landsberg MJL

EMDB-52847:
Structure of Teneurin-Like Protein (TLP)
Method: single particle / : Raoelijaona F, Zhou J, El-Omari K, Lowe ED, Seiradake E

PDB-9ifo:
Structure of Teneurin-Like Protein (TLP)
Method: single particle / : Raoelijaona F, Zhou J, El-Omari K, Lowe ED, Seiradake E

EMDB-47792:
Structure of full length AMPA receptor GluA2 and auxiliary subunit TARP gamma-2 in complex with anti-miR 17 oligonucleotide RGLS4326
Method: single particle / : Yen LY, Gangwar SP, Yelshanskaya MV, Sobolevsky AI

EMDB-47793:
Structure of AMPA receptor GluA2 and auxiliary subunit TARP gamma-2 (LBD-TMD) in complex with anti-miR 17 oligonucleotide RGLS4326
Method: single particle / : Yen LY, Gangwar SP, Yelshanskaya MV, Sobolevsky AI

PDB-9e9d:
Structure of full length AMPA receptor GluA2 and auxiliary subunit TARP gamma-2 in complex with anti-miR 17 oligonucleotide RGLS4326
Method: single particle / : Yen LY, Gangwar SP, Yelshanskaya MV, Sobolevsky AI

PDB-9e9e:
Structure of AMPA receptor GluA2 and auxiliary subunit TARP gamma-2 (LBD-TMD) in complex with anti-miR 17 oligonucleotide RGLS4326
Method: single particle / : Yen LY, Gangwar SP, Yelshanskaya MV, Sobolevsky AI

EMDB-19777:
M. tuberculosis gyrase holocomplex with 150 bp DNA and gepotidacin
Method: single particle / : Mechaly A, Gubellini F, Yab E, Willand N, Petrella S, Dreneau A, Gioia B, Piveteau C, Djaout K, Lecat E, Wehenkel AM, Alzari PM, Deprez B, Baulard A, Aubry A

PDB-8s7k:
M. tuberculosis gyrase holocomplex with 150 bp DNA and gepotidacin
Method: single particle / : Mechaly A, Gubellini F, Yab E, Willand N, Petrella S

EMDB-50774:
MsbA in DDM inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50775:
MsbA in LMNG inward-facing narrow
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50776:
MsbA in LMNG inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50777:
MsbA in GDN inward-facing narrow
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50778:
MsbA in GDN inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50779:
MsbA in Triton inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50780:
MsbA in Triton inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50782:
MsbA in UDM inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50783:
MsbA in UDM inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50784:
MsbA in MSP1D1 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shearer D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50785:
MsbA in MSP1D1 (EPL:PC) Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50786:
MsbA in MSP1E3D1 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50787:
MsbA in MSP2N2 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50788:
MsbA in peptidisc inward-facing narrow (-) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50789:
MsbA in peptidisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50790:
MsbA in Amphipol A8-35 inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50791:
MsbA in Amphipol A8-35 inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50792:
MsbA in Amphipol 18 inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50793:
MsbA in Amphipol 18 inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

EMDB-50794:
MsbA in MSP2N2 Nanodisc inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuq:
MsbA in DDM inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fur:
MsbA in LMNG inward-facing narrow
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fus:
MsbA in LMNG inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fut:
MsbA in GDN inward-facing narrow
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuu:
MsbA in GDN inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuv:
MsbA in Triton inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuw:
MsbA in Triton inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuy:
MsbA in UDM inward-facing wide open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fuz:
MsbA in UDM inward-facing wide (+) open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fv0:
MsbA in MSP1D1 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shearer D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fv1:
MsbA in MSP1D1 (EPL:PC) Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

PDB-9fv2:
MsbA in MSP1E3D1 Nanodisc inward-facing narrow open
Method: single particle / : Hoffmann L, Baier A, Jorde L, Kamel M, Schaefer J, Schnelle K, Scholz A, Shvarev D, Wong J, Parey K, Januliene D, Moeller A

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