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Showing 1 - 50 of 948 items for (author: arie & m)
EMDB-43712:
Human EBP complexed with compound 1
Method: single particle / : Sun D, Masureel M
EMDB-43713:
Human EBP complexed with compound 3a
Method: single particle / : Sun D, Masureel M
PDB-8w0r:
Human EBP complexed with compound 1
Method: single particle / : Sun D, Masureel M
PDB-8w0s:
Human EBP complexed with compound 3a
Method: single particle / : Sun D, Masureel M
PDB-8tym:
Cryo-EM of the GDP-bound human dynamin (full-length) polymer assembled on the membrane in the super constricted state
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
PDB-8tyn:
Cryo-EM of the GDP-bound human dynamin polymer assembled on the membrane in the super constricted state (tetramer model)
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
EMDB-17827:
p97 (VCP) mutant - F539A state III
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
PDB-8pqx:
p97 (VCP) mutant - F539A state III
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
EMDB-19475:
p97 (VCP) mutant - F539A ADP state
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
PDB-8rsb:
p97 (VCP) mutant - F539A ADP state
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
EMDB-17837:
p97 (VCP) mutant - F539A (ATP)
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
EMDB-19476:
p97 (VCP) mutant - F539A
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
PDB-8rsc:
p97 (VCP) mutant - F539A
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
EMDB-18517:
p97 (VCP) mutant - F539A with its adaptor
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
EMDB-19473:
p97 (VCP) double mutant - F266A F539A
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
PDB-8rs9:
p97 (VCP) double mutant - F266A F539A
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
EMDB-18790:
p97 (VCP) mutant - F266A
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
PDB-8r0e:
p97 (VCP) mutant - F266A
Method: single particle / : Arie M, Matzov D, Karmona R, Szenkier N, Stanhill A, Navon A
EMDB-42430:
Structure of synaptic vesicle protein 2B with padsevonil
Method: single particle / : Martin MF, Mittal A, Levin E, Adams C, Yang M, Ledecq M, Horanyi PS, Coleman JA
EMDB-42431:
Structure of synaptic vesicle protein 2A in complex with a nanobody
Method: single particle / : Mittal A, Martin MF, Levin E, Adams C, Yang M, Ledecq M, Horanyi PS, Coleman JA
EMDB-42432:
Structure of the synaptic vesicle protein 2A Luminal domain in complex with a nanobody
Method: single particle / : Mittal A, Martin MF, Levin E, Adams C, Yang M, Ledecq M, Horanyi PS, Coleman JA
PDB-8uo8:
Structure of synaptic vesicle protein 2B with padsevonil
Method: single particle / : Martin MF, Mittal A, Levin E, Adams C, Yang M, Ledecq M, Horanyi PS, Coleman JA
PDB-8uo9:
Structure of synaptic vesicle protein 2A in complex with a nanobody
Method: single particle / : Mittal A, Martin MF, Levin E, Adams C, Yang M, Ledecq M, Horanyi PS, Coleman JA
PDB-8uoa:
Structure of the synaptic vesicle protein 2A Luminal domain in complex with a nanobody
Method: single particle / : Mittal A, Martin MF, Levin E, Adams C, Yang M, Ledecq M, Horanyi PS, Coleman JA
EMDB-41024:
MD65 N332-GT5 SOSIP in complex with RM_N332_03 Fab and RM20A3 Fab
Method: single particle / : Ozorowski G, Torres JL, Ward AB
EMDB-41025:
MD65 N332-GT5 SOSIP in complex with RM_N332_36 Fab and RM20A3 Fab
Method: single particle / : Ozorowski G, Torres JL, Ward AB
EMDB-41026:
MD65 N332-GT5 SOSIP in complex with RM_N332_32 Fab and RM20A3
Method: single particle / : Ozorowski G, Torres JL, Ward AB
EMDB-41027:
MD65 N332-GT5 SOSIP in complex with RM_N332_08 Fab and RM20A3 Fab
Method: single particle / : Ozorowski G, Torres JL, Ward AB
EMDB-41034:
MD64 N332-GT5 SOSIP
Method: single particle / : Ozorowski G, Torres JL, Ward AB
EMDB-41035:
MD65 N332-GT5 SOSIP in complex with RM_N332_07 Fab and RM20A3 Fab
Method: single particle / : Ozorowski G, Torres JL, Ward AB
PDB-8t49:
MD65 N332-GT5 SOSIP in complex with RM_N332_03 Fab and RM20A3 Fab
Method: single particle / : Ozorowski G, Torres JL, Ward AB
PDB-8t4a:
MD65 N332-GT5 SOSIP in complex with RM_N332_36 Fab and RM20A3 Fab
Method: single particle / : Ozorowski G, Torres JL, Ward AB
PDB-8t4b:
MD65 N332-GT5 SOSIP in complex with RM_N332_32 Fab and RM20A3
Method: single particle / : Ozorowski G, Torres JL, Ward AB
PDB-8t4d:
MD65 N332-GT5 SOSIP in complex with RM_N332_08 Fab and RM20A3 Fab
Method: single particle / : Ozorowski G, Torres JL, Ward AB
PDB-8t4k:
MD64 N332-GT5 SOSIP
Method: single particle / : Ozorowski G, Torres JL, Ward AB
PDB-8t4l:
MD65 N332-GT5 SOSIP in complex with RM_N332_07 Fab and RM20A3 Fab
Method: single particle / : Ozorowski G, Torres JL, Ward AB
EMDB-40861:
Cryo-EM of the GDP-bound human dynamin polymer assembled on the membrane in the super constricted state
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
EMDB-40901:
Cryo-EM of the GDP-bound human dynamin polymer assembled on the membrane in the super constricted state showing the PH domain
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
EMDB-40902:
Cryo-EM of the GDP-bound human dynamin polymer assembled on the membrane in the super constricted state showing the second PH domain
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
EMDB-40903:
Cryo-EM of the GDP-bound human dynamin polymer assembled on the membrane in the super constricted state (full helix)
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
EMDB-40942:
Cryo-EM of the GDP-bound human dynamin (full-length) polymer assembled on the membrane in the super constricted state
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
EMDB-40946:
Cryo-EM of the GDP-bound human dynamin (full-length) polymer assembled on the membrane in the super constricted state (full helix)
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
PDB-8sxz:
Cryo-EM of the GDP-bound human dynamin polymer assembled on the membrane in the super constricted state
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
PDB-8sz4:
Cryo-EM of the GDP-bound human dynamin polymer assembled on the membrane in the super constricted state showing the PH domain
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
PDB-8sz7:
Cryo-EM of the GDP-bound human dynamin polymer assembled on the membrane in the super constricted state showing the second PH domain
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
PDB-8sz8:
Cryo-EM of the GDP-bound human dynamin polymer assembled on the membrane in the super constricted state (full helix)
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
PDB-8t0k:
Cryo-EM of the GDP-bound human dynamin (full-length) polymer assembled on the membrane in the super constricted state
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
PDB-8t0r:
Cryo-EM of the GDP-bound human dynamin (full-length) polymer assembled on the membrane in the super constricted state (full helix)
Method: helical / : Jimah JR, Canagarajah BJ, Hinshaw JE
EMDB-17125:
Knockout of GMC-oxidoreductase genes reveals that functional redundancy preserves mimivirus essential functions
Method: helical / : Alempic JM, Bisio H, Villalta A, Santini S, Lartigue A, Schmitt A, Bugnot C, Notaro A, Belmudes L, Adrait A, Poirot O, Ptchelkine D, De Castro C, Coute Y, Abergel C
EMDB-17131:
Knockout of GMC-oxidoreductase genes reveals that functional redundancy preserves mimivirus essential functions
Method: helical / : Alempic JM, Bisio H, Villalta A, Santini S, Lartigue A, Schmitt A, Bugnot C, Notaro A, Belmudes L, Adrait A, Poirot O, Ptchelkine D, De Castro C, Coute Y, Abergel C
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