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Showing 1 - 50 of 1,552 items for (author: gal & a)
EMDB-40436:
48-nm doublet microtubule from Tetrahymena thermophila strain MEC17
Method: single particle / : Black CS, Kubo S, Yang SK, Bui KH
PDB-8sf7:
48-nm doublet microtubule from Tetrahymena thermophila strain MEC17
Method: single particle / : Black CS, Kubo S, Yang SK, Bui KH
EMDB-42680:
Cryo-EM structure of an Enterobacter GH43 Beta-Xylosidase: EcXyl43
Method: single particle / : Briganti L, Godoy AS, Capetti CCM, Portugal RV, Polikarpov I
PDB-8uws:
Cryo-EM structure of an Enterobacter GH43 Beta-Xylosidase: EcXyl43
Method: single particle / : Briganti L, Godoy AS, Capetti CCM, Portugal RV, Polikarpov I
EMDB-18879:
Roco protein from C. tepidum in the GTP state bound to an activating Nanobody
Method: single particle / : Galicia C, Fislage M, Versees W
EMDB-18882:
Roco protein from C. tepidum in the GTP state bound to the activating Nanobodies NbRoco1 and NbRoco2
Method: single particle / : Galicia C, Fislage M, Versees W
EMDB-18884:
Ensemble map of the Roco protein from C. tepidum in the GTP state bound to the activating Nanobodies NbRoco1 and NbRoco2
Method: single particle / : Galicia C, Versees W
EMDB-18885:
Focused map on the LRR domain of the Roco protein from C. tepidum bound to the activating Nanobody NbRoco2
Method: single particle / : Galicia C, Versees W
EMDB-18886:
Focused map on the Roc-COR domains of the Roco protein from C. tepidum in the GTP state bound to the activating Nanobody NbRoco1
Method: single particle / : Galicia C, Versees W
PDB-8r4b:
Roco protein from C. tepidum in the GTP state bound to the activating Nanobodies NbRoco1 and NbRoco2
Method: single particle / : Galicia C, Versees W
PDB-8r4c:
LRR domain of Roco protein from C. tepidum bound to the activating Nanobody NbRoco2
Method: single particle / : Galicia C, Versees W
PDB-8r4d:
Focused map on the Roc-COR domains of the Roco protein from C. tepidum in the GTP state bound to the activating Nanobody NbRoco1
Method: single particle / : Galicia C, Versees W
EMDB-41373:
E. coli MraY mutant-T23P
Method: single particle / : Orta AK, Li YE, Clemons WM
PDB-8tlu:
E. coli MraY mutant-T23P
Method: single particle / : Orta AK, Li YE, Clemons WM
EMDB-42949:
Microtubule inner proteins in the 48-nm doublet microtubule from the proximal region of Tetrahymena thermophila strain K40R
Method: single particle / : Legal T, Bui KH, Yang SK
PDB-8v3l:
Microtubule inner proteins in the 48-nm doublet microtubule from the proximal region of Tetrahymena thermophila strain K40R
Method: single particle / : Legal T, Bui KH
EMDB-43736:
Umb1 umbrella toxin particle
Method: single particle / : Park YJ, Zhao Q, Seattle Structural Genomics Center for Infectious Disease (SSGCID), DiMaio F, Mougous JD, Veesler D
EMDB-43737:
Umb1 umbrella toxin particle (local refinement of UmbB1 bound ALF of UmbC1 and UmbA1)
Method: single particle / : Park YJ, Zhao Q, Seattle Structural Genomics Center for Infectious Disease (SSGCID), DiMaio F, Mougous JD, Veesler D
PDB-8w20:
Umb1 umbrella toxin particle
Method: single particle / : Park YJ, Zhao Q, Seattle Structural Genomics Center for Infectious Disease (SSGCID), DiMaio F, Mougous JD, Veesler D
PDB-8w22:
Umb1 umbrella toxin particle (local refinement of UmbB1 bound ALF of UmbC1 and UmbA1)
Method: single particle / : Park YJ, Zhao Q, Seattle Structural Genomics Center for Infectious Disease (SSGCID), DiMaio F, Mougous JD, Veesler D
EMDB-41434:
Bottom cylinder of high-resolution phycobilisome quenched by OCP (local refinement)
Method: single particle / : Sauer PV, Sutter M, Cupellini L, Kirst H, Kerfeld CA
EMDB-41435:
Central rod disk in C1 symmetry of high-resolution phycobilisome quenched by OCP (local refinement)
Method: single particle / : Sauer PV, Sutter M, Cupellini L, Kirst H, Kerfeld CA
EMDB-41436:
Central rod disk in D3 symmetry of high-resolution phycobilisome quenched by OCP (local refinement)
Method: single particle / : Sauer PV, Sutter M, Cupellini L, Kirst H, Kerfeld CA
EMDB-41463:
Synechocystis PCC 6803 Phycobilisome quenched by OCP, high resolution
Method: single particle / : Sauer PV, Sutter M, Cupellini L
EMDB-41475:
Top cylinder bound to OCP from high-resolution phycobilisome quenched by OCP (local refinement)
Method: single particle / : Sauer PV, Sutter M, Cupellini L
EMDB-41585:
Rod from high-resolution phycobilisome quenched by OCP (local refinement)
Method: single particle / : Sauer PV, Sutter M, Cupellini L
PDB-8to2:
Bottom cylinder of high-resolution phycobilisome quenched by OCP (local refinement)
Method: single particle / : Sauer PV, Sutter M, Cupellini L
PDB-8to5:
Central rod disk in C1 symmetry of high-resolution phycobilisome quenched by OCP (local refinement)
Method: single particle / : Sauer PV, Sutter M, Cupellini L
PDB-8tpj:
Top cylinder bound to OCP from high-resolution phycobilisome quenched by OCP (local refinement)
Method: single particle / : Sauer PV, Sutter M, Cupellini L
PDB-8tro:
Rod from high-resolution phycobilisome quenched by OCP (local refinement)
Method: single particle / : Sauer PV, Sutter M, Cupellini L
EMDB-43083:
S. aureus TarL H300N in complex with CDP-ribitol (single tetramer)
Method: single particle / : Li FKK, Worrall LJ, Strynadka NCJ
EMDB-43084:
S. aureus TarL H300N in complex with CDP-ribitol (two tetramers with CHAPS micelle)
Method: single particle / : Li FKK, Strynadka NCJ, Worrall LJ
PDB-8va1:
S. aureus TarL H300N in complex with CDP-ribitol (single tetramer)
Method: single particle / : Li FKK, Worrall LJ, Strynadka NCJ
EMDB-18267:
Structure of the human 20S U5 snRNP core
Method: single particle / : Schneider S, Galej WP
EMDB-19041:
Structure of the human 20S U5 snRNP
Method: single particle / : Schneider S, Galej WP
PDB-8q91:
Structure of the human 20S U5 snRNP core
Method: single particle / : Schneider S, Galej WP
PDB-8rc0:
Structure of the human 20S U5 snRNP
Method: single particle / : Schneider S, Galej WP
EMDB-19184:
Late alpha-Synuclein fibril structure from liquid-liquid phase separations.
Method: helical / : De Simone A, Barritt JD, Chen S, Cascella R, Cecchi C, Bigi A, Jarvis JA, Chiti F, Dobson CM, Fusco G
PDB-8ri9:
Late alpha-Synuclein fibril structure from liquid-liquid phase separations.
Method: helical / : De Simone A, Barritt JD, Chen S, Cascella R, Cecchi C, Bigi A, Jarvis JA, Chiti F, Dobson CM, Fusco G
EMDB-42681:
The structure of the native cardiac thin filament troponin core in Ca2+-free state from the upper strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42682:
The structure of the native cardiac thin filament troponin core in Ca2+-free tilted state from the upper strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42683:
The structure of the native cardiac thin filament troponin core in Ca2+-free rotated state from the upper strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42800:
The structure of the native cardiac thin filament troponin core in Ca2+-free state from the lower strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42833:
The structure of the native cardiac thin filament troponin core in Ca2+-free rotated state from the lower strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42835:
The structure of the native cardiac thin filament troponin core in Ca2+-free tilted state from the lower strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42846:
The structure of the native cardiac thin filament troponin core in Ca2+-bound fully activated state from the upper strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42847:
The structure of the native cardiac thin filament troponin core in Ca2+-bound partially activated state from the upper strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42849:
The structure of the native cardiac thin filament troponin core in Ca2+-bound fully activated state 1 from the lower strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42856:
The structure of the native cardiac thin filament troponin core in Ca2+-bound fully activated state 2 from the lower strand
Method: single particle / : Galkin VE, Risi CM
EMDB-42858:
The structure of the native cardiac thin filament troponin core in Ca2+-bound partially activated state from the lower strand
Method: single particle / : Galkin VE, Risi CM
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