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Showing all 25 items for (author: risi & cm)
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
EMDB-42874:
The structure of the native cardiac thin filament troponin core in Ca2+-free state from the upper strand activated by the C1-domain of cardiac myosin binding protein C
Method: single particle / : Galkin VE, Risi CM
EMDB-27331:
The structure of the native cardiac thin filament junction region
Method: single particle / : Galkin VE, Risi CM
EMDB-25911:
Cardiac F-actin decorated with regulatory M-domain of cardiac myosin binding protein C
Method: helical / : Risi CM, Galkin VE
EMDB-25914:
Cardiac thin filament decorated with regulatory M-domain of cardiac myosin binding protein C
Method: helical / : Risi CM, Galkin VE
EMDB-25918:
Cardiac thin filament decorated with C1 Ig-domain and regulatory M-domain of cardiac myosin binding protein C (cMyBP-C)
Method: helical / : Risi CM, Galkin VE
EMDB-23497:
Filamentous actin decorated with human cardiac myosin binding protein C C2 domain
Method: helical / : Galkin VE
EMDB-22964:
Structure of cardiac native thin filament at pCa=5.8 having upper and lower troponins in Ca2+ free state
Method: single particle / : Galkin VE, Risi CM
EMDB-22965:
Structure of cardiac native thin filament at pCa=5.8 having upper and lower troponins in Ca2+ bound state
Method: single particle / : Galkin VE, Risi CM
EMDB-22966:
Structure of the native cardiac thin filament at pCa=5.8 having upper Tn in Ca2+ free state and lower Tn in Ca2+ bound state
Method: single particle / : Galkin VE, Risi CM
EMDB-22978:
Structure of upper Tn Ca2+ free (rotated) and lower Tn Ca2+ bound cardiac native thin filament at pCa=5.8
Method: single particle / : Galkin VE, Risi CM
EMDB-22981:
Structure of cardiac native thin filament at pCa=5.8 having upper troponin in Ca2+ bound state and lower troponin in Ca2+ free state
Method: single particle / : Galkin VE, Risi CM
EMDB-10132:
cryo-EM structure of mTORC1 bound to PRAS40-fused active RagA/C GTPases
Method: single particle / : Anandapadamanaban M, Berndt A
EMDB-10133:
cryo-EM structure of mTORC1 bound to active RagA/C GTPases
Method: single particle / : Anandapadamanaban M, Berndt A
EMDB-8235:
Negative stain structure of Vps15/Vps34 complex
Method: single particle / : Kirsten ML, Zhang L