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Showing 1 - 50 of 58 items for (author: noji & m)

EMDB-68586:
Cryo-EM consensus map of Bovine lactoferrin in TBS buffer
Method: single particle / : Wada M, Yamazaki K, Wada Y, Ohga K, Ishii Y, Nakagawa A, Yoshikawa H, Okuno S, Nojima T, Ochi H, Hirose M, Kato T, Katoh T

EMDB-49839:
ATPase Hybrid F1 with the ancestral core domains Binding Dwell
Method: single particle / : Stewart AG, Noji H, Sobti M, Suzuki AK

EMDB-49840:
ATPase Hybrid F1 with the ancestral core domains Catalytic Dwell
Method: single particle / : Stewart AG, Noji H, Sobti M, Suzuki AK

EMDB-49841:
ATPase hybrid F1 with the ancestral core domains Hexamer without stalk Binding dwell
Method: single particle / : Stewart AG, Noji H, Sobti M, Suzuki AK

EMDB-49842:
ATPase hybrid F1 with the ancestral core domains Tetramer with stalk Binding Dwell
Method: single particle / : Stewart AG, Noji H, Sobti M, Suzuki AK

EMDB-49843:
ATPase hybrid F1 with the ancestral core domains Tetramer no stalk Binding Dwell
Method: single particle / : Stewart AG, Noji H, Sobti M, Suzuki AK

PDB-9nvl:
ATPase Hybrid F1 with the ancestral core domains Binding Dwell
Method: single particle / : Stewart AG, Noji H, Sobti M, Suzuki AK

PDB-9nvm:
ATPase Hybrid F1 with the ancestral core domains Catalytic Dwell
Method: single particle / : Stewart AG, Noji H, Sobti M, Suzuki AK

EMDB-61339:
Engineering of ATP synthase
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61340:
Engineering of ATP synthase Fo
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61341:
Engineering of ATP synthase single stalk1
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61342:
Engineering of ATP synthase single stalk2
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61343:
Engineering of ATP synthase single stalk3
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61344:
Engineering of ATP synthase Double stalks1,2
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61345:
Engineering of ATP synthase Double stalks1,3
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61346:
Engineering of ATP synthase Double stalks2,3
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61347:
Engineering of ATP synthase Zero stalk
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61348:
Engineering of ATP synthase single stalk1 Fo
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61349:
Engineering of ATP synthase single stalk2 Fo
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61350:
Engineering of ATP synthase single stalk3 Fo
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61351:
Engineering of ATP synthase Double stalks1,2 Fo
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61352:
Engineering of ATP synthase Double stalks1,3 Fo
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61353:
Engineering of ATP synthase Double stalks2,3 Fo
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-61354:
Engineering of ATP synthase Zero stalk Fo
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

PDB-9jc1:
Engineering of ATP synthase
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

PDB-9jc2:
Engineering of ATP synthase Fo
Method: single particle / : Hamaguchi-Suzuki N, Ueno H, Yasuda K, Marui R, Adachi N, Senda T, Noji H, Murata T

EMDB-60617:
Tubular PuuE complex with C4 symmetry
Method: helical / : Noji M, Sugita Y, Suzuki Y

EMDB-60618:
Tubular PuuE complex with C5 symmetry
Method: helical / : Noji M, Sugita Y, Suzuki Y

EMDB-60619:
Tubular PuuE complex with C6 symmetry
Method: helical / : Noji M, Sugita Y, Suzuki Y

EMDB-60620:
Tubular PuuE D-loop complex with C3 symmetry
Method: helical / : Noji M, Sugita Y, Suzuki Y

EMDB-60621:
Tubular PuuE D-loop complex with C4 symmetry
Method: helical / : Noji M, Sugita Y, Suzuki Y

EMDB-60622:
Tubular PuuE D-loop complex with C5 symmetry
Method: helical / : Noji M, Sugita Y, Suzuki Y

EMDB-60623:
Tubular PuuE D-loop complex with C6 symmetry
Method: helical / : Noji M, Sugita Y, Suzuki Y

EMDB-40687:
PS3 F1 Rotorless, no ATP
Method: single particle / : Sobti M, Stewart AG

EMDB-40688:
PS3 F1 Rotorless, low ATP
Method: single particle / : Sobti M, Stewart AG

EMDB-40689:
PS3 F1 Rotorless, high ATP
Method: single particle / : Sobti M, Stewart AG

PDB-8spv:
PS3 F1 Rotorless, no ATP
Method: single particle / : Sobti M, Stewart AG

PDB-8spw:
PS3 F1 Rotorless, low ATP
Method: single particle / : Sobti M, Stewart AG

PDB-8spx:
PS3 F1 Rotorless, high ATP
Method: single particle / : Sobti M, Stewart AG

EMDB-33614:
Cryo-EM structure of the Mycolicibacterium smegmatis F1-ATPase
Method: single particle / : Wong CF, Saw WG, Grueber G

EMDB-33615:
Cryo-EM structure of F-ATP synthase from Mycolicibacterium smegmatis (rotational state 1)
Method: single particle / : Saw WG, Wong CF, Grueber G

EMDB-33616:
Cryo-EM structure of F-ATP synthase from Mycolicibacterium smegmatis (rotational state 2)
Method: single particle / : Saw WG, Wong CF, Grueber G

EMDB-33617:
Cryo-EM structure of F-ATP synthase from Mycolicibacterium smegmatis (rotational state 3) (backbone)
Method: single particle / : Saw WG, Wong CF, Grueber G

PDB-7y5a:
Cryo-EM structure of the Mycolicibacterium smegmatis F1-ATPase
Method: single particle / : Wong CF, Saw WG, Grueber G

PDB-7y5b:
Cryo-EM structure of F-ATP synthase from Mycolicibacterium smegmatis (rotational state 1)
Method: single particle / : Saw WG, Wong CF, Grueber G

PDB-7y5c:
Cryo-EM structure of F-ATP synthase from Mycolicibacterium smegmatis (rotational state 2)
Method: single particle / : Saw WG, Wong CF, Grueber G

PDB-7y5d:
Cryo-EM structure of F-ATP synthase from Mycolicibacterium smegmatis (rotational state 3) (backbone)
Method: single particle / : Saw WG, Wong CF, Grueber G

EMDB-23115:
PS3 F1-ATPase Binding/TS Dwell
Method: single particle / : Sobti M, Ueno H

EMDB-23116:
PS3 F1-ATPase Hydrolysis Dwell
Method: single particle / : Sobti M, Ueno H

EMDB-23117:
PS3 F1-ATPase Pi-bound Dwell
Method: single particle / : Sobti M, Ueno H

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