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Showing 1 - 50 of 1,135 items for (author: smith & t)
EMDB-44306: 
Cryo-EM structure of human dynactin complex bound to Chlamydia effector Dre1
Method: single particle / : Pawar KI, Verba KA
EMDB-44333:
Cryo-EM structure of human dynactin complex bound to Chlamydia effector Dre1
Method: single particle / : Pawar KI, Verba KA
PDB-9b7j:
Cryo-EM structure of human dynactin complex bound to Chlamydia effector Dre1
Method: single particle / : Pawar KI, Verba KA
PDB-9b85:
Cryo-EM structure of human dynactin complex bound to Chlamydia effector Dre1
Method: single particle / : Pawar KI, Verba KA
EMDB-48554:
Genetiocally detoxified pertussis toxin in complex with hu1B7 Fab and hu11E6 Fab
Method: single particle / : Goldsmith JA, McLellan JS
PDB-9mr7:
Genetiocally detoxified pertussis toxin in complex with hu1B7 Fab and hu11E6 Fab
Method: single particle / : Goldsmith JA, McLellan JS
EMDB-44061:
Artemia franciscana ATP synthase state 2 (composite structure), pH 7.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44087:
Artemia franciscana ATP synthase state 1, pH 7.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44094:
Artemia franciscana ATP synthase state 3a, pH 7.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44096:
Artemia franciscana ATP synthase F1 domain, state 3a, pH 7.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44142:
Artemia franciscana ATP synthase state 2 (composite structure), pH 8.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44162:
Artemia franciscana ATP synthase FO domain, state 2, pH 7.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44165:
Artemia franciscana ATP synthase F1 domain, state 2, pH 7.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44169:
Artemia franciscana ATP synthase FO domain, state 2, pH 8.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44170:
Artemia franciscana ATP synthase F1 domain, state 2, pH 8.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44172:
Artemia franciscana ATP synthase peripheral stalk, state 2, pH 8.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44173:
Artemia franciscana ATP synthase, state 1, pH 8.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44177:
Artemia franciscana ATP synthase, state 2, FOF1 with weak density of the peripheral stalk, pH 8.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-44776:
Artemia franciscana ATP synthase FO domain, state 1, pH 7.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-49579:
Artemia franciscana ATP synthase, state 2, pH 8.0, consensus map
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-49580:
Artemia franciscana ATP synthase, state 2, pH 7.0, consensus map
Method: single particle / : Mnatsakanyan N, Mello JFR
PDB-9b0x:
Artemia franciscana ATP synthase state 2 (composite structure), pH 7.0
Method: single particle / : Mnatsakanyan N, Mello JFR
PDB-9b3j:
Artemia franciscana ATP synthase state 2 (composite structure), pH 8.0
Method: single particle / : Mnatsakanyan N, Mello JFR
PDB-9bpg:
Artemia franciscana ATP synthase FO domain, state 1, pH 7.0
Method: single particle / : Mnatsakanyan N, Mello JFR
EMDB-47639:
Leishmania tarentolae 48 nm doublet microtubule protofilament 7.2 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47640:
Leishmania tarentolae 48 nm doublet microtubule protofilament 8.1 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47641:
Leishmania tarentolae 48 nm doublet microtubule protofilament 8.2 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47642:
Leishmania tarentolae 48 nm doublet microtubule protofilament 8.3 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47643:
Leishmania tarentolae 48 nm doublet microtubule protofilament 9.1 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47644:
Leishmania tarentolae 48 nm doublet microtubule protofilament 9.2 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47645:
Leishmania tarentolae 48 nm doublet microtubule protofilament 9.3 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47646:
Leishmania tarentolae 48 nm doublet microtubule protofilament 10.1 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47647:
Leishmania tarentolae 48 nm doublet microtubule protofilament 10.2 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47648:
Leishmania tarentolae 48 nm doublet microtubule protofilament 10.3 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47649:
Leishmania tarentolae 48 nm doublet microtubule protofilament ODADC1 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47650:
Leishmania tarentolae 48 nm doublet microtubule protofilament ODADC2 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-47651:
Leishmania tarentolae 48 nm doublet microtubule protofilament 7.3 focused refinement
Method: single particle / : Doran MH, Brown A
EMDB-50675:
Escherichia coli 70S ribosome in situ structure
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50676:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 5 - 10 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50678:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 10 - 15 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50679:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 15 - 20 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50680:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 20 - 25 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50681:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 25 - 30 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50682:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 30 - 35 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50683:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 35 - 40 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50684:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 40 - 45 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50685:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 45 - 50 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50686:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 50 - 55 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50687:
E. coli 70S ribosome in situ structure for xenon damage layer determination: 55 - 60 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
EMDB-50688:
E. coli 70S ribosome in situ structure for xenon damage layer determination: >10nm matched control for 5 - 10 nm
Method: subtomogram averaging / : Watson H, Berger C, Grange M
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