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Showing all 42 items for (author: raia & p)
EMDB-45443: 
Dissecting human monoclonal antibody responses from mRNA and protein-based booster vaccinations against XBB1.5 SARS-CoV-2
Method: single particle / : Bajic G, Jaiswal D
EMDB-45444:
Dissecting human monoclonal antibody responses from mRNA and protein-based booster vaccinations against XBB1.5 SARS-CoV-2
Method: single particle / : Bajic G, Civljak A
PDB-9cci:
Dissecting human monoclonal antibody responses from mRNA and protein-based booster vaccinations against XBB1.5 SARS-CoV-2
Method: single particle / : Bajic G, Jaiswal D
PDB-9ccj:
Dissecting human monoclonal antibody responses from mRNA and protein-based booster vaccinations against XBB1.5 SARS-CoV-2
Method: single particle / : Bajic G, Civljak A
EMDB-47082:
Octahedral small virus-like particles of dengue virus type 2 (local reconstruction)
Method: single particle / : Johnson A, Dodes Traian M, Walsh RM, Jenni S, Harrison SC
EMDB-47083:
Octahedral small virus-like particles of dengue virus type 2 (octahedral reconstruction)
Method: single particle / : Johnson A, Dodes Traian M, Walsh RM, Jenni S, Harrison SC
PDB-9dof:
Octahedral small virus-like particles of dengue virus type 2 (local reconstruction)
Method: single particle / : Johnson A, Dodes Traian M, Walsh RM, Jenni S, Harrison SC
PDB-9dog:
Octahedral small virus-like particles of dengue virus type 2 (octahedral reconstruction)
Method: single particle / : Johnson A, Dodes Traian M, Walsh RM, Jenni S, Harrison SC
EMDB-18541:
Structure of the mu opioid receptor bound to the antagonist nanobody NbE
Method: single particle / : Yu J, Kumar A, Zhang X, Martin C, Raia P, Manglik A, Ballet S, Boland A, Stoeber M
PDB-8qot:
Structure of the mu opioid receptor bound to the antagonist nanobody NbE
Method: single particle / : Yu J, Kumar A, Zhang X, Martin C, Raia P, Manglik A, Ballet S, Boland A, Stoeber M
EMDB-12747:
(h-alpha2M)4 native I
Method: single particle / : Luque D, Goulas T
PDB-7o7l:
(h-alpha2M)4 native I
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
EMDB-12748:
(h-alpha2M)4 native II
Method: single particle / : Luque D, Goulas T
EMDB-12750:
(h-alpha2M)4 semiactivated I state
Method: single particle / : Luque D, Goulas T
EMDB-12751:
(h-alpha2M)4 semiactivated II state
Method: single particle / : Luque D, Goulas T
EMDB-12752:
(h-alpha2M)4 activated state
Method: single particle / : Luque D, Goulas T
EMDB-12753:
(h-alpha2M)4 trypsin-activated state
Method: single particle / : Luque D, Goulas T
EMDB-12754:
(h-alpha2M)4 plasmin-activated I state
Method: single particle / : Luque D, Goulas T
EMDB-12755:
(h-alpha2M)4 plasmin-activated II state
Method: single particle / : Luque D, Goulas T
EMDB-12941:
(h-alpha2M)4 transient I state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
EMDB-12942:
(h-alpha2M)4 transient II state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
EMDB-12943:
(h-alpha2M)4 transient III state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
EMDB-12944:
(h-alpha2M)4 transient IV state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
PDB-7o7m:
(h-alpha2M)4 native II
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
PDB-7o7n:
(h-alpha2M)4 semiactivated I state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
PDB-7o7o:
(h-alpha2M)4 semiactivated II state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
PDB-7o7p:
(h-alpha2M)4 activated state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
PDB-7o7q:
(h-alpha2M)4 trypsin-activated state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
PDB-7o7r:
(h-alpha2M)4 plasmin-activated I state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
PDB-7o7s:
(h-alpha2M)4 plasmin-activated II state
Method: single particle / : Luque D, Goulas T, Mata CP, Mendes SR, Gomis-Ruth FX, Caston JR
EMDB-12368:
CryoEM structure of the human Separase-Cdk1-cyclin B1-Cks1 complex
Method: single particle / : Yu J, Raia P
EMDB-12369:
CryoEM structure of the human Separase-Securin complex
Method: single particle / : Yu J, Raia P
PDB-7nj0:
CryoEM structure of the human Separase-Cdk1-cyclin B1-Cks1 complex
Method: single particle / : Yu J, Raia P, Ghent CM, Raisch T, Sadian Y, Barford D, Raunser S, Morgan DO, Boland A
PDB-7nj1:
CryoEM structure of the human Separase-Securin complex
Method: single particle / : Yu J, Raia P, Ghent CM, Raisch T, Sadian Y, Barford D, Raunser S, Morgan DO, Boland A
EMDB-10497:
CryoEM structure of the binary DOCK2-ELMO1 complex
Method: single particle / : Chang L, Yang J
EMDB-10498:
CryoEM structure of the ternary DOCK2-ELMO1-RAC1 complex
Method: single particle / : Chang L, Yang J
PDB-6tgb:
CryoEM structure of the binary DOCK2-ELMO1 complex
Method: single particle / : Chang L, Yang J, Chang JH, Zhang Z, Boland A, McLaughlin SH, Abu-Thuraia A, Killoran RC, Smith MJ, Cote JF, Barford D
PDB-6tgc:
CryoEM structure of the ternary DOCK2-ELMO1-RAC1 complex.
Method: single particle / : Chang L, Yang J, Chang JH, Zhang Z, Boland A, McLaughlin SH, Abu-Thuraia A, Killoran RC, Smith MJ, Cote JF, Barford D
EMDB-10401:
Cryo-EM structure of the DNA-bound PolD-PCNA processive complex from P. abyssi
Method: single particle / : Madru C, Raia P
PDB-6t8h:
Cryo-EM structure of the DNA-bound PolD-PCNA processive complex from P. abyssi
Method: single particle / : Madru C, Raia P, Hugonneau Beaufet I, Pehau-Arnaudet G, England P, Lindhal E, Delarue M, Carroni M, Sauguet L
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