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Showing 1 - 50 of 379 items for (author: carragher & b)
EMDB-28022:
Adeno-associated virus type 2 VLP displaying M2 peptide
Method: single particle / : Hernandez C, Kopylov M
EMDB-28040:
Adeno-associated virus type 2 VLP displaying Linker peptide
Method: single particle / : Hernandez C, Kopylov M
EMDB-29589:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in super resolution mode, in 0-50 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29591:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in super resolution mode, in 50-100 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29592:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in super resolution mode, in 100-150 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29593:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in super resolution mode, in 150-200 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29594:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in super resolution mode, in 200-500 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29393:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode with a 20 eV energy filter slit, in 200-500 nm Ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29513:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode with a 20 eV energy filter slit, in 150-200 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29535:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode with a 20 eV energy filter slit, in 50-100 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29536:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode with a 20 eV energy filter slit, in 0-50 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29554:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode without energy filter, in 0-50 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29555:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode without energy filter, in 50-100 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29556:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode without energy filter, in 100-150 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29557:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode without energy filter, in 150-200 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29558:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode without energy filter, in 200-500 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29559:
Mouse apoferritin from data collected on Titan Krios with K3 camera in counting mode with a 20 eV energy filter slit, in 100-150 nm Ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29566:
Mouse apoferritin from data collected on Glacios microscope equipped with a Falcon 3 camera operating in integrating mode, in 0-50 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29567:
Mouse apoferritin from data collected on Glacios microscope equipped with a Falcon 3 camera operating in integrating mode, in 50-100 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29568:
Mouse apoferritin from data collected on Glacios microscope equipped with a Falcon 3 camera operating in integrating mode, in 100-150 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29569:
Mouse apoferritin from data collected on Glacios microscope equipped with a Falcon 3 camera operating in integrating mode, in 150-200 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29570:
Mouse apoferritin from data collected on Glacios microscope equipped with a Falcon 3 camera operating in integrating mode, in 200-500 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29573:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in counting mode, in 0-50 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29574:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in counting mode, in 50-100 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29575:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in counting mode, in 100-150 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29576:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in counting mode, in 150-200 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-29577:
Mouse apoferritin from data collected on Talos Arctica microscope equipped with a K3 camera operating in counting mode, in 200-500 nm ice thickness
Method: single particle / : Neselu K, Wang B, Rice WJ, Potter CS, Carragher B, Chua EYD
EMDB-24757:
Insulin Degrading Enzyme pO/pC
Method: single particle / : Mancl JM, Liang WG, Tang WJ
EMDB-24758:
Insulin Degrading Enzyme O/pC
Method: single particle / : Mancl JM, Liang WG, Tang WJ
EMDB-24759:
Insulin Degrading Enzyme O/pO
Method: single particle / : Mancl JM, Liang WG, Tang WJ
EMDB-24760:
Insulin Degrading Enzyme O/O
Method: single particle / : Mancl JM, Liang WG, Tang WJ
EMDB-24761:
Insulin Degrading Enzyme pC/pC
Method: single particle / : Mancl JM, Liang WG, Tang WJ
EMDB-26396:
CryoET of E. coli prepared with the Waffle Method
Method: electron tomography / : Kelley K, Raczkowski AM, Klykov O, Jaroenlak P, Bobe D, Kopylov M, Eng ET, Bhabha G, Potter CS, Carragher B, Noble AJ
EMDB-25921:
CryoET of presequence protease single particle
Method: electron tomography / : Noble AJ, Liang W, Tang WJ
EMDB-25143:
Structure of positive allosteric modulator-bound active human calcium-sensing receptor
Method: single particle / : Park J, Zuo H, Frangaj A, Fu Z, Yen LY, Zhang Z, Mosyak L, Slavkovich VN, Liu J, Ray KM, Cao B, Vallese F, Geng Y, Chen S, Grassucci R, Dandey VP, Tan YZ, Eng E, Lee Y, Kloss B, Liu Z, Hendrickson WA, Potter CS, Carragher B, Graziano J, Conigrave AD, Frank J, Clarke OB, Fan QR
EMDB-25144:
Structure of positive allosteric modulator-free active human calcium-sensing receptor
Method: single particle / : Park J, Zuo H, Frangaj A, Fu Z, Yen LY, Zhang Z, Mosyak L, Slavkovich VN, Liu J, Ray KM, Cao B, Vallese F, Geng Y, Chen S, Grassucci R, Dandey VP, Tan YZ, Eng E, Lee Y, Kloss B, Liu Z, Hendrickson WA, Potter CS, Carragher B, Graziano J, Conigrave AD, Frank J, Clarke OB, Fan QR
EMDB-25145:
Structure of negative allosteric modulator-bound inactive human calcium-sensing receptor
Method: single particle / : Park J, Zuo H, Frangaj A, Fu Z, Yen LY, Zhang Z, Mosyak L, Slavkovich VN, Liu J, Ray KM, Cao B, Vallese F, Geng Y, Chen S, Grassucci R, Dandey VP, Tan YZ, Eng E, Lee Y, Kloss B, Liu Z, Hendrickson WA, Potter CS, Carragher B, Graziano J, Conigrave AD, Frank J, Clarke OB, Fan QR
PDB-7sil:
Structure of positive allosteric modulator-bound active human calcium-sensing receptor
Method: single particle / : Park J, Zuo H, Frangaj A, Fu Z, Yen LY, Zhang Z, Mosyak L, Slavkovich VN, Liu J, Ray KM, Cao B, Vallese F, Geng Y, Chen S, Grassucci R, Dandey VP, Tan YZ, Eng E, Lee Y, Kloss B, Liu Z, Hendrickson WA, Potter CS, Carragher B, Graziano J, Conigrave AD, Frank J, Clarke OB, Fan QR
PDB-7sim:
Structure of positive allosteric modulator-free active human calcium-sensing receptor
Method: single particle / : Park J, Zuo H, Frangaj A, Fu Z, Yen LY, Zhang Z, Mosyak L, Slavkovich VN, Liu J, Ray KM, Cao B, Vallese F, Geng Y, Chen S, Grassucci R, Dandey VP, Tan YZ, Eng E, Lee Y, Kloss B, Liu Z, Hendrickson WA, Potter CS, Carragher B, Graziano J, Conigrave AD, Frank J, Clarke OB, Fan QR
PDB-7sin:
Structure of negative allosteric modulator-bound inactive human calcium-sensing receptor
Method: single particle / : Park J, Zuo H, Frangaj A, Fu Z, Yen LY, Zhang Z, Mosyak L, Slavkovich VN, Liu J, Ray KM, Cao B, Vallese F, Geng Y, Chen S, Grassucci R, Dandey VP, Tan YZ, Eng E, Lee Y, Kloss B, Liu Z, Hendrickson WA, Potter CS, Carragher B, Graziano J, Conigrave AD, Frank J, Clarke OB, Fan QR
EMDB-22278:
CryoEM structure of human presequence protease in partial open state 1
Method: single particle / : Liang WG, Zhao M, Tang W
EMDB-22279:
CryoEM structure of human presequence protease in partial open state 2
Method: single particle / : Liang WG, Zhao M, Tang W
EMDB-22280:
CryoEM structure of human presequence protease in open state
Method: single particle / : Liang WG, Zhao M, Tang W
EMDB-22281:
CryoEM structure of human presequence protease in partial closed state 1
Method: single particle / : Liang WG, Zhao M, Tang W
PDB-6xos:
CryoEM structure of human presequence protease in partial open state 1
Method: single particle / : Liang WG, Zhao M, Tang W
PDB-6xot:
CryoEM structure of human presequence protease in partial open state 2
Method: single particle / : Liang WG, Zhao M, Tang W
PDB-6xou:
CryoEM structure of human presequence protease in open state
Method: single particle / : Liang WG, Zhao M, Tang W
PDB-6xov:
CryoEM structure of human presequence protease in partial closed state 1
Method: single particle / : Liang WG, Zhao M, Tang W
EMDB-21983:
Single-Particle Cryo-EM Structure of Arabinosyltransferase EmbB from Mycobacterium smegmatis
Method: single particle / : Tan YZ, Rodrigues J
PDB-6x0o:
Single-Particle Cryo-EM Structure of Arabinosyltransferase EmbB from Mycobacterium smegmatis
Method: single particle / : Tan YZ, Rodrigues J, Keener JE, Zheng RB, Brunton R, Kloss B, Giacometti SI, Rosario AL, Zhang L, Niederweis M, Clarke OB, Lowary TL, Marty MT, Archer M, Potter CS, Carragher B, Mancia F
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