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Showing all 29 items for (author: baker & mr)
EMDB-41153:
Integrin alpha-v beta-8 in complex with minibinder B8_BP_dsulf
Method: single particle / : Campbell MG, Fernandez A, Roy A, Kraft J, Baker D
EMDB-41154:
Integrin alpha-v beta-6 in complex with minibinder B6_BP_dslf
Method: single particle / : Campbell MG, Fernandez A, Roy A, Kraft J, Baker D
EMDB-16803:
AP2 bound to MSP1 nanodisc with Tgn38 cargo peptide
Method: single particle / : Baker RW, Sarsam R, Cannon KS
EMDB-16804:
AP2 bound to MSP1E3D1 nanodisc with Tgn38 cargo peptide
Method: single particle / : Baker RW, Sarsam R, Cannon KS
EMDB-29977:
AP2 bound to an MSP1 nanodisc
Method: single particle / : Sarsam RD, Cannon KS, Baker RW
EMDB-40034:
Structure of AP2 bound to MSP1E3D1 nanodisc
Method: single particle / : Sarsam RD, Cannon KS, Baker RW
EMDB-40035:
Structure of AP2 bound to MSP2N2 nanodisc
Method: single particle / : Sarsam RD, Cannon KS, Baker RW
EMDB-40963:
AP2 bound to MSP2N2 nanodisc with Tgn38 cargo peptide; focused refinement 1
Method: single particle / : Baker RW, Sarsam R, Cannon KS
EMDB-40964:
AP2 bound to MSP2N2 nanodisc with Tgn38 cargo peptide; focused refinement 2
Method: single particle / : Baker RW, Sarsam R, Cannon KS
EMDB-40965:
AP2 bound to MSP2N2 nanodisc with Tgn38 cargo peptide; focused refinement 3
Method: single particle / : Baker RW, Sarsam R, Cannon KS
EMDB-40966:
AP2 bound to MSP2N2 nanodisc with Tgn38 cargo peptide; consensus refinement
Method: single particle / : Baker RW, Sarsam R, Cannon KS
EMDB-40973:
AP2 bound to MSP2N2 nanodisc with Tgn38 cargo peptide; composite map
Method: single particle / : Baker RW, Cannon KS, Reta S
PDB-8t1o:
AP2 bound to MSP2N2 nanodisc with Tgn38 cargo peptide; composite map
Method: single particle / : Baker RW, Cannon KS, Reta S
EMDB-27982:
Structure of the full-length IP3R1 channel determined at high Ca2+
Method: single particle / : Fan G, Baker MR, Terry LE, Arige V, Chen M, Seryshev AB, Baker ML, Ludtke SJ, Yule DI, Serysheva II
EMDB-27983:
Structure of the full-length IP3R1 channel determined in the presence of Calcium/IP3/ATP
Method: single particle / : Fan G, Baker MR, Terry LE, Arige V, Chen M, Seryshev AB, Baker ML, Ludtke SJ, Yule DI, Serysheva II
EMDB-23337:
Structure of full-length IP3R1 channel reconstituted into lipid nanodisc in the apo-state
Method: single particle / : Baker MR, Fan G
EMDB-23338:
Structure of full-length IP3R1 channel solubilized in LNMG & lipid in the apo-state
Method: single particle / : Baker MR, Fan G
EMDB-21705:
PL-bound rat TRPV2 in nanodiscs
Method: single particle / : Pumroy RP, Moiseenkova-Bell VY
PDB-6wkn:
PL-bound rat TRPV2 in nanodiscs
Method: single particle / : Pumroy RP, Moiseenkova-Bell VY
EMDB-23265:
Computationally designed icosahedral antibody nanocage with Fc i52.3+Fc
Method: single particle / : Dang HV, Veesler D
EMDB-23266:
Computationally designed octahedral antibody nanocage with Fc o42.1+Fc
Method: single particle / : Dang HV, Veesler D
EMDB-9243:
Structure of full-length IP3R1 channel bound with Adenophostin A (composite)
Method: single particle / : Serysheva II, Fan G, Baker MR, Wang Z, Seryshev A, Ludtke SJ, Baker ML
EMDB-9244:
Structure of full-length IP3R1 channel in Apo-state (composite)
Method: single particle / : Serysheva II, Fan G, Baker MR, Wang Z, Seryshev A, Ludtke SJ, Baker ML
EMDB-9245:
Structure of full-length IP3R1 channel in ligand-bound state
Method: single particle / : Fan G, Baker MR, Wang Z, Seryshev AB, Ludtke SJ, Baker ML, Serysheva II
EMDB-9246:
Structure of full-length IP3R1 channel in Apo-state
Method: single particle / : Fan G, Baker MR, Wang Z, Seryshev AB, Ludtke SJ, Baker ML, Serysheva II
EMDB-9247:
Structure of full-length IP3R1 channel in ligand-bound state
Method: single particle / : Fan G, Baker MR, Wang Z, Seryshev AB, Ludtke SJ, Baker ML, Serysheva II
EMDB-9248:
Structure of full-length IP3R1 channel in Apo-state
Method: single particle / : Fan G, Baker MR, Wang Z, Seryshev AB, Ludtke SJ, Baker ML, Serysheva II
EMDB-6369:
Structure of full-length IP3R1 channel in the apo-state determined by single particle cryo-EM
Method: single particle / : Fan G, Baker ML, Wang Z, Baker MR, Sinyagovskiy PA, Chiu W, Ludtke SJ, Serysheva II
EMDB-5438:
3D reconstruction of a self-assembling designed oligomer with octahedral symmetry
Method: single particle / : Vollmar BS, King NP, Baker D, Gonen T