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Showing all 44 items for (author: wu & pl)
EMDB-24128:
Cryo-EM structure of broadly neutralizing V2-apex-targeting antibody J033 in complex with HIV-1 Env
Method: single particle / : Zhou T, Gao F
PDB-7n28:
Cryo-EM structure of broadly neutralizing V2-apex-targeting antibody J033 in complex with HIV-1 Env
Method: single particle / : Zhou T, Gao F
EMDB-24071:
Cryo-EM structure of broadly neutralizing V2-apex-targeting antibody J038 in complex with HIV-1 Env
Method: single particle / : Zhou T, Gao F
PDB-7mxd:
Cryo-EM structure of broadly neutralizing V2-apex-targeting antibody J038 in complex with HIV-1 Env
Method: single particle / : Zhou T, Gao F
EMDB-24060:
Structure of the SARS-CoV-2 Spike trimer with all RBDs down in complex with the Fab fragment of human neutralizing antibody clone 6
Method: single particle / : Hu Y, Xiong Y
EMDB-24061:
Structure of the SARS-CoV-2 Spike trimer with two RBDs down in complex with the Fab fragment of human neutralizing antibody clone 6
Method: single particle / : Hu Y, Xiong Y
EMDB-24062:
Structure of the SARS-CoV-2 Spike trimer with one RBD down in complex with the Fab fragment of human neutralizing antibody clone 6
Method: single particle / : Hu Y, Xiong Y
EMDB-24063:
Structure of the SARS-CoV-2 Spike trimer with one RBD down in complex with the Fab fragment of human neutralizing antibody clone 2
Method: single particle / : Hu Y, Xiong Y
EMDB-24064:
Structure of the SARS-CoV-2 Spike trimer with three RBDs up in complex with the Fab fragment of human neutralizing antibody clone 2
Method: single particle / : Hu Y, Xiong Y
PDB-7mw2:
Structure of the SARS-CoV-2 Spike trimer with all RBDs down in complex with the Fab fragment of human neutralizing antibody clone 6
Method: single particle / : Hu Y, Xiong Y
PDB-7mw3:
Structure of the SARS-CoV-2 Spike trimer with two RBDs down in complex with the Fab fragment of human neutralizing antibody clone 6
Method: single particle / : Hu Y, Xiong Y
PDB-7mw4:
Structure of the SARS-CoV-2 Spike trimer with one RBD down in complex with the Fab fragment of human neutralizing antibody clone 6
Method: single particle / : Hu Y, Xiong Y
PDB-7mw5:
Structure of the SARS-CoV-2 Spike trimer with one RBD down in complex with the Fab fragment of human neutralizing antibody clone 2
Method: single particle / : Hu Y, Xiong Y
PDB-7mw6:
Structure of the SARS-CoV-2 Spike trimer with three RBDs up in complex with the Fab fragment of human neutralizing antibody clone 2
Method: single particle / : Hu Y, Xiong Y
EMDB-25708:
GPC2 HEP CT3 complex
Method: single particle / : Zhu J, Cachau R, De Val Alda N, Li N, Ho M
PDB-7t62:
GPC2 HEP CT3 complex
Method: single particle / : Zhu J, Cachau R, De Val Alda N, Li N, Ho M
EMDB-23494:
Cryo-EM of the SLFN12-PDE3A complex: PDE3A body refinement
Method: single particle / : Fuller JR, Garvie CW, Lemke CT
EMDB-23495:
Cryo-EM of the SLFN12-PDE3A complex: Consensus subset model
Method: single particle / : Fuller JR, Garvie CW, Lemke CT
EMDB-23496:
Cryo-EM of the SLFN12-PDE3A complex: SLFN12 body refinement
Method: single particle / : Fuller JR, Garvie CW, Lemke CT
PDB-7lrc:
Cryo-EM of the SLFN12-PDE3A complex: PDE3A body refinement
Method: single particle / : Fuller JR, Garvie CW, Lemke CT
PDB-7lrd:
Cryo-EM of the SLFN12-PDE3A complex: Consensus subset model
Method: single particle / : Fuller JR, Garvie CW, Lemke CT
PDB-7lre:
Cryo-EM of the SLFN12-PDE3A complex: SLFN12 body refinement
Method: single particle / : Fuller JR, Garvie CW, Lemke CT
EMDB-23099:
Structure of NTS-NTSR1-Gi complex in lipid nanodisc, canonical state, AHD and nanodisc mask out
Method: single particle / : Zhang M, Gui M, Wang Z, Gorgulla C, Yu JJ, Wu H, Sun Z, Klenk C, Merklinger L, Morstein L, Hagn F, Pluckthun A, Brown A, Nasr ML, Wagner G
EMDB-23100:
Structure of NTS-NTSR1-Gi complex in lipid nanodisc, canonical state, overall
Method: single particle / : Zhang M, Gui M, Wang Z, Gorgulla C, Yu JJ, Wu H, Sun Z, Klenk C, Merklinger L, Morstein L, Hagn F, Pluckthun A, Brown A, Nasr ML, Wagner G
EMDB-23101:
Structure of NTS-NTSR1-Gi complex in lipid nanodisc, noncanonical state, AHD and nanodisc mask out
Method: single particle / : Zhang M, Gui M, Wang Z, Gorgulla C, Yu JJ, Wu H, Sun Z, Klenk C, Merklinger L, Morstein L, Hagn F, Pluckthun A, Brown A, Nasr ML, Wagner G
EMDB-23102:
Structure of NTS-NTSR1-Gi complex in lipid nanodisc, noncanonical state, overall
Method: single particle / : Zhang M, Gui M, Wang Z, Gorgulla C, Yu JJ, Wu H, Sun Z, Klenk C, Merklinger L, Morstein L, Hagn F, Pluckthun A, Brown A, Nasr ML, Wagner G
PDB-7l0p:
Structure of NTS-NTSR1-Gi complex in lipid nanodisc, canonical state, without AHD
Method: single particle / : Zhang M, Gui M, Wang Z, Gorgulla C, Yu JJ, Wu H, Sun Z, Klenk C, Merklinger L, Morstein L, Hagn F, Pluckthun A, Brown A, Nasr ML, Wagner G
PDB-7l0q:
Structure of NTS-NTSR1-Gi complex in lipid nanodisc, canonical state, with AHD
Method: single particle / : Zhang M, Gui M, Wang Z, Gorgulla C, Yu JJ, Wu H, Sun Z, Klenk C, Merklinger L, Morstein L, Hagn F, Pluckthun A, Brown A, Nasr ML, Wagner G
PDB-7l0r:
Structure of NTS-NTSR1-Gi complex in lipid nanodisc, noncanonical state, without AHD
Method: single particle / : Zhang M, Gui M, Wang Z, Gorgulla C, Yu JJ, Wu H, Sun Z, Klenk C, Merklinger L, Morstein L, Hagn F, Pluckthun A, Brown A, Nasr ML, Wagner G
PDB-7l0s:
Structure of NTS-NTSR1-Gi complex in lipid nanodisc, noncanonical state, with AHD
Method: single particle / : Zhang M, Gui M, Wang Z, Gorgulla C, Yu JJ, Wu H, Sun Z, Klenk C, Merklinger L, Morstein L, Hagn F, Pluckthun A, Brown A, Nasr ML, Wagner G
PDB-6rvv:
Structure of left-handed protein cage consisting of 24 eleven-membered ring proteins held together by gold (I) bridges.
Method: single particle / : Malay AD, Miyazaki N, Biela AP, Iwasaki K, Heddle JG
PDB-6rvw:
Structure of right-handed protein cage consisting of 24 eleven-membered ring proteins held together by gold (I) bridges.
Method: single particle / : Malay AD, Miyazaki N, Biela AP, Iwasaki K, Heddle JG
EMDB-4443:
Structure of left-handed protein cage consisting of 24 eleven-membered ring proteins held together by gold (I) bridges.
Method: single particle / : Malay AD, Miyazaki N, Biela AP, Iwasaki K, Heddle JG
EMDB-4444:
Structure of right-handed protein cage consisting of 24 eleven-membered ring proteins held together by gold (I) bridges.
Method: single particle / : Malay AD, Miyazaki N, Biela AP, Iwasaki K, Heddle JG
EMDB-6966:
Structure of protein cage consisting of 24 eleven-membered ring proteins induced by addition of gold nanoparticle (GNP)
Method: single particle / : Malay AD, Miyazaki N, Biela A, Chakraborti S, Majsterkiewicz K, Kaplan CS, Hochberg GKA, Wu D, Wrobel TP, Benesch JLP, Iwasaki K, Heddle JG, Kelemen P, Vavpetic P, Pelicon P
EMDB-3241:
Cryo-EM reconstruction of caspase-1 CARD
Method: helical / : Li Y, Lu A, Schmidt FI, Yin Q, Chen S, Fu TM, Tong AB, Ploegh HL, Mao Y, Wu H
PDB-5fna:
Cryo-EM reconstruction of caspase-1 CARD
Method: helical / : Li Y, Lu A, Schmidt FI, Yin Q, Chen S, Fu TM, Tong AB, Ploegh HL, Mao Y, Wu H
PDB-4btq:
Coordinates of the bacteriophage phi6 capsid subunits fitted into the cryoEM map EMD-1206
Method: single particle / : Nemecek D, Boura E, Wu W, Cheng N, Plevka P, Qiao J, Mindich L, Heymann JB, Hurley JH, Steven AC
EMDB-2364:
CryoEM reconstruction of the bacteriophage phi6 procapsid to the near-atomic resolution
Method: single particle / : Nemecek D, Boura E, Wu W, Cheng N, Plevka P, Qiao J, Mindich L, Heymann JB, Hurley JH, Steven AC
PDB-4btg:
Coordinates of the bacteriophage phi6 capsid subunits (P1A and P1B) fitted into the cryoEM reconstruction of the procapsid at 4.4 A resolution
Method: single particle / : Nemecek D, Boura E, Wu W, Cheng N, Plevka P, Qiao J, Mindich L, Heymann JB, Hurley JH, Steven AC
EMDB-5440:
Regulation of mammalian transcription by Gdown1 through a novel steric crosstalk revealed by cryo-EM
Method: single particle / : Wu YM, Chang JW, Wang CH, Lin YC, Wu PL, Huang SH, Chang CC, Hu X, Gnatt A, Chang WH
EMDB-5441:
Regulation of mammalian transcription by Gdown1 through a novel steric crosstalk revealed by cryo-EM
Method: single particle / : Wu YM, Chang JW, Wang CH, Lin YC, Wu PL, Huang SH, Chang CC, Hu X, Gnatt A, Chang WH