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Showing 1 - 50 of 4,419 items for (author: huang & y)
EMDB-40954:
ADP-bound Bcs1 (C7 symmetrized)
Method: single particle / : Zhan J, Xia D
EMDB-41061:
ATP-1 state of Bcs1 (C7 symmetrized)
Method: single particle / : Zhan J, Xia D
EMDB-41095:
ADP-bound Bcs1 (unsymmetrized)
Method: single particle / : Zhan J, Xia D
EMDB-41148:
Apo Bcs1, unsymmetrized
Method: single particle / : Zhan J, Xia D
EMDB-41276:
ATP-1 state of Bcs1 (unsymmetrized)
Method: single particle / : Zhan J, Xia D
EMDB-41462:
ATP-2 state of Bcs1 (C7 symmetrized)
Method: single particle / : Zhan J, Xia D
EMDB-41476:
ATP-2 state of Bcs1 (unsymmetrized)
Method: single particle / : Zhan J, Xia D
EMDB-41609:
Bcs1 bound with ISP-ED
Method: single particle / : Zhan J, Xia D
EMDB-38227:
C. elegans apo-SID1 structure
Method: single particle / : Gong DS
EMDB-38236:
C. elegans SID1 in complex with dsRNA
Method: single particle / : Gong DS
EMDB-39546:
SARS-CoV-2 Delta Spike in complex with JL-8C
Method: single particle / : Nguyen VHT, Chen X
EMDB-39547:
SARS-CoV-2 Delta Spike in complex with JM-1A
Method: single particle / : Nguyen VHT, Chen X
EMDB-39685:
SARS-CoV-2 Delta Spike in complex with Fab of JE-5C
Method: single particle / : Chen X, Wu YM
EMDB-39686:
SARS-CoV-2 Spike (BA.1) in complex with Fab of JH-8B
Method: single particle / : Chen X, Wu YM
EMDB-39920:
SARS-CoV-2 Omicron BA.2 spike trimer (6P) in complex with D1F6 Fab, head-to-head aggregate
Method: single particle / : Liu B, Gao X, Li Z, Chen Q, He J, Xiong X
EMDB-39924:
SARS-CoV-2 Omicron BA.4 spike trimer (6P) in complex with D1F6 Fab, head-to-head aggregate
Method: single particle / : Liu B, Gao X, Li Z, Chen Q, He J, Xiong X
PDB-8zc2:
SARS-CoV-2 Omicron BA.2 spike trimer (6P) in complex with D1F6 Fab, head-to-head aggregate
Method: single particle / : Liu B, Gao X, Li Z, Chen Q, He J, Xiong X
PDB-8zc6:
SARS-CoV-2 Omicron BA.4 spike trimer (6P) in complex with D1F6 Fab, head-to-head aggregate
Method: single particle / : Liu B, Gao X, Li Z, Chen Q, He J, Xiong X
EMDB-40865:
NUDT9-H domain focused cryo-EM map of TRPM2 chanzyme in the presence of Calcium and ADP-ribose
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40866:
NUDT9-H domain focused cryo-EM map of TRPM2 chanzyme in the presence of Magnesium, Adenosine monophosphate, and Ribose-5-phosphate
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40867:
NUDT9-H domain focused cryo-EM map of TRPM2 chanzyme in the presence of Magnesium, Adenosine monophosphate, and Ribose-5-phosphate
Method: single particle / : Huang Y, Sushant K, Lu W, Du J
EMDB-40868:
NUDT9-H domain focused cryo-EM map of TRPM2 chanzyme in the presence of Magnesium and ADP-ribose, open state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40869:
NUDT9-H domain focused cryo-EM map of TRPM2 chanzyme in the presence of Magnesium and ADP-ribose, closed state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40870:
NUDT9-H domain focused cryo-EM map of TRPM2 chanzyme in the presence of Magnesium, ADP-ribose, Adenosine monophosphate, and Ribose-5-phosphate, closed state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40871:
NUDT9-H domain focused cryo-EM map of TRPM2 chanzyme (E1114A) in the presence of Magnesium and ADP-ribose, open state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40872:
NUDT9-H domain focused cryo-EM map of TRPM2 chanzyme (E1114A) in the presence of Magnesium and ADP-ribose, closed state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40875:
Raw consensus map of TRPM2 chanzyme in the presence of Magnesium, Adenosine monophosphate, and Ribose-5-phosphate
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40876:
Raw consensus map of TRPM2 chanzyme in the presence of Magnesium
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40877:
Raw consensus map of TRPM2 chanzyme in the presence of Calcium
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40878:
Raw consensus map of TRPM2 chanzyme in the presence of EDTA and ADP-ribose
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40879:
Raw consensus map of TRPM2 chanzyme in the presence of Magnesium and ADP-ribose, open state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40880:
Raw consensus map of TRPM2 chanzyme in the presence of Magnesium and ADP-ribose, closed state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40881:
Raw consensus map of TRPM2 chanzyme in the presence of Magnesium, ADP-ribose, Adenosine monophosphate, and Ribose-5-phosphate, closed state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40883:
Raw consensus map of TRPM2 chanzyme in the presence of Magnesium, Adenosine monophosphate, and Ribose-5-phosphate
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40887:
Raw consensus map of TRPM2 chanzyme (E1114A) in the presence of Magnesium and ADP-ribose, open state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40888:
Raw consensus map of TRPM2 chanzyme (E1114A) in the presence of Magnesium and ADP-ribose, closed state
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40893:
Raw consensus map of TRPM2 chanzyme in the presence of Calcium and ADP-ribose.
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-40895:
Raw consensus map of TRPM2 chanzyme in the presence of EDTA (apo state)
Method: single particle / : Huang Y, Kumar S, Lu W, Du J
EMDB-42676:
5-HT2AR bound to Lisuride in complex with a mini-Gq protein and an active-state stabilizing single-chain variable fragment (scFv16) obtained by cryo-electron microscopy (cryoEM)
Method: single particle / : Barros-Alvarez X, Kim K, Panova O, Roth BL, Skiniotis G
EMDB-42999:
5HT2AR-miniGq heterotrimer in complex with a novel agonist obtained from large scale docking
Method: single particle / : Gumpper RH, Wang L, Kapolka N, Skiniotis G, Roth BL
PDB-8uwl:
5-HT2AR bound to Lisuride in complex with a mini-Gq protein and an active-state stabilizing single-chain variable fragment (scFv16) obtained by cryo-electron microscopy (cryoEM)
Method: single particle / : Barros-Alvarez X, Kim K, Panova O, Roth BL, Skiniotis G
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