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Showing 1 - 50 of 19,944 items for (author: ing & g)
EMDB-44372:
In-cell Saccharomyces cerevisiae nuclear pore complex with single nuclear ring
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-44377:
In-cell Saccharomyces cerevisiae nuclear pore complex with double nuclear ring and basket
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-44379:
In-cell Mus musculus nuclear pore complex with nuclear basket
Method: subtomogram averaging / : Hutchings J, Singh D, Villa E
EMDB-44381:
In-cell Toxoplasma gondii nuclear pore complex
Method: subtomogram averaging / : Singh D, Hutchings J, Li Z, Guo Q, Villa E
EMDB-45197:
In-cell Saccharomyces cerevisiae symmetry-expanded nuclear pore complex with double nuclear ring and basket
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45198:
In-cell Saccharomyces cerevisiae symmetry-expanded nuclear pore complex with single nuclear ring
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45199:
In-cell Saccharomyces cerevisiae nuclear pore complex cytoplasmic ring focused refinement
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45200:
In-cell Saccharomyces cerevisiae nuclear pore complex inner ring focused refinement
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45201:
In-cell Saccharomyces cerevisiae nuclear pore complex single nuclear ring focused refinement
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45202:
In-cell Saccharomyces cerevisiae nuclear pore complex double nuclear ring focused refinement
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45203:
In-cell Saccharomyces cerevisiae nuclear pore complex nuclear basket focused refinement
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45204:
In-cell Saccharomyces cerevisiae nuclear pore complex membrane focused refinement for single nuclear ring
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45205:
In-cell Saccharomyces cerevisiae nuclear pore complex membrane focused refinement for double nuclear ring
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45216:
In-cell Mus musculus nuclear pore complex with nuclear basket consensus map
Method: subtomogram averaging / : Hutchings J, Singh D, Villa E
EMDB-45219:
In-cell Mus musculus nuclear pore complex cytoplasmic ring focused refinement
Method: subtomogram averaging / : Hutchings J, Singh D, Villa E
EMDB-45220:
In-cell Mus musculus nuclear pore complex inner ring focused refinement
Method: subtomogram averaging / : Hutchings J, Singh D, Villa E
EMDB-45222:
In-cell Mus musculus nuclear pore complex nuclear ring focused refinement
Method: subtomogram averaging / : Hutchings J, Singh D, Villa E
EMDB-45223:
In-cell Mus musculus nuclear pore complex basket focused refinement
Method: subtomogram averaging / : Hutchings J, Singh D, Villa E
EMDB-45227:
In-cell Mus musculus nuclear pore complex membrane focused refinement
Method: subtomogram averaging / : Hutchings J, Singh D, Villa E
EMDB-45228:
In-cell Toxoplasma gondii symmetry-expanded nuclear pore complex
Method: subtomogram averaging / : Singh D, Hutchings J, Li Z, Guo Q, Villa E
EMDB-45255:
In-cell Saccharomyces cerevisiae C8-symmetrised nuclear pore complex consensus map
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45256:
In-cell Saccharomyces cerevisiae symmetry-expanded nuclear pore complex consensus map
Method: subtomogram averaging / : Singh D, Hutchings J, Villa E
EMDB-45257:
In-cell Mus musculus nuclear pore complex with nuclear basket consensus map
Method: subtomogram averaging / : Hutchings J, Singh D, Villa E
EMDB-45258:
In-cell Mus musculus symmetry-expanded nuclear pore complex with nuclear basket consensus map
Method: subtomogram averaging / : Hutchings J, Singh D, Villa E
EMDB-45259:
In-cell Toxoplasma gondii C8-symmetrised nuclear pore complex consensus map
Method: subtomogram averaging / : Singh D, Hutchings J, Li Z, Guo Q, Villa E
EMDB-42603:
Human p97/VCP structure with a triazole inhibitor (NSC799462/hexamer)
Method: single particle / : Nandi P, DeVore K, Chiu PL
EMDB-42625:
Human p97/VCP R155H mutant structure with a triazole inhibitor (NSC804515)
Method: single particle / : Nandi P, DeVore K, Chiu PL
EMDB-42626:
Human p97/VCP R155H mutant structure with a triazole inhibitor (NSC819701/up)
Method: single particle / : Nandi P, DeVore K, Chiu PL
EMDB-42627:
Human p97/VCP R155H mutant structure with a triazole inhibitor (NSC819701/down)
Method: single particle / : Nandi P, DeVore K, Chiu PL
EMDB-44748:
Human p97/VCP structure with a triazole inhibitor (NSC799462/dodecamer)
Method: single particle / : Nandi P, DeVore K, Chiu PL
PDB-8uv2:
Human p97/VCP structure with a triazole inhibitor (NSC799462/hexamer)
Method: single particle / : Nandi P, DeVore K, Chiu PL
PDB-8uvo:
Human p97/VCP R155H mutant structure with a triazole inhibitor (NSC804515)
Method: single particle / : Nandi P, DeVore K, Chiu PL
PDB-8uvp:
Human p97/VCP R155H mutant structure with a triazole inhibitor (NSC819701/up)
Method: single particle / : Nandi P, DeVore K, Chiu PL
PDB-8uvq:
Human p97/VCP R155H mutant structure with a triazole inhibitor (NSC819701/down)
Method: single particle / : Nandi P, DeVore K, Chiu PL
PDB-9boq:
Human p97/VCP structure with a triazole inhibitor (NSC799462/dodecamer)
Method: single particle / : Nandi P, DeVore K, Chiu PL
EMDB-41766:
CryoEM structure of D2 dopamine receptor in complex with GoA KE mutant, scFv16, and dopamine
Method: single particle / : Krumm BE, Kapolka NJ, Fay JF, Roth BL
EMDB-41776:
CryoEM structure of D2 dopamine receptor in complex with GoA KE mutant and dopamine
Method: single particle / : Krumm BE, Kapolka NJ, Fay JF, Roth BL
PDB-8tzq:
CryoEM structure of D2 dopamine receptor in complex with GoA KE Mutant, scFv16, and dopamine
Method: single particle / : Krumm BE, Kapolka NJ, Fay JF, Roth BL
PDB-8u02:
CryoEM structure of D2 dopamine receptor in complex with GoA KE mutant and dopamine
Method: single particle / : Krumm BE, Kapolka NJ, Fay JF, Roth BL
EMDB-44255:
Cryo-EM structure of the mouse TRPM8 channel in the ligand-free desensitized state
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
EMDB-44256:
Cryo-EM structure of the mouse TRPM8 channel in complex with the antagonist TC-I 2014
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
EMDB-44257:
Cryo-EM structure of the mouse TRPM8 channel in complex with the antagonist AMG2850
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
EMDB-44258:
Cryo-EM structure of the mouse TRPM8 channel in complex with the antagonist AMTB
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
EMDB-44259:
Cryo-EM structure of the mouse TRPM8 channel in complex with the antagonist TC-I 2014 and the cooling agonist C3
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
EMDB-44260:
Cryo-EM structure of the avian great tit TRPM8 channel in complex with the antagonist TC-I 2014
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
EMDB-44261:
Cryo-EM structure of the mouse TRPM8 channel in complex with PI(4,5)P2 and Ca2+
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
EMDB-44262:
Cryo-EM structure of the mouse TRPM8 channel in complex with Ca2+ in the absence of PI(4,5)P2
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
PDB-9b6d:
Cryo-EM structure of the mouse TRPM8 channel in the ligand-free desensitized state
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
PDB-9b6e:
Cryo-EM structure of the mouse TRPM8 channel in complex with the antagonist TC-I 2014
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
PDB-9b6f:
Cryo-EM structure of the mouse TRPM8 channel in complex with the antagonist AMG2850
Method: single particle / : Yin Y, Park CG, Zhang F, Fedor J, Feng S, Suo Y, Im W, Lee SY
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