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Showing 1 - 50 of 105 items for (author: paknejad & n)

EMDB-41323:
Human Type 3 IP3 Receptor - Resting State (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41324:
Human Type 3 IP3 Receptor - 3:1 Resting-to-Preactivated Transition State
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41325:
Human Type 3 IP3 Receptor - 2:2 Resting-to-Preactivated Transition State
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41326:
Human Type 3 IP3 Receptor - 1:3 Resting-to-Preactivated Transition State
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41327:
Human Type 3 IP3 Receptor - ARM2 Retraction Figure 4B
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41328:
Human Type 3 IP3 Receptor - ARM2 Retraction Figure 4C
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41329:
Human Type 3 IP3 Receptor - ARM2 Retraction Figure 4D
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41330:
Human Type 3 IP3 Receptor - ARM2 Retraction Figure 4E
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41331:
Human Type 3 IP3 Receptor - ARM2 Retraction Figure 4F
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41332:
Human Type 3 IP3 Receptor - ARM2 Retraction Figure 4G
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41333:
Human Type 3 IP3 Receptor - Wedge Loop Melting Progression Figure S15N
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41334:
Human Type 3 IP3 Receptor - Wedge Loop Melting Progression Figure S15I
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41335:
Human Type 3 IP3 Receptor - Wedge Loop Melting Progression Figure S15K
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41336:
Human Type 3 IP3 Receptor - Wedge Loop Melting Progression Figure S15M
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41337:
Human Type 3 IP3 Receptor - Wedge Loop Melting Progression Figure S15L
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41338:
Human Type 3 IP3 Receptor - Wedge Loop Melting Progression Figure S15J
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41339:
Human Type 3 IP3 Receptor - C2 Preactivated TMD Transitions (Figure 6D)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41340:
Human Type 3 IP3 Receptor - C4 Preactivated TMD Transitions (Figure 6E)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41341:
Human Type 3 IP3 Receptor - Activated CTD Frame 1 (Figure S18B)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41342:
Human Type 3 IP3 Receptor - Activated CTD Frame 2 (Figure S18B)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41343:
Human Type 3 IP3 Receptor - Activated CTD Frame 3 (Figure S18B)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41344:
Human Type 3 IP3 Receptor - C2 Resting TMD Transitions (Figure S8D)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41345:
Human Type 3 IP3 Receptor - C4 Resting TMD Transitions (Figure S8E)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41347:
Human Type 3 IP3 Receptor - Preactivated State (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41348:
Human Type 3 IP3 Receptor - Preactivated+Ca2+ State (+IP3/ATP/JD Ca2+)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41349:
Human Type 3 IP3 Receptor - Activated State (+IP3/ATP/JD Ca2+)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41350:
Human Type 3 IP3 Receptor - Resting State (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41351:
Human Type 3 IP3 Receptor - Labile Resting State 1 (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41352:
Human Type 3 IP3 Receptor - Labile Resting State 2 (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41365:
Human Type 3 IP3 Receptor - Resting State (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-41366:
Human Type 3 IP3 Receptor - Higher-Order Inhibited State - Symmetry Mate 1
Method: single particle / : Paknejad N, Sapuru V, Hite RK

PDB-8tk8:
Human Type 3 IP3 Receptor - Resting State (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

PDB-8tkd:
Human Type 3 IP3 Receptor - Preactivated State (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

PDB-8tke:
Human Type 3 IP3 Receptor - Preactivated+Ca2+ State (+IP3/ATP/JD Ca2+)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

PDB-8tkf:
Human Type 3 IP3 Receptor - Activated State (+IP3/ATP/JD Ca2+)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

PDB-8tkg:
Human Type 3 IP3 Receptor - Resting State (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

PDB-8tkh:
Human Type 3 IP3 Receptor - Labile Resting State 1 (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

PDB-8tki:
Human Type 3 IP3 Receptor - Labile Resting State 2 (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

PDB-8tl9:
Human Type 3 IP3 Receptor - Resting State (+IP3/ATP)
Method: single particle / : Paknejad N, Sapuru V, Hite RK

PDB-8tla:
Human Type 3 IP3 Receptor - Higher-Order Inhibited State - Symmetry Mate 1
Method: single particle / : Paknejad N, Sapuru V, Hite RK

EMDB-40181:
Human TRPV3 tetramer structure, closed conformation
Method: single particle / : Lansky S, Betancourt JM, Scheuring S

EMDB-40183:
Human TRPV3 pentamer structure
Method: single particle / : Lansky S, Betancourt JM, Scheuring S

PDB-8gka:
Human TRPV3 tetramer structure, closed conformation
Method: single particle / : Lansky S, Betancourt JM, Scheuring S

PDB-8gkg:
Human TRPV3 pentamer structure
Method: single particle / : Lansky S, Betancourt JM, Scheuring S

EMDB-27328:
Cryo-EM structure of dobutamine-bound beta1-adrenergic receptor in complex with heterotrimeric Gs-protein
Method: single particle / : Su M, Paknejad N, Hite RK, Huang XY

EMDB-27329:
Cryo-EM structure of cyanopindolol-bound beta1-adrenergic receptor in complex with heterotrimeric Gs-protein
Method: single particle / : Su M, Paknejad N, Hite RK, Huang XY

PDB-8dcr:
Cryo-EM structure of dobutamine-bound beta1-adrenergic receptor in complex with heterotrimeric Gs-protein
Method: single particle / : Su M, Paknejad N, Hite RK, Huang XY

PDB-8dcs:
Cryo-EM structure of cyanopindolol-bound beta1-adrenergic receptor in complex with heterotrimeric Gs-protein
Method: single particle / : Su M, Paknejad N, Hite RK, Huang XY

EMDB-25132:
Androgen receptor bound to DNA - Entrenched state
Method: single particle / : Wasmuth EV, Vanden Broeck A, Klinge S, Sawyers CL

EMDB-25133:
Androgen receptor bound to DNA - Splayed state
Method: single particle / : Wasmuth EV, Vanden Broeck A, Klinge S, Sawyers CL

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Feb 9, 2022. New format data for meta-information of EMDB entries

New format data for meta-information of EMDB entries

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Oct 5, 2021. Nobel Prize for mechanically activated and temperature-gated ion channels

Nobel Prize for mechanically activated and temperature-gated ion channels

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  • EM Navigator can help to find cryo-EM structure data by both pioneers.

External links:The Nobel Prize in Physiology or Medicine 2021 - NobelPrize.org / Structure data by Ardem Patapoutian / Structure data by David Julius

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