EMD-5278
3D structure of a full-length type 1 inositol 1,4,5-trisphosphate receptor in the closed state
EMD-5278
Single-particle9.5 Å
Deposition: 26/04/2011Map released: 09/08/2011
Last modified: 12/09/2011
Sample Organism:
Rattus norvegicus
Sample: Type 1 Inositol 1,4,5-Trisphosphate Receptor
Deposition Authors: Ludtke SJ
,
Tran TP,
Ngo QT,
Moiseenkova-Bell VY,
Chiu W,
Serysheva II
Sample: Type 1 Inositol 1,4,5-Trisphosphate Receptor
Deposition Authors: Ludtke SJ
,
Tran TP,
Ngo QT,
Moiseenkova-Bell VY,
Chiu W,
Serysheva II
Flexible architecture of IP3R1 by Cryo-EM.
Ludtke SJ ,
Tran TP,
Ngo QT,
Moiseenkova-Bell VY,
Chiu W,
Serysheva II
(2011) Structure , 19 , 1192 - 1199
,
Tran TP,
Ngo QT,
Moiseenkova-Bell VY,
Chiu W,
Serysheva II
(2011) Structure , 19 , 1192 - 1199
Abstract:
Inositol 1,4,5-trisphosphate receptors (IP3Rs) play a fundamental role in generating Ca2+ signals that trigger many cellular processes in virtually all eukaryotic cells. Thus far, the three-dimensional (3D) structure of these channels has remained extremely controversial. Here, we report a subnanometer resolution electron cryomicroscopy (cryo-EM) structure of a fully functional type 1 IP3R from cerebellum in the closed state. The transmembrane region reveals a twisted bundle of four α helices, one from each subunit, that form a funnel shaped structure around the 4-fold symmetry axis, strikingly similar to the ion-conduction pore of K+ channels. The lumenal face of IP3R1 has prominent densities that surround the pore entrance and similar to the highly structured turrets of Kir channels. 3D statistical analysis of the cryo-EM density map identifies high variance in the cytoplasmic region. This structural variation could be attributed to genuine structural flexibility of IP3R1.
Inositol 1,4,5-trisphosphate receptors (IP3Rs) play a fundamental role in generating Ca2+ signals that trigger many cellular processes in virtually all eukaryotic cells. Thus far, the three-dimensional (3D) structure of these channels has remained extremely controversial. Here, we report a subnanometer resolution electron cryomicroscopy (cryo-EM) structure of a fully functional type 1 IP3R from cerebellum in the closed state. The transmembrane region reveals a twisted bundle of four α helices, one from each subunit, that form a funnel shaped structure around the 4-fold symmetry axis, strikingly similar to the ion-conduction pore of K+ channels. The lumenal face of IP3R1 has prominent densities that surround the pore entrance and similar to the highly structured turrets of Kir channels. 3D statistical analysis of the cryo-EM density map identifies high variance in the cytoplasmic region. This structural variation could be attributed to genuine structural flexibility of IP3R1.