| 9e3o |
Cryo-EM structure of the human P2X7 receptor in the UB-ALT-P30-bound inhibited state |
52.4 |
160.6 |
ELECTRON MICROSCOPY |
REASONABLE
|
| 9e3p |
Cryo-EM structure of the human P2X7 receptor in the UB-MBX-46-bound inhibited state |
52.9 |
152.0 |
ELECTRON MICROSCOPY |
REASONABLE
|
| 9e3q |
Cryo-EM structure of the mouse P2X7 receptor in the apo closed state |
52.2 |
151.3 |
ELECTRON MICROSCOPY |
REASONABLE
|
| 9e3r |
Cryo-EM structure of PWWP domain deleted DNMT 3A2/3B3 in complex with a di-nucleosome |
70.4 |
262.2 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e3s |
Tricomplex of RMC-9945, KRAS G12N, and CypA |
28.6 |
93.5 |
X-RAY DIFFRACTION |
GOOD
|
| 9e3t |
RTA-RUNT-165 complex |
27.3 |
95.1 |
X-RAY DIFFRACTION |
GOOD
|
| 9e3u |
Cryo-EM structure of DNMT 3A2/3B3 tetramer bound to a di-nucleosome with a 25 base-pair linker |
57.7 |
200.6 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e3v |
Backbone Modification in the Fungal Defensin Plectasin: Prototype NZ2114 |
8.7 |
36.9 |
SOLUTION NMR |
REASONABLE
|
| 9e3w |
Backbone Modification in the Fungal Defensin Plectasin: beta3-Residues in the helix |
8.7 |
36.6 |
SOLUTION NMR |
REASONABLE
|
| 9e3x |
Backbone Modification in the Fungal Defensin Plectasin: Calpha-methyl-residues in the helix |
8.9 |
37.3 |
SOLUTION NMR |
REASONABLE
|
| 9e3y |
Backbone Modification in the Fungal Defensin Plectasin: D- and Calpha-methyl-residues in the turns |
8.5 |
28.0 |
SOLUTION NMR |
GOOD
|
| 9e3z |
;Backbone Modification in the Fungal Defensin Plectasin: Calpha-methyl-residues in the helix, D- and Calpha-methyl-residues in the turns
; |
8.5 |
30.3 |
SOLUTION NMR |
GOOD
|
| 9e40 |
RTA-RUNT-202 complex |
19.7 |
70.8 |
X-RAY DIFFRACTION |
GOOD
|
| 9e41 |
Asymmetric unit of yPOWV |
47.8 |
176.1 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e42 |
RTA-RUNT-192 complex |
27.4 |
103.5 |
X-RAY DIFFRACTION |
REASONABLE
|
| 9e49 |
Cryo-EM structure of a di-nucleosome with an eight base-pair linker |
68.3 |
205.0 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4a |
Human ASIC1a at pH 8.5 with domain-swapped transmembrane domain |
38.7 |
133.2 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4b |
Human ASIC1a at pH 7.5 with domain-swapped transmembrane domain |
38.5 |
133.2 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4c |
Human ASIC1a at pH 7.5 with partial transmembrane domain |
34.7 |
123.3 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4d |
Human ASIC1a at pH 7.5 with linear transmembrane domain |
35.2 |
123.6 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4e |
Human ASIC1a at pH 6.5 with linear transmembrane domain |
37.1 |
132.5 |
ELECTRON MICROSCOPY |
REASONABLE
|
| 9e4f |
Human ASIC1a at pH 5.7 with domain-swapped transmembrane domain |
38.1 |
133.9 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4g |
Human ASIC1a at pH 5.7 with linear transmembrane domain |
35.5 |
126.3 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4h |
Human ASIC1a at pH 5.7 with rotated, domain-swapped transmembrane domain |
36.6 |
131.3 |
ELECTRON MICROSCOPY |
REASONABLE
|
| 9e4i |
Human ASIC1a at pH 7.5 in complex with MitTx |
40.9 |
133.1 |
ELECTRON MICROSCOPY |
REASONABLE
|
| 9e4j |
Human ASIC1a at pH 6.5 in complex with MitTx |
40.9 |
131.8 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4k |
Human ASIC1a at pH 8.5, T26V mutation |
35.8 |
124.6 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4n |
E. coli acetyl-CoA carboxylase, narrow helical tube, 4.04 Angstrom |
40.8 |
143.9 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4o |
E. coli acetyl-CoA carboxylase, wide stacked tube, 3.98 Angstrom |
40.6 |
143.2 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4q |
A DARPin fused to the 3TEL crystallization chaperone via a gly-gly-gly fusion |
27.6 |
88.1 |
X-RAY DIFFRACTION |
GOOD
|
| 9e4r |
Escherichia coli encapsulin-associated DyP peroxidase |
20.6 |
64.9 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4s |
TAD from Carmabin Biosynthetic Pathway - Crystal Form 1 |
36.4 |
128.4 |
X-RAY DIFFRACTION |
GOOD
|
| 9e4u |
TAD from Carmabin Biosynthetic Pathway in complex with NADH - Crystal Form 1 |
36.4 |
126.9 |
X-RAY DIFFRACTION |
GOOD
|
| 9e4v |
The structure of human vacuolar protein sorting 34 catalytic domain bound to MES |
26.1 |
82.2 |
X-RAY DIFFRACTION |
EXCELLENT
|
| 9e4w |
;Structure of Bacillus phage SPO1 anti-CBASS 4 (Acb4) in complex with 3'3'-cGAMP
; |
54.2 |
179.1 |
X-RAY DIFFRACTION |
GOOD
|
| 9e4x |
TAD from Carmabin Biosynthetic Pathway - Crystal Form 2 |
35.9 |
114.9 |
X-RAY DIFFRACTION |
REASONABLE
|
| 9e4y |
GluA2-gamma2 complex bound to memantine, glutamate, and cyclothiazide |
61.4 |
206.7 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e4z |
GluA2-gamma2 complex bound glutamate and cyclothiazide |
61.2 |
207.3 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e50 |
TAD from Carmabin Biosynthetic Pathway in complex with NAD - Crystal Form 2 |
35.3 |
113.9 |
X-RAY DIFFRACTION |
GOOD
|
| 9e51 |
Cryo-EM structure of human LPHN2 (ADGRL2)/G13 complex in lipid nanodiscs |
34.6 |
113.3 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e55 |
Crystal structure of the A/Viet Nam/1203/2004(H5N1) influenza virus hemagglutinin in complex with cyclic peptide iHA-100 |
37.6 |
140.2 |
X-RAY DIFFRACTION |
REASONABLE
|
| 9e56 |
TAD from Carmabin Biosynthetic Pathway with Disulfide between Cys2238 and Dephosphocoenzyme A - Crystal Form 2 |
35.6 |
120.7 |
X-RAY DIFFRACTION |
REASONABLE
|
| 9e58 |
YscN Yersinia ATPase delta 1-92 |
30.1 |
93.5 |
X-RAY DIFFRACTION |
EXCELLENT
|
| 9e5a |
Crystal structure of Acanthamoeba polyphaga mimivirus (APMV) vIF4G 53-312 |
27.1 |
92.7 |
X-RAY DIFFRACTION |
GOOD
|
| 9e5b |
;Crystal structure of Cotonvirus japonicum vIF4E 1-236 in complex with m7Gppp(2'OMeA)pU
; |
19.2 |
64.6 |
X-RAY DIFFRACTION |
GOOD
|
| 9e5c |
Cryo-EM structure of 96 nm repeat of microtubule doublet from T. brucei flagellum |
— |
— |
ELECTRON MICROSCOPY |
—
|
| 9e5d |
Discovery of an Orally Biovailable KRAS G12D Inhibitor |
16.1 |
48.6 |
X-RAY DIFFRACTION |
EXCELLENT
|
| 9e5e |
Escherichia coli DyP peroxidase-loaded encapsulin shell |
23.5 |
81.1 |
ELECTRON MICROSCOPY |
GOOD
|
| 9e5f |
Discovery of an Orally Bioavailable KRAS G12D Inhibitor |
16.2 |
49.0 |
X-RAY DIFFRACTION |
EXCELLENT
|
| 9e5g |
Cryo-EM structure of Burkholderia cenocepacia orotate phosphoribosyltransferase |
33.0 |
102.4 |
ELECTRON MICROSCOPY |
REASONABLE
|