| 9g9w |
Structure of the human two pore domain potassium ion channel TASK-3 (K2P9.1) G236R mutant |
25.8 |
87.6 |
ELECTRON MICROSCOPY |
GOOD
|
| 9g9x |
Structure of the human two pore domain potassium ion channel TASK-1 (K2P3.1) |
25.2 |
83.4 |
ELECTRON MICROSCOPY |
GOOD
|
| 9g9y |
Respiratory supercomplex CI2-CIII2-CIV2 (megacomplex) from alphaproteobacterium |
99.1 |
250.2 |
ELECTRON MICROSCOPY |
EXCELLENT
|
| 9g9z |
Respiratory supercomplex CI1-CIII2-CIV1 (respirasome) from alphaproteobacterium |
84.6 |
230.6 |
ELECTRON MICROSCOPY |
EXCELLENT
|
| 9ga0 |
XPA crystal grown in HEK293 cell |
23.9 |
81.3 |
X-RAY DIFFRACTION |
GOOD
|
| 9ga1 |
Structure of Pentameric Outer Membrane Protein A from Bdellovibrio bacteriovorus |
39.7 |
110.8 |
X-RAY DIFFRACTION |
GOOD
|
| 9ga2 |
MtUvrA2 dimer empty |
38.1 |
125.9 |
ELECTRON MICROSCOPY |
GOOD
|
| 9ga3 |
MtUvrA2UvrB bound to damaged oligonucleotide |
51.4 |
182.7 |
ELECTRON MICROSCOPY |
GOOD
|
| 9ga4 |
MtUvrA2UvrB2 bound to damaged oligonucleotide |
60.6 |
203.0 |
ELECTRON MICROSCOPY |
GOOD
|
| 9ga5 |
MtUvrA2 bound to endogenous E. coli DNA |
40.1 |
132.4 |
ELECTRON MICROSCOPY |
GOOD
|
| 9ga6 |
The crystal structure of human Annexin A4 derived from crystals grown in 40 mM of CaCl2 |
22.9 |
79.7 |
X-RAY DIFFRACTION |
GOOD
|
| 9ga7 |
The crystal structure of human Annexin A4 derived from crystal grown at 4 mM CaCl2 and retro-soaking |
22.8 |
80.1 |
X-RAY DIFFRACTION |
REASONABLE
|
| 9ga8 |
The crystal structure of human Annexin A4 from crystals grown at 4 mM Calcium |
22.8 |
80.1 |
X-RAY DIFFRACTION |
GOOD
|
| 9gaa |
PRECURSOR OF THE T152A MUTANT GLYCOSYLASPARAGINASE FROM FLAVOBACTERIUM MENINGOSEPTICUM |
23.3 |
71.5 |
X-RAY DIFFRACTION |
EXCELLENT
|
| 9gab |
Structure and catalytic mechanism of SAM-AMP lyase in Clostridium botulinum CorA-associated type III CRISPR system |
30.4 |
94.2 |
X-RAY DIFFRACTION |
EXCELLENT
|
| 9gac |
PRECURSOR OF THE T152C MUTANT GLYCOSYLASPARAGINASE FROM FLAVOBACTERIUM MENINGOSEPTICUM |
23.3 |
71.6 |
X-RAY DIFFRACTION |
EXCELLENT
|
| 9gad |
Structure and catalytic mechanism of SAM-AMP lyase in Clostridium botulinum CorA-associated type III CRISPR system |
30.7 |
95.3 |
X-RAY DIFFRACTION |
EXCELLENT
|
| 9gae |
Respiratory supercomplex CI1-CIII2-CIV2 from alphaproteobacterium |
84.3 |
227.3 |
ELECTRON MICROSCOPY |
EXCELLENT
|
| 9gaf |
PRECURSOR OF THE W11F MUTANT GLYCOSYLASPARAGINASE FROM FLAVOBACTERIUM MENINGOSEPTICUM |
23.5 |
72.2 |
X-RAY DIFFRACTION |
REASONABLE
|
| 9gag |
Human PEX5 TPR domain in complex with PEX14 KIPSWQIPV peptide |
21.3 |
66.7 |
SOLUTION NMR |
EXCELLENT
|
| 9gai |
3-methylbenzoyl-CoA reductase from Thauera chlorobenzoica (MbdONPQ) |
61.5 |
208.4 |
X-RAY DIFFRACTION |
GOOD
|
| 9gaj |
X-ray structure of HCA(II)/aromatic foldamer complex |
18.9 |
58.7 |
X-RAY DIFFRACTION |
GOOD
|
| 9gak |
X-ray structure of HCA(II)/aromatic foldamer complex |
18.9 |
59.6 |
X-RAY DIFFRACTION |
GOOD
|
| 9gal |
3-methylbenzoyl-CoA reductase from Thauera chlorobenzoica (subunits MbdON ) + ADP |
— |
511.4 |
X-RAY DIFFRACTION |
REASONABLE
|
| 9gam |
X-ray structure of HCA(II)/aromatic foldamer complex |
18.9 |
58.9 |
X-RAY DIFFRACTION |
GOOD
|
| 9gan |
CryoEM structure of influenza A RNP-like particle single-stranded assembled with a 12-mer RNA. |
23.7 |
92.2 |
ELECTRON MICROSCOPY |
REASONABLE
|
| 9gao |
Crystal structure of CRBNmidi in complex with 2-(4-(2,6-dioxopiperidin-3-yl)phenoxy)-N-methylacetamide |
27.4 |
95.1 |
X-RAY DIFFRACTION |
GOOD
|
| 9gap |
CryoEM structure of influenza A RNP-like particle double-stranded assembled with a 12-mer RNA. |
23.7 |
70.1 |
ELECTRON MICROSCOPY |
REASONABLE
|
| 9gaq |
CryoEM structure of influenza A RNP-like particle double-stranded assembled with a 14-mer RNA. |
23.8 |
77.4 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gar |
Siderophore-binding lipoprotein XusB from Barnesiella viscericola |
24.5 |
80.3 |
X-RAY DIFFRACTION |
GOOD
|
| 9gas |
Focused reconstruction on strand 2 of the influenza A RNP-like particle double-stranded assembled with a 18-mer RNA. |
23.6 |
76.2 |
ELECTRON MICROSCOPY |
REASONABLE
|
| 9gat |
CryoEM structure of the antiparallel double-stranded influenza A RNP-like particle with a 18-mer RNA. |
48.7 |
157.2 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gau |
Sumo-Darpin-C10-complex |
19.0 |
63.9 |
X-RAY DIFFRACTION |
GOOD
|
| 9gav |
Focused reconstruction on strand 1 of the influenza A RNP-like particle double-stranded assembled with a 18-mer RNA. |
31.6 |
103.5 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gaw |
High-resolution structure of the Anaphase-promoting complex/cyclosome (APC/C) bound to co-activator Cdh1 |
74.2 |
267.0 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gax |
;TEAD1 in complex with a reversible inhibitor N-[(1S)-2-hydroxy-1-(1-methyl-1H-pyrazol-3-yl)ethyl]-2-methyl-8-[4-(trifluoromethyl)phenyl]-2H,8H-pyrazolo[3,4-b]indole-5-carboxamide
; |
24.4 |
79.9 |
X-RAY DIFFRACTION |
GOOD
|
| 9gay |
Extended phiCD508 capsid |
67.5 |
239.8 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gaz |
Contracted phiCD508 capsid |
67.6 |
240.9 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gb0 |
Extended phiCD508 portal adjacent capsid |
88.0 |
253.1 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gb1 |
Extended phiCD508 tail |
76.3 |
269.0 |
ELECTRON MICROSCOPY |
EXCELLENT
|
| 9gb2 |
Extended phiCD508 baseplate |
81.7 |
295.5 |
ELECTRON MICROSCOPY |
EXCELLENT
|
| 9gb3 |
Extended phiCD508 portal |
53.7 |
169.2 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gb4 |
Contracted phiCD508 portal |
53.9 |
164.7 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gb5 |
Contracted phiCD508 neck |
— |
307.9 |
ELECTRON MICROSCOPY |
EXCELLENT
|
| 9gb6 |
Contracted phiCD508 tail |
89.2 |
321.2 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gb7 |
Extended phiCD508 neck |
— |
312.8 |
ELECTRON MICROSCOPY |
EXCELLENT
|
| 9gb8 |
Contracted phiCD508 tail |
89.2 |
321.2 |
ELECTRON MICROSCOPY |
GOOD
|
| 9gb9 |
Crystal structure of Lotus japonicus CERK6 kinase domain D460N |
37.5 |
121.8 |
X-RAY DIFFRACTION |
EXCELLENT
|
| 9gba |
3-methylbenzoyl-CoA reductase from Thauera chlorobenzoica (MbdONPQ) + AMPPNP |
— |
336.9 |
X-RAY DIFFRACTION |
REASONABLE
|
| 9gbb |
Ferric-mycobactin receptor (FemA) in complex with Bis-AA |
36.9 |
119.0 |
X-RAY DIFFRACTION |
GOOD
|