|
105
|
282
|
5z6oA |
Crystal structure of penicillium cyclopium protease |
|
102
|
279
|
5uvlA |
Serial millisecond crystallography of membrane and soluble protein micro-crystals using synchrotron radiation |
|
102
|
279
|
5b1eA |
Crystal structure of proteinase k from engyodontium album |
|
97
|
279
|
4dj5X |
Proteinase k by langmuir-blodgett hanging drop method at 1.8a resolution for unique water distribution |
|
104
|
279
|
4b5lA |
The 1.6 a high energy room temperature structure of proteinase k at 38.4 kev and 0.04 mgy |
|
102
|
279
|
5wrcA |
Crystal structure of proteinase k from engyodontium album |
|
105
|
279
|
5wjhA |
Using sound pulses to solve the crystal harvesting bottleneck |
|
108
|
279
|
5whwA |
Using sound pulses to solve the crystal harvesting bottleneck |
|
101
|
279
|
5wjgA |
Using sound pulses to solve the crystal harvesting bottleneck |
|
98
|
279
|
5mjlA |
Single-shot pink beam serial crystallography: proteinase k |
|
101
|
279
|
5i9sA |
Microed structure of proteinase k at 1.75 a resolution |
|
101
|
279
|
5b1dA |
Crystal structure of proteinase k from engyodontium album |
|
103
|
279
|
5avkA |
Crystal structure of proteinase k from engyodontium album |
|
103
|
279
|
5avjA |
Crystal structure of proteinase k from engyodontium album |
|
99
|
279
|
4zarA |
Crystal structure of proteinase k from engyodontium albuminhibited by methoxysuccinyl-ala-ala-pro-phe-chloromethyl ketone at 1.15 a resolution |
|
102
|
279
|
5amxA |
Crystal structure of proteinase k processed with the crystaldirect automated mounting and cryo-cooling technology |
|
99
|
279
|
5cw1A |
Proteinase k complexed with 4-iodopyrazole |
|
103
|
279
|
4wocA |
Proteinase-k post-surface acoustic waves |
|
100
|
279
|
4wobA |
Proteinase-k pre-surface acoustic wave |
|
103
|
279
|
4fonA |
High energy remote sad structure solution of proteinase k from the 37.8 kev tellurium k edge |
|
105
|
279
|
3qmpA |
Selenium sad structure solution of proteinase k grown in so4-less solution and soaked in selenate. |
|
106
|
279
|
3q40A |
Sulphur sad structure solution of proteinase k grown in so4-less solution. |
|
104
|
279
|
3q5gA |
Sulphur sad structure solution of proteinase k grown in so4 solution |
|
96
|
279
|
3prkE |
Inhibition of proteinase k by methoxysuccinyl-ala-ala-pro-ala-chloromethyl ketone. an x-ray study at 2.2-angstroms resolution |
|
103
|
279
|
3ptlA |
Crystal structure of proteinase k inhibited by a lactoferrin nonapeptide, lys-gly-glu-ala-asp-ala-leu-ser-leu-asp at 1.3 a resolution. |
|
100
|
279
|
3oszA |
Crystal structure of the complex of proteinase k with an antimicrobial nonapeptide, at 2.26 a resolution |
|
102
|
279
|
3l1kA |
Sad structure solution of proteinase k grown in potassium tellurate solution |
|
99
|
279
|
3i34X |
Proteinase k by lb nanotemplate method after high x-ray dose on id14-2 beamline at esrf |
|
98
|
279
|
3i2yX |
Proteinase k by classical hanging drop method before high x-ray dose on id14-2 beamline at esrf |
|
98
|
279
|
3i37X |
Proteinase k by lb nanotemplate method before high x-ray dose on id14-2 beamline at esrf |
|
97
|
279
|
3i30X |
Proteinase k by classical hanging drop method after high x-ray dose on id14-2 beamline at esrf |
|
101
|
279
|
3gt4A |
Structure of proteinase k with the magic triangle i3c |
|
100
|
279
|
3gt3A |
Structure of proteinase k with the mad triangle b3c |
|
97
|
279
|
3dvrX |
Proteinase k by lb nanotemplate method after the first step of high x-ray dose on esrf id14-2 beamline |
|
98
|
279
|
3dw3X |
Proteinase k by classical hanging drop method before high x ray dose on esrf id 14-2 beamline |
|
97
|
279
|
3dvqX |
Proteinase k by lb nanotemplate method before high x-ray dose on esrf id14-2 beamline |
|
104
|
279
|
3dybA |
Proteinase k- digalacturonic acid complex |
|
99
|
279
|
3dvsX |
Proteinase k by lb nanotmplate method after the second step of high dose on esrf id14-2 beamline |
|
100
|
279
|
3dweX |
Proteinase k by classical hanging drop method after high x-ray dose on esrf id14-2 beamline |
|
98
|
279
|
3dw1X |
Proteinase k by lb nanotemplate method after the third step high x-ray dose on esrf id14-2 beamline |
|
97
|
279
|
3de4X |
Proteinase k by classical hanging drop method after the first step of high x-ray dose on esrf id23-1 beamline |
|
99
|
279
|
3de2X |
Proteinase k by lb nanotemplate method after the fourth step of high x-ray dose on esrf id23-1 beamline |
|
100
|
279
|
3ddzX |
Proteinase k by lb nanotemplate method after the first step of high x-ray dose on esrf id23-1 beamline |
|
100
|
279
|
3de5X |
Roteinase k by classical hanging drop method after the second step of high x-ray dose on esrf id23-1 beamline |
|
100
|
279
|
3de1X |
Proteinase k by lb nanotemplate method after the third step of high x-ray dose on esrf id23-1 beamline |
|
98
|
279
|
3de3X |
Proteinase k by classical hanging drop method before high x-ray dose on esrf id23-1 beamline |
|
99
|
279
|
3de6X |
Proteinase k by classical hanging drop method after the third step of high x-ray dose on esrf id23-1 beamline |
|
100
|
279
|
3de0X |
Proteinase k by lb nanotemplate method after the second step of high x-ray dose on esrf id23-1 beamline |
|
97
|
279
|
3de7X |
Proteinase k by classical hanging drop method after the fourth step of high x-ray dose on esrf id23-1 beamline |
|
102
|
279
|
3d9qX |
Proteinase k by lb nanotemplate method before high x-ray dose on esrf id23-1 beamline |
