EC Number |
---|
3.4.25.2 | - |
3.4.25.2 | asymmetric HslU(DELTAI)6HslV12 complex.HslV can be activated by binding of a hexameric HslU(DELTAI)6 ring lacking the I domain |
3.4.25.2 | crystal structure of an 820000 Da relative molecular mass complex of the ATPase HslU and the protease component HslV, sitting drop vapour diffusion against a reservoir containing 100 mM sodium cacodylate pH 6.5, 15% glycerol, 10.5% polyethylene glycol PEG 8K and 500 mM (NH4)2SO4 |
3.4.25.2 | hanging-drop vapor diffusion method. 3.0 A resolution crystal structure of hslV with an HslU hexamer bound at one end of an HslV dodecamer. The structure shows that the central pores of the ATPase and peptidase are next to each other and alligned |
3.4.25.2 | mutant enzyme L88A, hanging drop vapor diffusion method, using 0.1 M Tris-HCl (pH 8.0), 28% (v/v) PEG monomethyl ether 550, and 0.2 M ammonium formate |
3.4.25.2 | purified recombinant CodX and CodW and hybrid complexes with Escherichia coli enzymes CodW-HslU and HslV-CodX, X-ray diffraction strucure determination and analysis at 3.5-4.6 A resolution, the co-crystals contain lattice-translocation defects, correction, application of the lattice-translocation defect theory to atomic models, overview |
3.4.25.2 | purified recombinant HslU and HslV and hybrid complexes with Bacillus subtilis enzymes CodW-HslU and HslV-CodX, X-ray diffraction strucure determination and analysis at 3.5-4.6 A resolution, the co-crystals contain lattice-translocation defects, correction, application of the lattice-translocation defect theory to atomic models, overview |
3.4.25.2 | quarternary arrangement of hslU and hslV in a cocrystal |
3.4.25.2 | sitting drop vapor diffusion method |
3.4.25.2 | sitting drop vapor difussion against a reservoir containing 100 mM Hepes/NaOH at pH 7.5, 200 mM sodium acetate, 0.02% NaN3 and between 9% and 14% ethanol |