Abstract
Human 17β-hydroxysteroid dehydrogenase type 1 is an important steroidogenic enzyme catalyzing the synthesis of the most active estrogen: estradiol. The enzyme is formed by two identical subunits (34.5 kDa). In this paper, we report the preparation of a stoichiometric 17β-HSD1-estradiol complex sample at a much higher concentration than the solubility of the free substrate, using a gradual concentration of the enzyme-substrate mixture starting at low concentration. The complex is successfully crystallized by vapor diffusion at pH 7.5 with polyethyleneglycol 4000 as the precipitating agent. The space group is C2 with
a = 123.56
A
̊
,
b = 45.21
A
̊
,
c = 61.30
A
̊
and
β = 99.06°. There is one monomer in the asymmetric unit and two molecules of the enzyme in a unit cell. A diffraction data set to 2.5 Å has been collected to 86% completeness on native crystals. The high quality of the electronic density map of estradiol supports the full occupancy of the binding site, thus confirming the efficiency of the complex preparation. This method will also be useful in crystallizing other steroid-dehydrogenase complexes.