The crystal structure of tyrosyl-transfer RNA synthetase at 2.7 Å resolution

Abstract

Tyrosyl-transfer RNA synthetase from Bacillus stearothermophilus has been crystallized as hexagonal plates, P3 121, a = b = 64.6 A ̊ , c = 238.8 A ̊ , with the dimeric molecule (molecular weight, 90,000) occupying two crystallographic asymmetric units (Reid et al., 1973). Three heavy-atom derivatives have been identified and X-ray diffraction measurements have been made to 2.7 Å resolution, using the oscillation method. The three heavy-atom derivatives were methyl mercury (two sites, half occupied, 3 Å apart), uranyl acetate (single fully occupied site) and chloroplatinite PtCl 4 2− (three sites of differing occupancy). The results were used to compute an electron density map at 2.7 Å resolution, which shows the monomer as a unit of about 60 Å × 60 Å × 40 Å. The maximum dimension of the dimer is about 130 Å. Most of the polypeptide chain has been traced uniquely. It includes five α-helices more than 12 Å long and several shorter helices. A six-stranded pleated-sheet structure lies in the centre of each subunit. The catalytic site of the enzyme is believed to be adjacent to the mercury-binding group.