V. Guez et al., The anticodon-binding domain of tyrosyl-tRNA synthetase: State of folding and origin of the crystallographic disorder, BIOCHEM, 39(7), 2000, pp. 1739-1747
The C-terminal domain (residues 320-419) of tyrosyl-tRNA synthetase (TyrRS)
from Bacillus stearothermophilus is disordered in the crystal structure. I
ts function consists of binding the anticodon of tRNA(Tyr). We undertook to
characterize its conformational state. A hybrid between the C-terminal fra
gment and a His-tag sequence was constructed and purified in large amounts.
Analyses by mass spectrometry and analytical ultracentrifugation showed th
at the C-terminal fragment, thus purified, was not degraded and that it nei
ther dimerized nor aggregated. Its far- and near-UV circular dichroism spec
tra revealed a high content in secondary structures and an asymmetrical env
ironment of its aromatic residues. Each spectrum could be reconstructed by
the difference between the corresponding spectra for the full-length TyrRS
and for its N-terminal fragment. The Stokes radius of the C-terminal fragme
nt, measured by size exclusion chromatography, indicated a condensed globul
ar state. The fluorescence of ANS (a small hydrophobic probe) showed that t
he surface of the C-terminal fragment was more hydrophilic than that of a m
olten globule. These results on the C-terminal fragment and our previous ob
servations that it can undergo cooperative transitions, demonstrated the fo
llowing points: it is not in a disordered or molten globular state, it has
a defined and stable three-dimensional structure, its structures are simila
r in its isolated and integrated forms, and the apparent disorder in the cr
ystals of the full-length synthetase must be due to the flexibility of the
polypeptide segment that links the N- and C-terminal domains. Thus, TyrRS h
as not evolved strong noncovalent interactions between its catalytic and an
ticodon-binding domains, contrary to the other synthetases.