15N NMR relaxation studies of free and inhibitor-bound 4-oxalocrotonate tautomerase: backbone dynamics and entropy changes of an enzyme upon inhibitor binding

Biochemistry
J T StiversA S Mildvan

Abstract

The solution secondary structure of 4-oxalocrotonate tautomerase (4-OT), a 41 kDa homohexamer with 62 residues per subunit, consists of an alpha-helix, two beta-strands, a beta-hairpin, two loops, two turns, and a C-terminal coil [Stivers et al. (1996) Protein Sci. 5, 729-741]. The general base, proline-1, as well as the two loops and the beta-hairpin have been shown to comprise the active site [Stivers et al. (1996) Biochemistry 35, 814-823]. The backbone dynamics of both the free enzyme and its complex with a substrate analog have been studied by 1H-detected 15N relaxation rates and NOE determinations at 500 and 600 MHz. Analysis of the data using the model-free formalism showed that the nanosecond to picosecond motion of 53 of the 60 backbone 15N-H vectors was highly restricted with a mean order parameter mean value of S2 = 0.87 +/- 0.03. The lowest backbone mobility (S2 > 0.90) is found in the beta 1-strand, loop 2, and turn 2. Greater backbone mobility is found in the active site (0.5 < or = S2 < or = 0.83) and at C-terminal residues 58-62 (0.03 < or = S2 < or = 0.70). A tau m value for the free hexamer of 13.7 ns at 42 degrees C was determined, consistent with a compact globular molecule of 41 kDa. Saturation of 4-OT with...Continue Reading

References

Jan 1, 1974·Annual Review of Biochemistry·A S Mildvan

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