Contributions of orientation and hydrogen bonding to catalysis in Asn229 mutants of thymidylate synthase.Finer-Moore, J.S., Liu, L., Birdsall, D.L., Brem, R., Apfeld, J., Santi, D.V., Stroud, R.M.
(1998) J Mol Biol 276: 113-129
- PubMed: 9514716
- DOI: 10.1006/jmbi.1997.1495
- Structures With Same Primary Citation
- PubMed Abstract:
- Partitioning Roles of Side Chains in Affinity, Orientation, and Catalysis with Structures for Mutant Complexes: Asparagine-229 in Thymidylate Synthase
Finer-Moore, J.S., Liu, L., Schafmeister, C.E., Birdsall, D.L., Mau, T., Santi, D.V., Stroud, R.M.
(1996) Biochemistry 35: 5125
- Stereochemistry of a Multistep/Bipartite Methyl Transfer Reaction: Thymidylate Synthase
Stroud, R.M., Finer-Moore, J.S.
(1993) FASEB J 7: 671
- Refined Structures of Substrate-Bound and Phosphate-Bound Thymidylate Synthase from Lactobacillus Casei
Finer-Moore, J., Fauman, E.B., Foster, P.G., Perry, K.M., Santi, D.V., Stroud, R.M.
(1993) J Mol Biol 232: 1101
- Asparagine 229 in Thymidylate Synthase Contributes to, But is not Essential for, Catalysis
Liu, L., Santi, D.V.
(1993) Proc Natl Acad Sci U S A 90: 8604
We have determined structures of binary and ternary complexes of five Asn229 variants of thymidylate synthase (TS) and related their structures to the kinetic constants measured previously. Asn229 forms two hydrogen bonds to the pyrimidine ring of th ...
We have determined structures of binary and ternary complexes of five Asn229 variants of thymidylate synthase (TS) and related their structures to the kinetic constants measured previously. Asn229 forms two hydrogen bonds to the pyrimidine ring of the substrate 2'-deoxyuridine-5'-monophosphate (dUMP). These hydrogen bonds constrain the orientation of dUMP in binary complexes with dUMP, and in ternary complexes with dUMP and the TS cofactor, 5,10-methylene-5,6,7,8-tetrahydrofolate. In N229 mutants, where these hydrogen bonds cannot be made, dUMP binds in a misoriented or more disordered fashion. Most N229 mutants exhibit no activity for the dehalogenation of 5-bromo-dUMP, which requires correct orientation of dUMP against Cys198. Since bound dUMP forms the binding surface against which the pterin ring of cofactor binds, misorientation of dUMP results in higher Km values for cofactor. At the same time, binding of the cofactor aids in ordering and positioning dUMP for catalysis. Hydrophobic mutants, such as N229I, favor an arrangement of solvent molecules and side-chains around the ligands similar to that in a proposed transition state for ternary complex formation in wild-type TS, and kcat values are similar to the wild-type value. Smaller, more hydrophilic mutants favor arrangements of the solvent and side-chains surrounding the ligands that do not resemble the proposed transition state. These changes correspond to decreases in kcat of up to 2000-fold, with only modest increases in Km or Kd. These results are consistent with the proposal that the hydrogen-bonding network between water, dUMP and side-chains in the active-site cavity contributes to catalysis in TS. Asn229 has the unique ability to maintain this critical network, without sterically interfering with dUMP binding.
Department of Biochemistry and Biophysics, University of California, San Francisco 94143-0448, USA.