Dissection of the structural and functional role of a conserved hydration site in RNase T1

ULRIKE LANGHORST; REMY LORIS; VLADIMIR P. DENISOV; JAN DOUMEN; PATRICE ROOSE; DOMINIQUE MAES; BERTIL HALLE; JAN STEYAERT

doi:10.1110/ps.8.4.722

Abstract

The reoccurrence of water molecules in crystal structures of RNase T1 was investigated. Five waters were found to be invariant in RNase T1 as well as in six other related fungal RNases. The structural, dynamical, and functional characteristics of one of these conserved hydration sites (WAT1) were analyzed by protein engineering, X-ray crystallography, and 17O and 2H nuclear magnetic relaxation dispersion (NMRD). The position of WAT1 and its surrounding hydrogen bond network are unaffected by deletions of two neighboring side chains. In the mutant Thr93Gln, the Gln93Nε2 nitrogen replaces WAT1 and participates in a similar hydrogen bond network involving Cys6, Asn9, Asp76, and Thr91. The ability of WAT1 to form four hydrogen bonds may explain why evolution has preserved a water molecule, rather than a side-chain atom, at the center of this intricate hydrogen bond network. Comparison of the 17O NMRD profiles from wild-type and Thr93Gln RNase T1 yield a mean residence time of 7 ns at 27 °C and an orientational order parameter of 0.45. The effects of mutations around WAT1 on the kinetic parameters of RNase T1 are small but significant and probably relate to the dynamics of the active site.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Loris, Remy Langhorst, Ulrike De Vos, Stefan Decanniere, Klaas Bouckaert, Julie Maes, Dominique Transue, Thomas R. and Steyaert, Jan 1999. Conserved water molecules in a large family of microbial ribonucleases. Proteins: Structure, Function, and Genetics, Vol. 36, Issue. 1, p. 117.

Likić, Vladimir A. Prendergast, Franklyn G. Juranić, Nenad and Macura, Slobodan 2000. A “structural” water molecule in the family of fatty acid binding proteins. Protein Science, Vol. 9, Issue. 3, p. 497.

Kiihne, Suzanne and Bryant, Robert G. 2000. Protein-Bound Water Molecule Counting by Resolution of 1H Spin-Lattice Relaxation Mechanisms. Biophysical Journal, Vol. 78, Issue. 4, p. 2163.

Loverix, Stefan and Steyaert, Jan 2001. Ribonucleases - Part A. Vol. 341, Issue. , p. 305.

Deswarte, Joeri De Vos, Stefan Langhorst, Ulrike Steyaert, Jan and Loris, Remy 2001. The contribution of metal ions to the conformational stability of ribonuclease T1. European Journal of Biochemistry, Vol. 268, Issue. 14, p. 3993.

Xu, Jian Baase, Walter A. Quillin, Michael L. Baldwin, Enoch P. and Matthews, Brian W. 2001. Structural and thermodynamic analysis of the binding of solvent at internal sites in T4 lysozyme. Protein Science, Vol. 10, Issue. 5, p. 1067.

Pace, C.Nick Huyghues-Despointes, Beatrice M.P Briggs, James M Grimsley, Gerald R and Scholtz, J.Martin 2002. Charge–charge interactions are the primary determinants of the pK values of the ionizable groups in Ribonuclease T1. Biophysical Chemistry, Vol. 101-102, Issue. , p. 211.

Halle, Bertil and Denisov, Vladimir P. 2002. Nuclear Magnetic Resonance of Biological Macromolecules Part A. Vol. 338, Issue. , p. 178.

Makarov, Vladimir Pettitt, B. Montgomery and Feig, Michael 2002. Solvation and Hydration of Proteins and Nucleic Acids: A Theoretical View of Simulation and Experiment. Accounts of Chemical Research, Vol. 35, Issue. 6, p. 376.

Halle, Bertil Denisov, Vladimir P. and Venu, Kandadai 2002. Biological Magnetic Resonance. Vol. 17, Issue. , p. 419.

Mattos, Carla 2002. Protein–water interactions in a dynamic world. Trends in Biochemical Sciences, Vol. 27, Issue. 4, p. 203.

Prévost, Martine 2004. Dynamics of water molecules buried in cavities of apolipoprotein E studied by molecular dynamics simulations and continuum electrostatic calculations. Biopolymers, Vol. 75, Issue. 2, p. 196.

Saı̈da, Fakhri Odaert, Benoı̂t Uzan, Marc and Bontems, François 2004. First structural investigation of the restriction ribonuclease RegB: NMR spectroscopic conditions, 13C/15N double-isotopic labelling and two-dimensional heteronuclear spectra. Protein Expression and Purification, Vol. 34, Issue. 1, p. 158.

Shimotakahara, Sakurako Hojo, Shin-ichi Furihata, Kazuo and Tashiro, Mitsuru 2004. Computational and NMR Analyses for the Identification of Bound Water Molecules in Ribonuclease T1. Analytical Sciences, Vol. 20, Issue. 10, p. 1471.

KORB, JEAN-PIERRE and BRYANT, ROBERT G. 2005. Vol. 57, Issue. , p. 293.

CrossRef

Sei, Yoshihisa Shimotakahara, Sakurako Ishii, Juri Shindo, Heisaburo Seki, Hiroko Yamaguchi, Kentaro and Tashiro, Mitsuru 2005. Observation of Water Molecules Bound to a Protein Using Cold-Spray Ionization Mass Spectrometry. Analytical Sciences, Vol. 21, Issue. 4, p. 449.

Gu, Jiande Wang, Jing and Leszczynski, Jerzy 2006. Molecular Basis of the Recognition Process: Hydrogen-Bonding Patterns in the Guanine Primary Recognition Site of Ribonuclease T1. The Journal of Physical Chemistry B, Vol. 110, Issue. 27, p. 13590.

Damjanović, Ana Schlessman, Jamie L. Fitch, Carolyn A. García, Angel E. and García-Moreno E., Bertrand 2007. Role of Flexibility and Polarity as Determinants of the Hydration of Internal Cavities and Pockets in Proteins. Biophysical Journal, Vol. 93, Issue. 8, p. 2791.

Lau, Edmond Y. and Krishnan, V.V. 2007. Temperature dependence of protein-hydration hydrodynamics by molecular dynamics simulations. Biophysical Chemistry, Vol. 130, Issue. 1-2, p. 55.

Mattos, Carla and Clark, A. Clay 2008. Minimizing frustration by folding in an aqueous environment. Archives of Biochemistry and Biophysics, Vol. 469, Issue. 1, p. 118.

Download full list

Article contents

Dissection of the structural and functional role of a conserved hydration site in RNase T1

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Dissection of the structural and functional role of a conserved hydration site in RNase T1

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests