J. Biochem, 2004, Vol. 136, No. 4 485-493
© 2004 The Japanese Biochemical Society
BIOCHEMISTRY |
Bare-Faced Curassow Lysozyme Carrying Amino Acid Substitutions at Subsites E and F Shows a Change in Activity against Chitooligosaccharide Caused by a Local Conformational Change
1 Department of Bioscience, School of Agriculture, Kyushu Tokai University, Aso, Kumamoto 869-1404; and 2 Faculty of Agriculture, Graduate School of Bioresource and Bioenvironmental Sciences, Genetic Resources Technology, Molecular Gene Techniques, 6-10-1, Hakozaki, Higashi-ku, Fukuoka 812-8581
A new form of avian lysozyme, bare-faced curassow lysozyme (BCL), was purified and chemically sequenced. Of the 26 substitutions relative to chicken lysozyme, three, F34Y, T47S, and R114H, are of substrate-interacting residues in the E and F subsites, which would contribute to the acceptor binding for transglycosylation. T47S is a novel substitution in this lysozyme class. While other lysozymes also have substitutions at positions 114 and 34, they also contain numerous others, including ones in the other substrate binding sites, A–D. Furthermore, T47S lies on the left side, while F34Y and R114H are located on the right side of the E-F subsites. BCL therefore should allow comparison of the independent contributions of these sites to substrate binding and transglycosylation. The activity toward the N-acetylglucosamine pentamer revealed that the substitutions at the E-F sites reduced the binding free energies at the E-F sites and the rate constant for transglycosylation without the conformation change of other substrate binding sites on the protein. MD simulation analysis of BCL suggested that the substituted amino acids changed the local conformation of this lysozyme at the E-F sites.
* To whom correspondence should be addressed. E-mail: taraki{at}ktmail.ktokai-u.ac.jp