Single Amino Acid Exchange in Bacteriophage Hk620 Tailspike Protein Results in Thousand-Fold Increase of its Oligosaccharide Affinity.Broeker, N.K., Gohlke, U., Muller, J.J., Uetrecht, C., Heinemann, U., Seckler, R., Barbirz, S.
(2013) Glycobiology 23: 59
- PubMed: 22923442
- DOI: 10.1093/glycob/cws126
- Primary Citation of Related Structures:  2X6W, 2X6X, 2X6Y, 4AVZ
- Also Cited By: 4XKV, 4XKW, 4XL9, 4XLA, 4XLC, 4XLE, 4XLF, 4XLH, 4XM3, 4XMY, 4XN0, 4XN3, 4XNF, 4XON, 4XOP, 4XOR, 4XOT, 4XQF, 4XQH, 4XQI, 4XR6, 4YEJ, 4YEL
- PubMed Abstract:
- Crystal Structure of Escherichia Coli Phage Hk620 Tailspike: Podoviral Tailspike Endoglycosidase Modules are Evolutionarily Related
Barbirz, S.,Mueller, J.J.,Uetrecht, C.,Clark, A.J.,Heinemann, U.,Seckler, R.
(2008) Mol.Microbiol. 69: 303
Bacteriophage HK620 recognizes and cleaves the O-antigen polysaccharide of Escherichia coli serogroup O18A1 with its tailspike protein (TSP). HK620TSP binds hexasaccharide fragments with low affinity, but single amino acid exchanges generated a set o ...
Bacteriophage HK620 recognizes and cleaves the O-antigen polysaccharide of Escherichia coli serogroup O18A1 with its tailspike protein (TSP). HK620TSP binds hexasaccharide fragments with low affinity, but single amino acid exchanges generated a set of high-affinity mutants with submicromolar dissociation constants. Isothermal titration calorimetry showed that only small amounts of heat were released upon complex formation via a large number of direct and solvent-mediated hydrogen bonds between carbohydrate and protein. At room temperature, association was both enthalpy- and entropy-driven emphasizing major solvent rearrangements upon complex formation. Crystal structure analysis showed identical protein and sugar conformers in the TSP complexes regardless of their hexasaccharide affinity. Only in one case, a TSP mutant bound a different hexasaccharide conformer. The extended sugar binding site could be dissected in two regions: first, a hydrophobic pocket at the reducing end with minor affinity contributions. Access to this site could be blocked by a single aspartate to asparagine exchange without major loss in hexasaccharide affinity. Second, a region where the specific exchange of glutamate for glutamine created a site for an additional water molecule. Side-chain rearrangements upon sugar binding led to desolvation and additional hydrogen bonding which define this region of the binding site as the high-affinity scaffold.
Physikalische Biochemie, Universität Potsdam, Germany.