Title of article
Probing Nature’s Knots: The Folding Pathway of a Knotted Homodimeric Protein
Author/Authors
Anna L. Mallam and Sophie E. Jackson، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
17
From page
1420
To page
1436
Abstract
The homodimeric protein YibK from Haemophilus influenzae belongs to a recently discovered superfamily of knotted proteins that has brought about a new protein-folding conundrum. Members of the α/β-knot clan form deep trefoil knots in their native backbone structure, a topological feature that is currently unexplained in the protein-folding field. To help solve the puzzle of how a polypeptide chain can efficiently knot itself, the folding kinetics of YibK have been studied extensively and the results are reported here. Folding was monitored using probes for changes in both secondary and tertiary structure, and the monomer–dimer equilibrium was perturbed with a variety of solution conditions to allow characterisation of otherwise inaccessible states. Multiphasic kinetics were observed in the unfolding and refolding reactions of YibK, and under conditions where the dimer is favoured, dissociation and association were rate-limiting, respectively. A folding model consistent with all kinetic data is proposed: YibK appears to fold via two parallel pathways, partitioned by proline isomerisation events, to two distinct monomeric intermediates. These form a common third intermediate that is able to fold to native dimer. Kinetic simulations suggest that all intermediates are on-pathway. These results provide the valuable groundwork required to further understand how Nature codes for knot formation.
Keywords
topological knot , parallel pathway , multistate kinetics , Protein folding , chevron plot
Journal title
Journal of Molecular Biology
Serial Year
2006
Journal title
Journal of Molecular Biology
Record number
1252600
Link To Document