N-terminal β-strand swapping in a consensus-derived alternative scaffold driven by stabilizing hydrophobic interactions

Jinquan Luo; Alexey Teplyakov; Galina Obmolova; Thomas J Malia; Winnie Chan; Steven A Jacobs; Karyn T O'Neil; Gary L Gilliland

doi:10.1002/prot.24517

N-terminal β-strand swapping in a consensus-derived alternative scaffold driven by stabilizing hydrophobic interactions

Proteins. 2014 Jul;82(7):1527-33. doi: 10.1002/prot.24517. Epub 2014 Feb 18.

Authors

Jinquan Luo¹, Alexey Teplyakov, Galina Obmolova, Thomas J Malia, Winnie Chan, Steven A Jacobs, Karyn T O'Neil, Gary L Gilliland

Affiliation

¹ Biotechnology Center of Excellence, Janssen Research & Development LLC, Spring House, Pennsylvania, 19477.

PMID: 24464739
DOI: 10.1002/prot.24517

Abstract

The crystal structure of an N-terminal β-strand-swapped consensus-derived tenascin FN3 alternative scaffold has been determined. A comparison with the unswapped structure reveals that the side chain of residue F88 orients differently and packs more tightly with the hydrophobic core of the domain. Dimer formation also results in the burial of a hydrophobic patch on the surface of the domain. Thus, it appears that tighter packing of F88 in the hydrophobic core and burial of surface hydrophobicity provide the driving forces for the N-terminal β-strand swapping, leading to the formation of a stable compact dimer.

Keywords: N-terminal β-strand swapping; Tencon; alternative scaffold; domain swapping.

MeSH terms

Hydrophobic and Hydrophilic Interactions*
Models, Molecular
Protein Stability*
Protein Structure, Tertiary*
Tenascin / chemistry

Substances

Tenascin