1. The interdigitated β-helix domain of the P22 tailspike protein acts as a molecular clamp in trimer stabilization.
- Author
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Kreisberg, Jason F., Betts, Scott D., Haase-Pettingell, Cameron, and King, Jonathan
- Abstract
The P22 tailspike adhesin is an elongated thermostable trimer resistant to protease digestion and to denaturation in sodium dodecyl sulfate. Monomeric, dimeric, and protrimeric folding and assembly intermediates lack this stability and are thermolabile. In the native trimer, three right-handed parallel β-helices (residues 143-540), pack side-by-side around the three-fold axis. After residue 540, these single chain β-helices terminate and residues 541-567 of the three polypeptide chains wrap around each other to form a three-stranded interdigitated β-helix. Three mutants located in this region - G546D, R563Q, and A575T - blocked formation of native tailspike trimers, and accumulated soluble forms of the mutant polypeptide chains within cells. The substitutions R563Q and A575T appeared to prevent stable association of partially folded monomers. G546D, in the interdigitated region of the chain, blocked tailspike folding at the transition from the partially-folded protrimer to the native trimer. The protrimer-like species accumulating in the G546D mutant melted out at 42°C and was trypsin and SDS sensitive. The G546D defect was not corrected by introduction of global suppressor mutations, which correct kinetic defects in β-helix folding. The simplest interpretation of these results is that the very high thermostability (T
m = 88°C), protease and detergent resistance of the native tailspike acquired in the protrimer-to-trimer transition, depends on the formation of the three-stranded interdigitated region. This interdigitated β-helix appears to function as a molecular clamp insuring thermostable subunit association in the native trimer. [ABSTRACT FROM AUTHOR]- Published
- 2002
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