Comparison of helix stability in wild-type and mutant LamB signal sequences
- PMID: 2406265
Comparison of helix stability in wild-type and mutant LamB signal sequences
Abstract
Previous studies of isolated peptides corresponding to the wild-type signal sequence of the LamB protein of Escherichia coli and to several export-impaired mutants demonstrated that a high tendency to adopt an alpha-helical conformation in low dielectric environments was a property of functional sequences. We have now used nuclear magnetic resonance to establish further characteristics of the helical conformation of these signal peptides in a solvent mixture (50% trifluoroethanol, by volume, in water) which mimics the conformational distribution of these peptides in lipid vesicles. The interactions of signal sequences in vivo may depend on the location of the helix in the sequence, on the length of the helical segment, and on the stability of the helix. We find that the hydrophobic core has the most persistent helix conformation and that the stability of this helix correlates with in vivo function of different mutants of the LamB signal sequence. In the family of signal peptides studied here, the length of the helix required for function appears to be less rigidly restricted since a signal peptide from a functional pseudorevertant with 4 residues deleted from the hydrophobic core takes up helix as stably as wild type but incorporates fewer residues in the helix.
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