The C-terminal Half of the Anti-sigma Factor, Flgm, Becomes Structured When Bound to Its Target, σ²⁸

Authors

Gary W. Daughdrill, University of OregonFollow
Meggen S. Chadsey, University of Washington
Joyce E. Karlinsey, University of Washington
Kelly T. Hughes, University of Washington
Frederick W. Dahlquist, University of Oregon

Document Type

Article

Publication Date

2097

Digital Object Identifier (DOI)

https://doi.org/10.1038/nsb0497-285

Abstract

The interaction between the flagellum specific sigma factor, σ28, and its inhibitor, FlgM, was examined using multidimensional heteronuclear NMR. Here we observe that free FlgM is mostly unfolded, but about 50% of the residues become structured when bound to σ28. Our analysis suggests that the σ28 binding domain of FlgM is contained within the last 57 amino acids of the protein while the first 40 amino acids are unstructured in both the free and bound states. Genetic analysis of flgM mutants that fail to inhibit σ28 activity reveal amino acid changes that are also isolated to the C-terminal 57 residues of FlgM. We postulate that the lack of structure in free and bound FlgM is important to its role as an exported protein.

Was this content written or created while at USF?

Yes

Citation / Publisher Attribution

Nature Structural & Molecular Biology, v. 4, p. 285-291

Scholar Commons Citation

Daughdrill, Gary W.; Chadsey, Meggen S.; Karlinsey, Joyce E.; Hughes, Kelly T.; and Dahlquist, Frederick W., "The C-terminal Half of the Anti-sigma Factor, Flgm, Becomes Structured When Bound to Its Target, σ²⁸" (2097). Molecular Biosciences Faculty Publications. 145.
https://digitalcommons.usf.edu/bcm_facpub/145