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Fibril-mediated oligomerization of pilin-derived protein nanotubes.


ABSTRACT: BACKGROUND: Self-assembling protein nanotubes (PNTs) are an intriguing alternative to carbon nanotubes for applications in bionanotechnology, in part due to greater inherent biocompatibility. The type IV pilus of the gram negative bacteria Pseudomonas aeruginosa is a protein-based fibre composed of a single subunit, the type IV pilin. Engineered pilin monomers from P. aeruginosa strain K122-4 (?K122) have been shown to oligomerize into PNTs both in solution and at surfaces. In order to fully exploit PNTs in bionanotechonological settings, an in-depth understanding of their assembly, physical characteristics and robustness, both in solution and when constrained to surfaces, is required. RESULTS: This study details the effectiveness of multiple initiators of ?K122-derived PNT oligomerization and characterize the formation of PNTs in solution. The optimal initiator for the oligomerization of ?K122 in solution was observed to be 2-methyl-2,4-pentanediol (MPD). Conversely, larger PEG molecules do not trigger oligomerization. Multi-angle light scattering analysis indicates that the pilin protein exists in a monomer-dimer equilibrium in solution, and that an intermediate species forms within three hours that then coalesces over time into high molecular weight PNTs. Transmission Electron Microscopic analysis was used to observe the formation of oligomerized ?K122 fibrils prior to assembly into full-length PNTs. CONCLUSIONS: The oligomerization of ?K122 pilin derived PNTs is a fibril mediated process. The optimal trigger for PNT oligomerization in solution is MPD, and the observation that PEGs do not induce oligomerization may enable the oligomerization of pilin-derived PNTs on PEG-functionalized surfaces for implantable bionanodevices.

SUBMITTER: Petrov A 

PROVIDER: S-EPMC3704941 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Fibril-mediated oligomerization of pilin-derived protein nanotubes.

Petrov Anna A   Lombardo Stephanie S   Audette Gerald F GF  

Journal of nanobiotechnology 20130705


<h4>Background</h4>Self-assembling protein nanotubes (PNTs) are an intriguing alternative to carbon nanotubes for applications in bionanotechnology, in part due to greater inherent biocompatibility. The type IV pilus of the gram negative bacteria Pseudomonas aeruginosa is a protein-based fibre composed of a single subunit, the type IV pilin. Engineered pilin monomers from P. aeruginosa strain K122-4 (ΔK122) have been shown to oligomerize into PNTs both in solution and at surfaces. In order to fu  ...[more]

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