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United States Department of Agriculture

Agricultural Research Service

Research Project: CHEMICAL MODIFICATION OF COTTON FOR VALUE ADDED APPLICATIONS

Location: Cotton Chemistry and Utilization Research

Title: pH-directed self-assembling helical peptide conformation

Authors
item Edwards, Judson
item French, Alfred
item Jacks, Thomas
item Rajasekaran, Kanniah

Submitted to: American Chemistry Society Book Chapter
Publication Type: Book / Chapter
Publication Acceptance Date: September 30, 2011
Publication Date: April 4, 2012
Citation: Edwards, J.V., French, A.D., Jacks, T.J., Rajasekaran, K. 2012. pH-directed self-assembling helical peptide conformation. In: Rajasekaran, K., et al., Small Wonders: Peptides for Disease Control. Washington, DC:American Chemical Society American Chemistry Society Book Chapter. p. 203-213. DOI: 10.1021/bk-2012-1095.ch010

Interpretive Summary: Peptide shape or conformation determines the many potential uses that peptides have. For example by controlling the shape of the peptide molecule numerous interesting self-assembling motifs have arisen that have applications in biomaterial science, agriculture, and gene delivery. This paper examines some of the design motifs that can be triggered by pH and lead to a helix shape with specific properties.

Technical Abstract: The beta-sheet and alpha-helix peptide conformation are two of the most fundamentally ordered secondary structures found in proteins and peptides. They also give rise to self-assembling motifs that form macromolecular channels and nanostructures. Through design these conformations can yield enhanced membrane activity. The self-assembling properties of the beta-sheet and helical peptide motifs have found many applications as antimicrobials and in biomaterials with potential in regenerative medicine. In a delivery or biomaterial system these two conformational motifs can confer nano-strucutral properties that are useful in implantable biomaterials, and non-viral gene formulations. Influenza hemagglutinin (HA) fusion peptides, which were first reported by Wiley et al., possess lytic properties of HA that allow it to gain endosome entry through conformational transition, and is required for membrane fusion activity. The helical peptide’s active conformation is formed by way of a pH-triggered change in conformation that is endosomolytic as originally found in HA mutants. Here we discuss helix design properties of some pH-triggered lytic peptides while maintaining a conformation with minimum amino acid chain length requirements.

Last Modified: 11/23/2014
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