Innovative Foldamers: Engineering Heterochiral Peptides
Abstract
Innovative Foldamers: The field of foldamer design promises new routes to important compounds for use in sensors, smart materials, and catalysts. The term "foldamer" refers to a molecule that folds into a structurally stable state in solution. Proteins and peptides are an important class of natural foldamers that carry out a host of essential functions in biology, including molecular recognition, information storage, catalysis, and controlled crystallization of inorganic materials. The desire to mimic such functions with synthetic molecules inspires the field of foldamer design. Of the foldamers under development, beta-helices -- peptide helices containing amino acids with alternating chirality -- represent an intriguing and relatively unexplored subclass of peptide-based foldamers. Very few beta-helical peptides exist in nature, and all of these compounds adopt their active beta-helical structures in hydrophobic membrane environments. However, for many potential biomimetic or bioinspired applications, water or other polar solvents will likely be the medium of choice. In our research, therefore, we pose the question: Can engineered beta-helices discretely fold in polar media such as methanol, and ultimately water?
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 2009
- Accession Number
- ADA525010
Entities
People
- J. L. Kulp Iii
- T. D. Clark
Organizations
- United States Naval Research Laboratory