Search for: All records

Abstract Water-soluble peptidomimetics, including peptoids, are promising functional surrogates for biologically relevant, amphiphilic, helical peptides. Twenty amphiphilic peptoid hexamers with predicted helical structures were designed, prepared, and studied using circular dichroism (CD) spectroscopy. The site-specific contributions of aromatic and charged residues to the helical structure of peptoid hexamers in aqueous solution was evaluated, revealing that aromatic residue positioning most significantly impacts structure. 

Previous work has shown that spherical CuO nanomaterials show negative effects on cell and animal physiology. The biological effects of Cu 2 O materials, which possess unique chemical features compared to CuO nanomaterials and can be synthesized in a similarly large variety of shapes and sizes, are comparatively less studied. Here, we synthesized truncated octahedral Cu 2 O particles and characterized their structure, stability, and physiological effects in the nematode worm animal model, Caenorhabditis elegans . Cu 2 O particles were found to be generally stable in aqueous media, although the particles did show signs of oxidation and leaching of Cu 2+ within hours in worm growth media. The particles were found to be especially sensitive to inorganic phosphate (PO 4 3− ) found in standard NGM nematode growth medium. Cu 2 O particles were observed being taken up into the nematode pharynx and detected in the lumen of the gut. Toxicity experiments revealed that treatment with Cu 2 O particles caused a significant reduction in animal size and lifespan. These toxic effects resembled treatment with Cu 2+ , but measurements of Cu leaching, worm size, and long-term behavior experiments show the particles are more toxic than expected from Cu ion leaching alone. These results suggest worm ingestion of intact Cu 2 O particles enhances their toxicity and behavior effects while particle exposure to environmental phosphate precipitates leached Cu 2+ into biounavailable phosphate salts. Interestingly, the worms showed an acute avoidance of bacterial food with Cu 2 O particles, suggesting that animals can detect chemical features of the particles and/or their breakdown products and actively avoid areas with them. These results will help to understand how specific, chemically-defined particles proposed for use in polluted soil and wastewater remediation affect animal toxicity and behaviors in their natural environment. 

Abstract Monodisperse, sequence‐specific oligomers that adopt regular three‐dimensional structures, termed foldamers, have found widespread use as biomimetics, sensors, and novel materials. This review highlights recent examples in which steady state and time‐resolved fluorescence techniques have clarified foldamer structure or enabled the development of foldamers with exciting and sophisticated functions. Applications of foldamers include their development into bioactive compounds, supramolecular hosts or sensors, and materials with useful optical properties. Examples that illustrate the use of natively fluorescent and fluorophore‐modified foldamers are discussed along with studies of fluorophore interactions with varied dyes.