Toward the design of highly efficient, readily accessible peptide N-caps for the induction of helical conformations

A series of novel peptide N-caps was designed with an emphasis on ease of synthesis and an abundance of hydrogen bond acceptors. Different scaffolds based on sugars, cyclic hydrocarbons, and amino acids are developed with a variety of hydrogen bond acceptors including esters, carboxyls, amides and a sulfonic acid. The efficient use in solid-phase peptide synthesis was demonstrated by incorporating the N-caps to a resin-bound model peptide. Their differential helix nucleating power in aq. buffer was detd. by CD studies. Increases in peptide helicity to a significant extent are obsd., leading to a discussion of N-capping efficiency vs. ease of synthesis. The potential of the elaborated N-caps for the reversal of beta-sheet to alpha-helix conformations in the context of fibrillogenesis is discussed.

Toward the design of highly efficient, readily accessible peptide N-caps for the induction of helical conformations

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Influence of Amino Acid Substitutions in Capsid Proteins of Coxsackievirus B5 on Free Chlorine and Thermal Inactivation

Investigating the intra-molecular and inter-molecular effects of post-translational modifications on intrinsically disordered protein regions and structured protein regions

Fluorescent fatty acid conjugates for live cell imaging of peroxisomes

Influence of Amino Acid Substitutions in Capsid Proteins of Coxsackievirus B5 on Free Chlorine and Thermal Inactivation

Investigating the intra-molecular and inter-molecular effects of post-translational modifications on intrinsically disordered protein regions and structured protein regions

Fluorescent fatty acid conjugates for live cell imaging of peroxisomes