Facile synthetic method for peptoids bearing multiple azoles on side chains

Abstract: Natural metalloenzymes stabilize metal centers by utilizing multiple imidazole moieties. Inspired by nature's design principles, the introduction of multiple azoles into ligands has been an effective method for constructing transition metal complexes.Herein, we describe a post-synthetic modification of peptoids to incorporate multiple azoles on side chains. A simple substitution reaction between an azole (imidazole, pyrazole, 1,2,3-triazole, and tetrazole) and a chloroalkyl-containing peptoid provided access t… Show more

“…In principle, the late-stage functionalization of N -(3-chloropropyl)­glycines (Npl) could resolve these issues. This monomer was previously shown to be readily incorporated into peptoids and undergo base-promoted intramolecular cyclization reactions or intermolecular displacements using azoles, NaN 3 , or NaCN as nucleophiles . Similarly, aza-amino acids with chloroalkyl side chains have been exploited to access azaLys, azaOrn, and azaArg derivatives .…”

Late-Stage Chloride Displacements Enable Access to Peptoids with cis-Inducing Alkylammonium Side Chains

“…In principle, the late-stage functionalization of N -(3-chloropropyl)­glycines (Npl) could resolve these issues. This monomer was previously shown to be readily incorporated into peptoids and undergo base-promoted intramolecular cyclization reactions or intermolecular displacements using azoles, NaN 3 , or NaCN as nucleophiles . Similarly, aza-amino acids with chloroalkyl side chains have been exploited to access azaLys, azaOrn, and azaArg derivatives .…”

Late-Stage Chloride Displacements Enable Access to Peptoids with cis-Inducing Alkylammonium Side Chains

Enhancing molecular diversity of peptoid oligomers using amino acid synthons