Subject Area

Chemistry

Description

Cristina Díaz ’25, Chemistry major

Malaquias Loiza ’26, Biochemistry major

Josef Crenshaw ’28, Biochemistry major

Brian Ladino ’28, Biochemistry major

Elizabeth Perda ’26, Biochemistry major

Alma Martinez ’26, Biochemistry major

Joseph Mazzucca ’25, Biochemistry major

John Stathoulopoulos ’26, Chemistry major

Faculty mentor: Dr. Seann Mulcahy, Chemistry and Biochemistry

Axially chiral molecules with high barriers to rotation are becoming increasingly more prominent in drug discovery, chemical biology, and materials science. We have shown that 1-aryl-β-carbolines exhibit high configurationally stability, with barriers to rotation greater than 30 kcal/mol and have recently disclosed an asymmetric synthesis of these molecules. In this presentation, we will describe three different projects involving undergraduate students at Providence College. These projects involve the discovery of new chemical reactions and probe molecules involving the β-carboline scaffold. First, we will describe our efforts to perform a kinetic resolution of these molecules by performing a peptide-catalyzed N-oxidation. Then, we will describe our efforts towards the synthesis of the atropisomeric natural product chaetogline F. Finally, we will describe a synthetic strategy toward a new class of biaryl N,P-ligands for asymmetric catalysis.

Publisher

Providence College

Date

Spring 4-23-2025

Start Date

4-23-2025 1:30 PM

Type

Poster

Format

Text

.pdf

Language

English

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