X-Ray Crystal Structure of a Highly Functionalized Thiophene as a New Backbone Amide Linker for Solid-phase Peptide Synthesis. Relationship between Crystal Structure and Reactivity

The development of new linkers (handles) for solid-phase synthesis provides new chemical opportunities for peptide synthesis. To understand the chemical properties of a recently developed backbone amide linker from a structural perspective, the crystal structure of S-((5-formyl-3,4-ethylenedioxy)thiophene-2-yl)-3-thiopropionic acid (T-BAL2) was studied. Specifically, we wished to address whether this highly substituted thiophene retained planarity in the aromatic ring as well as between the aromatic ring and the aldehyde carbonyl. Furthermore, we sought an explanation for the relatively low reactivity in reductive aminations of the thienylaldehyde with amines in solution and on solid phase. Based on the crystal structure of T-BAL2, the thienyl-C (aldehyde) and C–O (aldehyde) bond lengths were applied as measures for the electron-deficiency (electrophilicity) of the aldehyde and compared to similar bond lengths found in previously reported formylated homo- and hetero-aromatic systems, which show significantly higher reactivity towards imine formation. The bond lengths found in the present structure are in accordance with normal C–C single bond and C–O double bond lengths. The high similarity in aldehyde bond lengths in the present system and in the reported systems indicates similar electron distribution in these systems. The lower reactivity of the present system may therefore not be attributed to electronic factors.