Ferrocenoyl peptides with sulfur-containing side chains:: synthesis, solid state and solution structures

The synthesis and full characterization of a number of amino acid and dipeptide derivatives with sulfur-containing side chains derived from ferrocene carboxylic acid and ferrocene-1,1'-dicarboxylic acid is presented. In particular, compounds Fc-CO-(Aaa)(n)-OMe (4) and Fe[C5H4-CO-(Aaa)(n)-OMe](2) (3) with (Aaa)(n) = Cys(Bzl) (a), Cys(Bzl)-Cys(Bzl) (b), Cys(p-OMe-Bzl) (c), Cys(p-OMeBzl)-Cys(p-OMe-Bzl) (d), Met (c), and Met-Met (f) were prepared. Also, the free acid derivatives Fe[C5H4-CO-Met-OH](2) (6e) and Fc-CO-Met-OH (7e) were prepared and characterized. The solid state structures of 3a, 4b, and 4e were determined by single crystal X-ray diffraction. Compound 3a shows a 1,3' substitution pattern on the Cp rings in the solid state. Structures in solution were determined by NMR, IR and CD spectroscopy, with particular emphasis on the question of hydrogen bonding and helical chirality of the metallocene. As an example, the full assignment for the Cp signals in the disubstituted derivative 3a was achieved by simulation of the H-1 NMR signals from the cyclopentadienyl ring in combination with 2D-NOESY spectra. In solution, 3a has the known 1,2' substitution pattern, which is stabilized by intramolecular hydrogen bonds. (C) 2004 Elsevier B.V. All rights reserved.