Vibrational circular dichroism (VCD) and IR spectra have been recorded in the fingerprint and carbonyl stretching regions for endo,endo-bicamphor (1), exo,exo-bicamphor (2), endo,exo-bicamphor (3), 3,3'-bicamphorylidene (4), and exo,exo-bis-thiocamphor (5). The C2 symmetry possessed by these molecular systems (except in one case), as well as their limited conformational mobility associated with well-defined degrees of freedom, allow for optimal test of the vibrational circular dichroism exciton chirality (VCDEC) rule introduced by Taniguchi and Monde. Density functional theory calculations are employed not only to predict the entire aspect of the VCD and IR spectra but also to study how the VCDEC rule may be impacted by the coupling between C═O stretchings and from C═O stretchings with other vibrational modes and by the rotation about the C-C bond connecting the two camphors. Comments are provided about the limitations and potentialities of the VCDEC method and about the manifestation of different vibrational excitons in other regions of the VCD spectra, either in the mid-IR or in the CH-stretching regions.
A water-soluble conjugate (1) with intact carboxyl groups was prepared by addition of poly(ethylene glycol) thiol (MPEG-SH) regiospecifically to the exo vinyl group of bilirubin. (1)H and (13)C NMR and absorbance spectroscopy in CDCl(3) and DMSO-d(6) confirmed the assigned structure and showed that pegylation did not disrupt the hydrogen-bonded ridge-tile conformation of the pigment moiety. Aqueous solutions of 1 were optically clear, but NMR signals were seen only from the MPEG portion and none from the tetrapyrrole, consistent with dissolved assemblies containing aggregated bilirubin cores within mobile polyether chains. On alkalinization (pH >12), signals from the pigment moiety reappeared. Titrimetric measurements on 1 in water showed the pK(a)'s of the two carboxyl groups to be similar (average 6.42). Control studies with pegylated half-esters of succinic, suberic, brassylic, thapsic, and 1,20-eicosanedioic acid showed that pegylation per se has little, if any, effect on carboxyl ionization. However, aggregation increases the apparent pK(a) by approximately 1-2 units. The molecularity of bilirubin in solution was further characterized by ultracentrifugation. Over the pH range 8.5-10 in buffer, bilirubin formed multimers with aggregation numbers ranging from approximately 2-7. Bilirubin is monomeric in DMSO or CHCl(3) at approximately 2 x 10(-)(5) M, but aggregation occurred when the CHCl(3) was contaminated with trace adventitious (perhaps lipoidal) impurities. These observations show that aggregation increases the pK(a)'s of aliphatic carboxylic acids relative to their monomer values in water. They are consistent with earlier (13)C NMR-based estimates of approximately 4.2 and approximately 4.9 for the aqueous pK(a)'s of bilirubin and similar studies of bilirubin in micellar bile-salt solutions. Together with earlier work, they confirm that the pK(a)'s of bilirubin are about normal for aliphatic carboxyls and suggest that the high (>7.5) values occasionally reported, including those based on CHCl(3) partitioning, are artifacts of aggregation or technique.
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