화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.123, No.24, 5619-5624, 2001
Self-assembling, cystine-derived, fused nanotubes based on spirane architecture: Design, synthesis, and crystal structure of cystinospiranes
A novel family of cystine-based spirobicyclic peptides (cystinospiranes) has been synthesized by a single-step procedure involving condensation of pentaerythritol-derived tetrachloride with either the simple L-cystine dimethyl ester or its C,C'-extended bispeptides leading to a variety of 19-membered spirobicyclic peptides or its N,N'-extended bispeptides affording the ring-expanded 25-membered cystinospiranes. The design is flexible with respect to the ring size that can be adjusted depending upon the length of the N,N'-extended cystine bispeptide, and the choice of an amino acid, as illustrated here with the preparation of a large number of cystinospiranes containing a wide variety of amino acids. X-ray crystal structure of the parent spirane (5a) revealed nanotube formation by vertical stacking of relatively flat spirobicyclic molecules through contiguous NH- - -O=C hydrogen bonding. The fused pair of parallel nanotubes is open-ended, hollow, and extends to infinity. Crystallographic parameters are the following: C33H52N4O16S4, space group C2, a = 42.181(3) Angstrom, b = 5.1165(7) Angstrom, c = 11.8687(9) Angstrom, beta = 106.23(1)degrees.