TY - JOUR
T1 - Weak intramolecular interactions in perchlorate salts of Λ-β�-[Co(R,R-picchxn)(R-aa)]₂� [picchxn=N,N′-di(2-picolyl)-1,2-diaminocyclohexane; AA=phenylalaninato(1−), tyrosinato(1−)] and their diastereoisomeric equilibration in solution
AU - Emseis, Paul
AU - Hibbs, David E.
AU - Leverett, Peter
AU - Reddy, Narsimha
AU - Williams, Peter A.
PY - 2004
Y1 - 2004
N2 - Single-crystal X-ray structures and high-resolution solution NMR studies of Λ-βâ‚Â-[Co(R,R-picchxn)(R-phe)](ClOâ‚„)â‚‚ · H2O and Λ-βâ‚Â-[Co(R,R-picchxn)(R-tyr)](ClOâ‚„)â‚‚ · 2Hâ‚‚O (pheH=phenylalanine, tyrH=tyrosine) are reported. In the former, the aromatic side group of the phenylalanine ligand is extended, as is found in related halide salts. In the tyrosine analogue, the aromatic ring adopts a conformation such that a weak intramolecular NH–À interaction with a NH group of the tetradentate ligand is stabilized. The interaction is rather weak and is not particularly favoured in solution, as revealed by ¹H NMR. The β₠complex of phenylalanine is not the thermodynamically stable diastereoisomer. Equilibration experiments give a mixture of Λ-βâ‚Â, Λ-β₂ and ÃŽâ€-α diastereoisomers in Dâ‚‚O solution, the α diastereoisomer being more stable than either of the β complexes by about 1 kJ molâ»Â¹ at 298.2 K. Intramolecular À–À and NH–À interactions are responsible for the stabilization of the α complex, demonstrating the significance of the cooperative effects of such interactions. The ternary cobalt complexes described in this study could act as simple model systems for investigating the discriminatory effects of analogous weak interactions that occur in a complex biological setting.
AB - Single-crystal X-ray structures and high-resolution solution NMR studies of Λ-βâ‚Â-[Co(R,R-picchxn)(R-phe)](ClOâ‚„)â‚‚ · H2O and Λ-βâ‚Â-[Co(R,R-picchxn)(R-tyr)](ClOâ‚„)â‚‚ · 2Hâ‚‚O (pheH=phenylalanine, tyrH=tyrosine) are reported. In the former, the aromatic side group of the phenylalanine ligand is extended, as is found in related halide salts. In the tyrosine analogue, the aromatic ring adopts a conformation such that a weak intramolecular NH–À interaction with a NH group of the tetradentate ligand is stabilized. The interaction is rather weak and is not particularly favoured in solution, as revealed by ¹H NMR. The β₠complex of phenylalanine is not the thermodynamically stable diastereoisomer. Equilibration experiments give a mixture of Λ-βâ‚Â, Λ-β₂ and ÃŽâ€-α diastereoisomers in Dâ‚‚O solution, the α diastereoisomer being more stable than either of the β complexes by about 1 kJ molâ»Â¹ at 298.2 K. Intramolecular À–À and NH–À interactions are responsible for the stabilization of the α complex, demonstrating the significance of the cooperative effects of such interactions. The ternary cobalt complexes described in this study could act as simple model systems for investigating the discriminatory effects of analogous weak interactions that occur in a complex biological setting.
KW - Chemical bonds
KW - Cobalt compounds
KW - Ligands
KW - Nuclear magnetic resonance
KW - Phenylalanine
KW - Tyrosine
UR - http://handle.uws.edu.au:8081/1959.7/10559
M3 - Article
SN - 0020-1693
JO - Inorganica Chimica Acta
JF - Inorganica Chimica Acta
ER -