2 research outputs found
Enediyne-Comprising Amino Aldehydes in the Passerini Reaction
Multicomponent
reactions represent a highly efficient approach
to a broad spectrum of structurally diverse compounds starting from
simple and affordable compounds. A focused library of tweezers-like
compounds is prepared by employing the multicomponent Passerini reaction
comprising enediyne-derived amino aldehydes. The reaction proceeds
under mild conditions yielding Passerini products in good to excellent
yields. Postcondensation modifications of Passerini products are demonstrated
through a simple deprotection/coupling approach comprising amino functionality,
furnishing enediyne cores with highly decorated arms
“Backdoor Induction” of Chirality: Asymmetric Hydrogenation with Rhodium(I) Complexes of Triphenylphosphane-Substituted β‑Turn Mimetics
Bioconjugate
bidentate ligands <b>2</b>–<b>10</b> were obtained
by tethering triphenylphosphanecarboxylic acid to
amino acid substituted spacers with different flexibility, ranging
from a rigid enediyne-based β-turn inducer to flexible linear
aliphatic chains with up to eight carbon atoms. The 21 synthesized
ligands revealed up to 81% ee selectivity in rhodium-catalyzed asymmetric
hydrogenation of α,β-unsaturated amino acids. The key
feature of the catalysts is the prochiral coordination sphere of the
catalytic metal while the chirality is transmitted by “backdoor
induction” from distant hydrogen-bonded amino acids. DFT calculations
were applied to study the structure and relative stability of the
precatalytic organometallic Rh(I) complexes, with particular emphasis
on hydrogen-bonded secondary structures