The mechanisms for the reaction of allyltributylstannane with a number of fragmentation probes, alpha-substituted acetophenones, were studied. All reactions were shown to proceed through free radical chain sequences since they could be initiated by AIBN and inhibited by m-dinitrobenzene (DNB). alpha-Halo- and alpha-(benzoyloxy)acetophenones (I and II, PhCOCR(1)R(2)X; X = F, Cl, Br, OCOPh; R(1), R(2) = H, Me) yielded the allylation products, PhCOCR(1)R(2)CH(2)CH=CH(2)), through a chain sequence involving as the propagation step: an electron transfer from Bu(3)Sn(*) to I and II, fragmentation of the ketyl anion PhCOCR(1)R(2)X(*)(-), and addition of PhCOCR(1)R(2)(*) to allyltributylstannane. The reactions of alpha-(arylsulfonyl)acetophenones (IIIa-c, PhCOCR(1)R(2)Y, Y = SO(2)Tol-p), however, gave a nearly 1:1 mixture of allyl tosyl sulfone and the corresponding ketone, PhCOCHR(1)R(2). The (1)H and (13)C NMR of the reaction mixture between allyltributylstannane and alpha-(p-methylbenzenesulfonyl)isobutyrophenone substantiated the intermediacy of the tin enolate PhC(OSnBu(3))=CMe(2). These results suggested that a radical addition elimination mechanism was involved in the reactions of IIIa-c with allylstannane. The reaction of alpha-phenylthioacetophenone (IV, PhCOCH(2)SPh) gave both the electron transfer and the addition elimination products (PhCOCH(2)CH(2)CH=CH(2), PhCOCH(3)), indicating that both pathways were involved in the formation of the products.
Mixtures of cyclic peptides, formed by head-to-tail cyclizations of side-chain resin-bound linear sequences, have been prepared using solid-phase synthesis. Fast atom bombardment mass spectrometry of cyclic peptides with various metal ions can reveal preferred modes of host-guest patterns, albeit in a nonquantitative manner. This approach could prove useful for more rapid screening of potential peptide ionophores. A cyclic heptapeptide with a dipeptide tail proved to be a particularly effective host for a Ca 2+ ion; .in a small three-component mixture, cyclo[Gly-Asp-D-Pro-Xxx-Asp-D-Pro-Asp(Aca-Phe-NH2)], binding to Ca 2+ varied from Xxx = N-MeAla > Gly--Sar. In a l 5-component mixture, cyclo[Pro-Xxx-Asn-Pro-Xxx-Asn] where Xxx = Ala, Glu, Leu, Lys or Phe, there were no significant differences with respect to binding to metal ions. We believe this to be the first reported use of cyclic peptide libraries for screening metal ions to discern host-guest relationships.
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