Contents I. Introduction 489 II. Overview of Polymers in Liquid-Phase Synthesis 490 A. Properties of Soluble Polymer Supports 490 B. Methods of Separating Polymers from Reaction Mixtures 491 C. Analytical Methods in Liquid-Phase Synthesis 491 D. Listing of Polymers 491 E. Polyethylene Glycol (PEG) 492 III.
To expand the availability and solubility range of polymer supports for liquid-phase organic synthesis (LPOS) we have applied a sequence of normal and "living" free radical polymerization to generate a library of block copolymers possessing either block or graft architecture with initiators 1-4 and a diverse set of vinyl monomers 5-9. The structure, molecular weight, and polydispersity (PD) of the individual library members have been determined by size exclusion chromatography (SEC), 1 H and 13 C NMR, and as a function of the solubility of each polymer in a range of solvents. One copolymer, polyBS-DS (M n ) 17 000, PD ) 1.54) derived from 4-tert-butylstyrene (6, BS), 3,4-dimethoxystyrene (7, DS), and initiator 1 has a solubility profile [soluble in toluene, tetrahydrofuran (THF), ether, acetone and methylene chloride (DCM), insoluble in methanol and water] that is different from the present polymer of choice for LPOS, poly(ethylene) glycol (PEG), and has been studied in some detail as a new support in LPOS. The R-nitrile groups of polyBS-DS are reduced smoothly with LiAlH 4 in THF to give the amino functionalized copolymer 22 (0.14 mmol g -1 of amino groups based on a quantitative ninhydrin analysis). Kinetic studies have revealed that derivatization of the amino groups of 22 with 4-dimethylaminocinnamaldehyde 23 occurs at a comparable rate to a solution counterpart 26) and exchange of Rh(I), the resulting phosphine containing copolymer Rh(I)-27, catalyzes the enantioselective hydrogenation of 2-N-acetamidoacrylic acid (28) to N-acetylalanine (29) in THF. An 87% enantiomeric excess (ee) of (S)-29 is obtained, comparable to that observed with a homogeneous phosphine ligand. This work highlights the power of a parallel polymer synthesis strategy, from conception to application, for the generation of polymers possessing unique solubility profiles and functionality which can serve as novel supports in LPOS.
Twenty-six derivatives of [SalenMn(III)](+) (1) bearing halogen, nitro, amino, ether, alkyl, or aryl substituents on the aromatic rings and/or at the imine positions or containing 1,3-propylene-, 1,2-phenylene-, 1,2-cyclohexane-, or 1,2-diphenylethylenediamine in place of ethylenediamine as the bridging moiety have been synthesized. The DNA binding/cleaving properties of these complexes in the presence of terminal oxidants have been examined using DNA affinity cleaving techniques. Active derivatives produced DNA cleavage from the minor groove at sites containing multiple contiguous A:T base pairs. For aryl-substituted derivatives, DNA cleavage efficiency was found to vary with both the identity and position of attachment of substituents. The precise patterns of cleavage at A:T target sites varied with the position of attachment of substituents, but not with the identity of the substituents. The results suggest that substituents alter specificity through both steric and electronic effects. The 3,3'-difluoro and -dichloro derivatives produced cleavage patterns that match those of the parent complex, suggesting that the activated form of 1 produces cleavage from an orientation in which the concave edge of the complex faces away from the floor of the DNA minor groove. Bridge modifications yield complexes with reduced DNA cleaving activity relative to 1. DNA cleaving efficiency was found to vary with both the structure and stereochemistry of the bridge. Cleavage efficiency for the complex derived from (R,R)-cyclohexanediamine was 5 times greater than that for the (S,S) enantiomer. Cleavage patterns produced by the enantiomeric complexes at A:T rich target sites were different, demonstrating enantiospecific recognition and cleavage of right-handed double-helical DNA.
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