Solid supports Merrifield

Figure 7.2 Thermal stability (differential scanning calorimetry) of polystyrene-based solid support (Merrifield resin) (A. Stadler and C.O. Kappe, unpublished results).

Alternatively, initiator cores have been tethered to solid support (Merrifield resins [83]). Using protein synthesis procedures that avoid the workup difficulties involved in handling large excesses of reagents, one can readily control dendrimer growth. Unfortunately, only noncleavable linkers have been examined to date with these PAMAM dendrimers. The use of initiator cores possessing cleavable linkers should make dendrimer synthesis and isolation very facile. This was demonstrated for mono-dendrons derived from poly(lysines) as reported by Tam et al. [105-107] (Fig. 26). 

Perrier et al. [176] attached a CTA to a solid support (Merrifield resin) by its Z group to control the polymerization of methyl acrylate. Preliminary results revealed that the reaction led to well-controlled polymers, and the supported nature of the CTA allows its easy recovery after reaction. The use of free CTAs in solution helped to increase the control over the molecular weight and polydispersity of the product. 

Solid support—Merrifield or preloaded phenylacetamido-methyl (PAM) resin. 

What protected amino acid would you anchor to the solid support in the first step of a synthesis of oxytocin (see Figure 27.8) by the Merrifield method ... 

DNA synthesizers operate on a principle similar to that of the Merrifield solid-phase peptide synthesizer (Section 26.8). In essence, a protected nucleotide is covalently bonded to a solid support, and one nucleotide at a time is added to the growing chain by the use of a coupling reagent. After the final nucleotide has been added, all the protecting groups are removed and the synthetic DNA is cleaved from the solid support. Five steps are needed ... 

A variety of cleavage conditions have been reported for the release of amines from a solid support. Triazene linker 52 prepared from Merrifield resin in three steps was used for the solid-phase synthesis of aliphatic amines (Scheme 22) [61]. The triazenes were stable to basic conditions and the amino products were released in high yields upon treatment with mild acids. Alternatively, base labile linker 53 synthesized from a-bromo-p-toluic acid in two steps was used to anchor amino functions (Scheme 23) [62]. Cleavage was accomplished by oxidation of the thioether to the sulfone with m-chloroperbenzoic acid followed by 13-elimination with a 10% solution of NH4OH in 2,2,2-trifluoroethanol. A linker based on l-(4,4 -dimethyl-2,6-dioxocyclohexylidene)ethyl (Dde) primary amine protecting group was developed for attaching amino functions (Scheme 24) [65]. Linker 54 was stable to both acidic and basic conditions and the final products were cleaved from the resin by treatment with hydrazine or transamination with ra-propylamine. 

Brown DS, Revill JM, Shute RE. Merrifield Alpha-Methoxyphenyl (MAMP) Resin A new versatile solid support for the synthesis of secondary amides. Tetrahedron Lett 1998 39 8533-8536. 

Such biosyntheses were models for the Merrifield-synthesis [8] (Fig. 3), which culminated in the development of fully automated peptide synthesizers [9]. In a repeated reaction cycle a N-terminal protected amino acid, which is attached with its C-terminal end to an insoluble solid support, is deprotected, activated and lengthened by a second protected amino acid unit. The deprotect -ing and coupling steps can be repeated until the entire peptide is assembled. 

One of the key technologies used in combinatorial chemistry is solid-phase organic synthesis (SPOS) [2], originally developed by Merrifield in 1963 for the synthesis of peptides [3]. In SPOS, a molecule (scaffold) is attached to a solid support, for example a polymer resin (Fig. 7.1). In general, resins are insoluble base polymers with a linker molecule attached. Often, spacers are included to reduce steric hindrance by the bulk of the resin. Linkers, on the other hand, are functional moieties, which allow the attachment and cleavage of scaffolds under controlled conditions. Subsequent chemistry is then carried out on the molecule attached to the support until, at the end of the often multistep synthesis, the desired molecule is released from the support. 

In a more recent study, Westman and Lundin have described solid-phase syntheses of aminopropenones and aminopropenoates en route to heterocycles [32], Two different three-step methods for the preparation of these heterocycles were developed. The first method involved the formation of the respective ester from N-pro-tected glycine derivatives and Merrifield resin (Scheme 7.12 a), while the second method involved the use of aqueous methylamine solution for functionalization of the solid support (Scheme 7.12 b). The desired heterocycles were obtained by treatment of the generated polymer-bound benzylamine with the requisite acetophenones under similar conditions to those shown in Scheme 7.12 a, utilizing 5 equivalents of N,N-dimethylformamide diethyl acetal (DMFDEA) as reagent. The final... 

Bis(indolyl)nitroethanes are obtained readily in 7-10 min in high yields (70-86%) on fine TLC-grade silica gel (5-40 pm) by Michael reaction of 3-(2 -nitrovinyl) indole with indoles. The same reaction reported requires 8-14 h for completion at room temperature [77]. Several functionalized resins have been prepared from Merrifield resin via a MW-assisted procedure that utilized mixed solvent system to facilitate the swelling of resins and coupling with microwaves [78], These resins can function as solid supports or polymeric scavengers in solid phase synthesis. 

In addition to the aforementioned microwave-assisted reactions on solid supports, several publications also describe microwave-assisted resin cleavage. In this context it has been demonstrated that carboxylic acids could be cleaved from conventional Merrifield resin, using the standard TFA-DCM 1 1 mixture, by exposure of the polymer-bound ester and the cleavage reagent to microwave irradiation in a dedicated Teflon autoclave (multimode instrument). After 30 min at 120 °C, complete recovery of the carboxylic acid was achieved (Scheme 12.9) [26]. At room temperature, however, virtually no cleavage was detected after 2 h in 1 1 TFA-DCM. 

A Stille coupling of a bromopyridine on solid support was described by Snieckus group [101]. Merrifield resin 119 was esterified with 3-bromopyridine-5-carboxylic acid to afford ester 120. The Stille coupling of ester 120 on a solid support led to the expected hetero phenylpyridine 121, which was then cleaved via basic hydrolysis to produce 122. Snieckus work has the potential for application to combinatorial chemistry and high throughput screening. 

Even controlled-pore glass (CPG) could be successfully employed as solid support with (9-glycosyl trichloroacetimidates as glycosyl donors. Thus, limitations of solvents and reaction temperatures in the glycosylation step, as experienced with the Merrifield resin, are restricted to those observed in solution-phase synthesis. Therefore, regio- and stereocontrol of the glycosylation reactions should be available from well-established solution-phase methodologies. 

Merrifield resin (1 % crosslinked) was employed as the solid support. The problem of oligomerization was prevented by protection of the hydroxyl of 38 as a THP ether by treatment with 3,4-dihydro-2H-pyran (DHP) in the presence of pyridinium /7-toluenesulfonate (PPTS) to give 46. Immobilized 46 was successfully coupled with 24 to give disaccharide 47. The THP group of 47 was easily removed by treatment with acetic acid/water to yield 45. 

FIGURE 5.2 Synthesis of a peptide on a solid support according to Merrifield in 1964. PS = polystyrene. Initially, the protector was benzyloxycarbonyl, removed by HBr in CHjCOjH, followed by final deprotection with the same reagent at 78°C. The current protocol employs CF3C02H and HF, respectively. 

The solid-phase synthesis of dendritic polyamides was explored by Frechet et al. [49]. Inspired by the technique used by Merrifield for peptide synthesis, the same strategy was used to build hyperbranched polyamides onto a polymeric support. The idea was to ensure the preservation of the focal point and to ease the purification between successive steps. The resulting polymers were cleaved from the solid support, allowing ordinary polymer characterization. The reaction was found to be extremely sluggish beyond the fourth generation. 

The Merrifield method has a number of attractive characteristics beyond the simple steps outlined here. For example, because the product molecule (such as the monomer, dimer, or trimer) is attached to a solid support, a chemist can apply other operations to the system without fear of losing that product. The reaction system can be washed at almost any point. This property is very useful, for example, because it allows the chemist to remove excess reactant or undesired by-products of the reaction. 

The ruthenium catalysts have also been attached to various solid supports, including nolyethy-leneglycol (PEG), " mesoporous molecular sieves, " and Merrifield s peptide resin. " ... 

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