Solid-phase peptide synthesis derived supports

In preparing these various libraries, extensive use is made of solid phase synthetic methods. These methods are all derived from the solid phase peptide synthesis (SPPS) method developed by Merrifield in 1963. When performing a large number of syntheses, it is preferable to perform the synthetic steps on a solid bead rather than completing the entire synthesis in the solution phase. The solid-phase technique makes byproduct removal and final compound purification easier. The organic chemistry literature contains a wealth of different types of solid-phase supports and novel linkers for attaching the synthetic substrate to the bead. 

Activated A-alkoxycarbonyl amino acid derivatives, on the other hand, do not cyclize as readily as A -acyl amino acids, and therefore racemize more slowly. Accordingly, solid-phase peptide synthesis is generally performed by acylation of support-bound amines with activated A -alkoxycarbonyl amino acids. Examples of the preparation of peptides by the inverse strategy (first amino acid linked to the support via its amino group as carbamate activation of support-bound AAacylamino acids) have, nevertheless, been reported [13-16]. 

Transport peptides can be synthesized using either t-Boc or Fmoc solid phase peptide synthesis strategies with a synthesizer or manually. We routinely synthesize CPPs in a stepwise manner on solid support using an Applied Biosystems Model 431A peptide synthesizer. tert-Butyloxycarbonyl amino acids are coupled as 1-hydroxybenzotriazole (HOBt) esters to a p-methylbenzylhydryl-amine (MBHA) resin (65). C-terminally amidated CPPs are less prone to degradation and show higher internalization efficiency than carboxylic acid derivatives. 

Merrifield s original idea was based on the general scheme of stepwise condensation of N-protected amino acids to the first one, which is linked with its carboxyl function by an ester bond to the insoluble polymer support. This way of solid phase peptide synthesis resulted from the well-known risk of racemization during activation of peptidic carboxyl components, which is minimized in activated amino acid derivatives, N-acylated by urethane-type protecting groups [40] (Fig. 7). Depending on the chosen method, the C-terminal activation of N-protected peptides tends to racemize a certain amount of the material because of the possible formation of an oxazolinone intermediate [41] (Fig. 8). 

Our group has prepared a number of [Leu Enkephalin derivatives with organometallic compounds attached to the N terminus via amide bond formation. In addition to the ferrocenoyl derivative 27 and the related cobaltocenium derivative 28 [61], we have also published the synthesis and characterization of two molybdenum derivatives 29 and 30 (see Schemes 5.13 and 5.14) [62]. In all cases, the enkephalin was prepared by standard solid phase peptide synthesis (SPPS) techniques the by Fmoc strategy. For compounds 27-29, the metal complex was attached to the deprotected N terminus of the peptide as the final step on the solid support. Subsequent cleavage from the resin was achieved by cone. NHj solution in MeOH (27 and 29) or cone. TFA (28), respectively, in accordance with... 

Since the introduction of solid-phase peptide synthesis by Merrifield (1) nearly forty years ago, solid-phase techniques have been applied to the construction of a variety of biopolymers and extended into the field of small molecule synthesis. The last decade has seen the emergenee of solid-phase synthesis as the leading technique in the development and production of combinatorial libraries of diverse compounds of varying sizes and properties. Combinatorial libraries can be classified as biopolymer based (e.g., peptides, peptidomimetics, polyureas, and others [2,3]) or small moleeule based (e.g., heterocycles [4], natural product derivatives [5], and inorganie eomplexes [6,7]). Libraries synthesized by solid-phase techniques mainly use polystyrene-divinylbenzene (PS) derived solid supports. Owing to physieal and ehemical limitations of PS-derived resins, other resins have been developed (8,9). Most of these resins are prepared from PS by functionalizing the resin beads with oligomers to improve solvent compatibility and physical stability (8,9). 

Peptide synthesis requires the use of selective protecting groups. An N-protected amino acid with a free carboxyl group is coupled to an O-protected amino acid with a free amino group in the presence of dicydohexvlcarbodi-imide (DCC). Amide formation occurs, the protecting groups are removed, and the sequence is repeated. Amines are usually protected as their teit-butoxy-carbonyl (Boc) derivatives, and acids are protected as esters. This synthetic sequence is often carried out by the Merrifield solid-phase method, in which the peptide is esterified to an insoluble polymeric support. 

Polymer supported xanthene derivatives have been used in the solid phase synthesis of 1-aminophosphinic acids, RCH(NH2)PH(0)0H, <%TL1647> and of C-terminal peptide amides <96JOC6326>. Xanthene units also feature in crown ethers <96JCS(P2)2091>, calixarenes <96JOC5670> and in a flexible template for a P-sheet nucleator <96JOC7408>. 

In conclusion, the BAL method is a novel and general strategy for solid-phase synthesis of peptides and peptide derivatives, is compatible with a wide range of functionalized polymeric supports, and is readily generalizable to other nitrogen-containing molecules.9... 

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