Peptides removal from solid support

Solid phase peptide synthesis (Section 27 18) Method for peptide synthesis m which the C terminal ammo acid is co valently attached to an inert solid support and successive ammo acids are attached via peptide bond formation At the completion of the synthesis the polypeptide is removed from the support... 

Two approaches for solid-phase chemical ligation have been described. Canne et al. have developed an elegant system that utilizes an oxime forming ligation to attach the first peptide to the resin, a selectively cleavable ester link to remove the peptide from the resin as a C-terminal carboxylic acid, and the Acm group to protect the N-terminal cysteine residue)311 A complementary approach has been developed by Brik et al. that utilizes native chemical ligation to attach the first peptide to the solid support, a safety-catch acid labile linker to remove the final polypeptide from the support as a C-terminal amide and either Acm or Msc group for N-terminal cysteine protection)32 ... 

Partially protected peptide thioesters that are prepared from SPPS and purified by RP-HPLC can condense with other peptide segments to form highly homologous peptides which can comprise as many as 100 amino acid residues. 9 Syntheses of peptide thioesters using Boc-SPPS have been quite successful.161214 However, the preparation of thioesters by Fmoc chemistry is difficult because the piperidine used to remove the Fmoc group attacks the carbonyl moiety of the resin-bound thioester to release the peptide from solid support. However, peptide thioesters have been prepared by SPPS using Fmoc chemistry. 9 ... 

The method bears many similarities to the Merrifield solid-phase synthesis of peptides. A starter unit is attached to a solid support, nucleosides are attached one-by-one until the sequence is complete, whereupon the target oligonucleotide is removed from the support and purified. 

The aim of release and deprotection is to separate the peptide from the solid support as well as from the side-chain protecting groups. To avoid side reactions, the peptide should only be exposed to the cleavage mixture for the minimum time it takes to release and deprotect it. The peptide is then removed from the support by filtration and from the protecting groups by precipitation, centrifugation, and decantation. The methods described herein are for release of peptides assembled via Fmoc-based solid-phase peptide synthesis (Fmoc-SPPS). 

Fig. 1 Sequential formation of intra- and interchain disulfide bonds. (/) Cleavage of peptide from solid support using TFA. The S-fBu and S-Acm-protecting groups are not cleaved by TFA. (//) The first intra-A-chain disulfide bond is formed using DPDS. (Hi) The Cys (fBu) is deprotected and converted to Cys(Pys) using TFMSA in the presence of DPDS. (iv) The A-chain with Cys(Pys) is combined with Cys(SH) on the B-chain. (v) Simultaneous removal of S-Acm and formation of disulfide bond using iodine...

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 ... 

DCC is a waxy solid that is often difficult to remove from a bottle. Its vapors are extremely hazardous to inhalation and to the eyes. It should always be handled in a fume hood. The isourea by-product of a DCC-initiated reaction, dicyclohexyl urea (DCU) (Figure 3.5), is also water-insoluble and must be removed by organic solvent washing. For synthesis of peptides or affinity supports on insoluble matrices this is not a problem, because washing of the support material can be done without disturbing the conjugate coupled to the support. For solution phase chemistry, however, reaction products must be removed by solvent washings, precipitations, or recrystallizations. 

---