Silicon-based hydrophobic tags applied in liquid-phase peptide synthesis: protected DRGN-1 and poly alanine chain synthesis.
An WuIsai RamakrishnaTomohiro HattoriHisashi YamamotoPublished in: Organic & biomolecular chemistry (2022)
Two new recyclable silicon-based hydrophobic tags were developed for installing them at the C-terminal of peptides to increase the solubility in organic solvents and the reactivity of the peptides during liquid-phase peptide synthesis (LPPS). They comprise a siloxy group containing tag and an arylsilyl group containing tag. The hydrophobicity of these tags is much greater than those of previously reported examples. The siloxy group containing tag is compatible with Fmoc-deprotection conditions (Fmoc-chemistry) and hydrogenation conditions (Cbz-chemistry), while the arylsilyl group containing one is resistant to Fmoc-deprotection conditions (Fmoc-chemistry) and Boc-deprotection conditions (Boc-chemistry). Using the siloxy group containing tag, protected DRGN-1, a peptide containing 14 amino acid residues was prepared successfully by using linear synthesis combined with one convergent synthesis step. Using the arylsilyl group containing tag, a poly alanine chain containing 7 alanine residues was synthesized. The arylsilyl group containing tag can also be installed at the N-terminal to elongate the peptides from the N-terminal to the C-terminal. The yields and the solubility of the products in organic solvents in each step were good to excellent with the assistance of these silicon-based tags.
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