Facile synthesis of Boc-protected selenocystine and its compatibility with late-stage farnesylation at cysteine site.

Facile synthesis of Boc-protected selenocystine and its compatibility with late-stage farnesylation at cysteine site. Protein Pept Lett. 2020 Dec 22;: Authors: Zhu PC, Chen YX Abstract BACKGROUND: The unique hypervariable C-terminal region (HVR) of K-Ras4B, one of the most frequently mutated proteins in many powerful cancers, contains a C-terminal farnesylated and methylated Cys and a poly-lysine motif, which decides the association of K-Ras4B to the inner leaflet of plasma membrane for activating the downstream signaling activity. In our previous work, we inserted an additional Cys in K-Ras4B HVR peptide synthesis for NCL in the semisynthesis of K-Ras4b protein, but it is not suitable for application in protein dimerization research. The recently developed selenocysteine (Sec, U) mediated native chemical ligation reaction followed by selective deselenization, which can help to broaden the scope of protein synthesis, requires the generation of the peptide fragment with an N-terminal Sec. OBJECTIVE: To synthesize K-Ras4B HVR peptide containing both N-terminal Sec and C-terminal farnesylated and methylated Cys to achieve traceless protein semi-synthesis. METHODS AND RESULTS: We have developed a facile synthesis approach for producing Boc-Sec)2-OH using economic Se powder, which can facilitate scaling up preparation of peptides containing Sec at the N-terminus. Furthermore, we synthesized K-Ras4B HVR peptide containing s...
Source: Protein and Peptide Letters - Category: Biochemistry Authors: Tags: Protein Pept Lett Source Type: research