Skip to search formSkip to main content
You are currently offline. Some features of the site may not work correctly.

peptide chemical synthesis

Known as: protein chemical synthesis 
 
National Institutes of Health

Papers overview

Semantic Scholar uses AI to extract papers important to this topic.
2018
2018
Synthetic proteins are expected to go beyond the boundary of recombinant DNA expression systems by being flexibly installed with… Expand
2018
2018
Cysteine-based native chemical ligation (NCL) has been a very powerful approach for convergent synthesis of peptides and proteins… Expand
2018
2018
By facilitating formation of the acyl-enzyme intermediate, peptide thioesters can largely promote subtiligase-catalyzed ligation… Expand
2017
2017
Cysteine-mediated native chemical ligation is a powerful method for protein chemical synthesis. Herein, we report an… Expand
Highly Cited
2015
Highly Cited
2015
Fully unprotected peptide o-aminoanilides can be efficiently activated by NaNO2 in aqueous solution to furnish peptide thioesters… Expand
  • table 1
  • figure 1
  • figure 2
Highly Cited
2015
Highly Cited
2015
Successive peptide ligation using a one-pot method can improve the efficiency of protein chemical synthesis. Although one-pot… Expand
2014
2014
An efficient thiol-assisted one-pot synthesis of peptide/protein C-terminal thioacids was achieved by using peptide/protein… Expand
  • figure 1
  • figure 2
  • table 2
  • table 1
  • figure 3
2014
2014
Serine/Threonine ligation (STL) has emerged as an alternative tool for protein chemical synthesis, bioconjugations as well as… Expand
  • figure 1
  • table 1
  • figure 2
  • table 2
  • figure 3
Highly Cited
2013
Highly Cited
2013
The chemical synthesis of proteins provides synthetic chemists with an interesting challenge and supports biological research… Expand
  • figure 1
  • figure 2
  • figure 3
  • figure 4
  • figure 6
Highly Cited
2012
Highly Cited
2012
Protein chemical synthesis by native peptide ligation of unprotected peptide segments is an interesting complement and potential… Expand
  • figure 1
  • figure 2