![Peptide Bond Synthesis by a Mechanism Involving an Enzymatic Reaction and a Subsequent Chemical Reaction* - Journal of Biological Chemistry Peptide Bond Synthesis by a Mechanism Involving an Enzymatic Reaction and a Subsequent Chemical Reaction* - Journal of Biological Chemistry](https://els-jbs-prod-cdn.jbs.elsevierhealth.com/cms/attachment/bfd626c6-fbbd-4e61-8e12-95f29aaedd80/gr14.jpg)
Peptide Bond Synthesis by a Mechanism Involving an Enzymatic Reaction and a Subsequent Chemical Reaction* - Journal of Biological Chemistry
![Life | Free Full-Text | Small and Random Peptides: An Unexplored Reservoir of Potentially Functional Primitive Organocatalysts. The Case of Seryl-Histidine | HTML Life | Free Full-Text | Small and Random Peptides: An Unexplored Reservoir of Potentially Functional Primitive Organocatalysts. The Case of Seryl-Histidine | HTML](https://www.mdpi.com/life/life-07-00019/article_deploy/html/images/life-07-00019-g002-550.jpg)
Life | Free Full-Text | Small and Random Peptides: An Unexplored Reservoir of Potentially Functional Primitive Organocatalysts. The Case of Seryl-Histidine | HTML
![A simple and greener approach for the amide bond formation employing FeCl3 as a catalyst - New Journal of Chemistry (RSC Publishing) A simple and greener approach for the amide bond formation employing FeCl3 as a catalyst - New Journal of Chemistry (RSC Publishing)](https://pubs.rsc.org/image/article/2015/nj/c5nj01047k/c5nj01047k-f1_hi-res.gif)
A simple and greener approach for the amide bond formation employing FeCl3 as a catalyst - New Journal of Chemistry (RSC Publishing)
![The mechanism and structure-activity relationship of amide bond formation by silane derivatives: a computational study.,Organic & Biomolecular Chemistry - X-MOL The mechanism and structure-activity relationship of amide bond formation by silane derivatives: a computational study.,Organic & Biomolecular Chemistry - X-MOL](https://xpic.x-mol.com/20191024%2F10.1039_C9OB01605H.jpg)