72468-46-3Relevant academic research and scientific papers
Distal Stereocontrol Using Guanidinylated Peptides as Multifunctional Ligands: Desymmetrization of Diarylmethanes via Ullman Cross-Coupling
Kim, Byoungmoo,Chinn, Alex J.,Fandrick, Daniel R.,Senanayake, Chris H.,Singer, Robert A.,Miller, Scott J.
supporting information, p. 7939 - 7945 (2016/07/07)
We report the development of a new class of guanidine-containing peptides as multifunctional ligands for transition-metal catalysis and its application in the remote desymmetrization of diarylmethanes via copper-catalyzed Ullman cross-coupling. Through design of these peptides, high levels of enantioinduction and good isolated yields were achieved in the long-range asymmetric cross-coupling (up to 93:7 er and 76% yield) between aryl bromides and malonates. Our mechanistic studies suggest that distal stereocontrol is achieved through a Cs-bridged interaction between the Lewis-basic C-terminal carboxylate of the peptides with the distal arene of the substrate.
Structure-based design, synthesis, and evaluation of peptide-mimetic SARS 3CL protease inhibitors
Akaji, Kenichi,Konno, Hiroyuki,Mitsui, Hironori,Teruya, Kenta,Shimamoto, Yasuhiro,Hattori, Yasunao,Ozaki, Takeshi,Kusunoki, Masami,Sanjoh, Akira
experimental part, p. 7962 - 7973 (2012/03/26)
The design and evaluation of low molecular weight peptide-based severe acute respiratory syndrome (SARS) chymotrypsin-like protease (3CL) protease inhibitors are described. A substrate-based peptide aldehyde was selected as a starting compound, and optimum side-chain structures were determined, based on a comparison of inhibitory activities with Michael type inhibitors. For the efficient screening of peptide aldehydes containing a specific C-terminal residue, a new approach employing thioacetal to aldehyde conversion mediated by N-bromosuccinimide was devised. Structural optimization was carried out based on X-ray crystallographic analyses of the R188I SARS 3CL protease in a complex with each inhibitor to provide a tetrapeptide aldehyde with an IC50 value of 98 nM. The resulting compound carried no substrate sequence, except for a P3 site directed toward the outside of the protease. X-ray crystallography provided insights into the protein-ligand interactions.
Synthesis and evaluation of keto-glutamine analogues as inhibitors of hepatitis A virus 3C proteinase.
Ramtohul, Yeeman K,James, Michael N G,Vederas, John C
, p. 3169 - 3178 (2007/10/03)
Hepatitis A virus (HAV) 3C enzyme is a picornaviral cysteine proteinase involved in the processing of the initially synthesized viral polyprotein and is therefore important for viral maturation and infectivity. Although it is a cysteine proteinase, this enzyme has a topology similar to those of the chymotrypsin-like serine proteinases. Since the enzyme recognizes peptide substrates with a glutamine residue at the P(1) site, a number of ketone-containing glutamine compounds analogous to nanomolar inhibitors of cathepsin K were synthesized and tested for inhibition against HAV 3C proteinase. In addition, a 3-azetidinone scaffold was incorporated into the glutamine fragment but gave only modest inhibition. However, introduction of a phthalhydrazido group alpha to the ketone moiety gave significantly better inhibitors with IC(50) values ranging from 13 to 164 microM, presumably due to the effect of intramolecular hydrogen bonding to the ketone. In addition, the tetrapeptide phthalhydrazide 24 was found to be a competitive reversible inhibitor (K(i) = 9 x 10(-6) M) and also showed no loss of inhibitory potency in the presence of dithiothreitol.
