5638-78-8Relevant articles and documents
Novel Pyrimidine-based Ferrocenyl substituted Organometallic Compounds: Synthesis, Characterization and Biological Evaluation
Parveen, Humaira,Alsharif, Meshari A.,Alahmdi, Mohammed I.,Mukhtar, Sayeed,Azam, Amir
, (2018)
Some novel pyrimidine-based ferrocenyl substituted organometallic compounds were synthesized via multistep reactions, well characterized by different spectroscopic techniques and elemental analyses and evaluated for in vitro antiprotozoal susceptibility against HM1: IMSS strain of Entamoeba histolytica. The results of antiprotozoal susceptibility unveiled these compounds, as new leads in protozoal chemotherapy as most of the organometallics displayed an exceptionally higher antiamoebic activity (IC50 = 0.055 μM - 0.815 μM) than the reference drug metronidazole which gave IC50 (50% inhibitory concentration) value 1.781 μM in our experiments, concluding that newly synthesized organometallic compounds have potential to be employed as effective antiamoebic agents and these organometallics can be very useful for further optimization work on amoebic chemotherapy.
“Doubly Orthogonal” Labeling of Peptides and Proteins
Tessier, Romain,Ceballos, Javier,Guidotti, Nora,Simonet-Davin, Raphael,Fierz, Beat,Waser, Jerome
supporting information, p. 2243 - 2263 (2019/08/08)
Herein, we report a cysteine bioconjugation methodology for the introduction of hypervalent iodine compounds onto biomolecules. Ethynylbenziodoxolones (EBXs) engage thiols in small organic molecules and cysteine-containing peptides and proteins in a fast and selective addition onto the alkynyl triple bond, resulting in stable vinylbenziodoxolone hypervalent iodine conjugates. The conjugation occurs at room temperature in an open flask under physiological conditions. The use of an azide-bearing EBX reagent enables a “doubly orthogonal” functionalization of the bioconjugate via strain-release-driven cycloaddition and Suzuki-Miyaura cross-coupling of the vinyl hypervalent iodine bond. We successfully applied the methodology on relevant and complex biomolecules, such as histone proteins. Through single-molecule experiments, we illustrated the potential of this doubly reactive bioconjugate by introducing a triplet-state quencher close to a fluorophore, which extended its lifetime by suppressing photobleaching. This work is therefore expected to find broad applications for peptide and protein functionalization. Understanding the molecular basis of life is essential in the search for new medicines. Chemical biology develops molecular tools for studying biological processes, setting the basis for new diagnostics and therapeutics, and relies heavily on the ability to selectively modify biomolecules. Two approaches have been especially fruitful: (1) selective modification of natural biomolecules and (2) selective reaction between non-natural functionalities in the presence of biomolecules (the so-called orthogonal bioconjugation). In our work, we contribute to both by transferring highly reactive hypervalent iodine reagents to cysteine residues in proteins and peptides. The obtained bioconjugates retain the reactive hypervalent bonds, which can be selectively functionalized via a metal-mediated reaction. Combined with a traditional azide tag, our approach allows a doubly orthogonal functionalization of biomolecules and is hence expected to be highly useful in chemical biology. Chemical biology develops molecular tools for studying biological processes, setting the basis for new diagnostics and therapeutics, and relies heavily on the ability to modify selectively biomolecules. In our work, we introduce hypervalent iodine bonds into peptides and proteins, via functionalization of cysteine, by using unique cyclic reagents developed in our group. The hypervalent bond can then be selectively modified in the presence of both natural and synthetic functional groups, opening new opportunities for applications in chemical biology.
Synthesis, antiplasmodial activity and mechanistic studies of pyrimidine-5-carbonitrile and quinoline hybrids
Kaur, Hardeep,Balzarini, Jan,De Kock, Carmen,Smith, Peter J.,Chibale, Kelly,Singh, Kamaljit
supporting information, p. 52 - 62 (2015/06/30)
Abstract A series of hybrids comprising of 5-cyanopyrimidine and quinoline moiety were synthesized and tested for in vitro antiplasmodial activity against NF54 and Dd2 strains of Plasmodium falciparum. Hybrid bearing m-nitrophenyl substituent at C-4 of py
