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Relevant academic research and scientific papers

ASYMMETRIC NITROGEN-41 STEREOCHEMISTRY OF BICYCLIC 1,2-CIS-DIAZIRIDINES

The twisting of 5- and 6-membered rings in bicyclic cis-diaziridines-1,5-diazabicyclo(3.1.0)hexanes 12-17 and 1,6-diazabicyclo(4.1.0)heptane 18-is a rapid process in the time scale of 1H- and 13C-NMR even at -80 deg C.According to the 1H- and 13C-NMR spectra, 1,5-diazabicyclo(3.1.0)hexanes 12, 13, 15a,b and 16a, b do, exist mostly in the boat form; only the introduction of endo substituents into position 3 or 6 leads to the population of the chair, as is the case with 14 and 17. 2,4-Dialkyl substituted 1,5-diaza- and 1,3,5-triazabicyclo(3.1.0)hexanes are formed via a transition cyclization state similar in its geometry to the initial chair-shaped N-chlorodi(tri)azanes.

Enantioselective synthesis of cyclic and linear diamines by imine cycloadditions

Imine is one of the most versatile functional groups in chemistry and biochemistry fields. Although many biochemical reactions involve imine formation, the inherently unstable property of N-alkyl-α,β-unsaturated imines still hindered their utilization in organic synthesis. In this article, we described that the N-alkyl-α,β-unsaturated imines, which prepared from alkylamines and acrolein, could smoothly react through [4 + 4] cycloaddition to give eight-membered diazacyclooctane derivatives in excellent yields. Under a similar condition, in the presence of formaldehyde, the [4 + 2] and [4 + 2 + 2] cycloadditions could lead to the formation of six-membered hexahydropyrimidine or eight-membered triazacyclooctanes, depending on the substituent of aldehydes. Moreover, an easy functional group manipulation of the cyclic products obtained from these cycloadditions can provide variously substituted chiral linear diamines. We can utilize these novel reactivities to reveal the unknown and essential properties of many biological processes that involve N-alkyl-unsaturated imines.

Proline-catalyzed asymmetric synthesis of syn - And anti -1,3-diamines

A general organocatalytic strategy for asymmetric synthesis of both syn/anti-1,3-diamines has been developed. The strategy employs proline-catalyzed sequential α-amination and Horner-Wadsworth-Emmons (HWE) olefination of aldehydes as the key step where sy

Preparation, Characterization, Cytotoxicity, and Mutagenicity of a Pair of Enantiomeric Platinum(II) Complexes with the Potential to Bind Enantioselectively to DNA

The synthesis of a pair of enantiomeric Pt(II) complexes, and (eap = N,N-diethyl-2,4-pentanediamine), designed to bind enantioselectively to GpG and ApG sequences of DNA is described. The in vitro cytotoxicity of each of the enantiomers toward murine leukemia and human bladder tumor cells has been measured. The R,R enantiomer was found to be more active in the leukemia cells, but the difference was not as great as expected (IC50; R,R 14 μM, S,S 33 μM). In the bladder tumor cell line, no significant difference in activity was found. The two enantiomers had similar mutagenicity in the Salmonella reversion assay, but the R,R enantiomer was more cytotoxic in the bacterial cells. A structural analysis of the R,R enantiomer revealed that the ligand adopted an unexpected configuration, and a strain energy minimization analysis showed that this was a consequence of interactions between the diamine ligand and the dichloro ligands. The significance of the structural preferences with respect to the lower than expected enantiospecificity is discussed. Crystals of are monoclinic; space group, P212121; a = 7.909(5), b = 12.972(9), and c = 13.269(12) Angstroem; Z = 4; and the structure was refined to R = 0.025 (1657F).