Kausar, Naheed (1999) MULTIPLICITY OF CHIRALITY USING TRANSITION METAL COMPLEXES. PhD thesis, University of Karachi, Karachi.
One of the greatest challenges of modern day synthesis is the multiplication of chirality in the laboratory. In nature this is achieved through enzymatic processes and in laboratory syntheses the scalemic (synonymous with aracemic or nonracemic ) transition metal complexes used in substoichiometeric or catalytic amounts have served a templates in asymmetric reactions. We developed a new class of scalemic amino thiolatocopper (I) complexes for conjugate addition reactions. Conjugate addition of organocopper reagents to ÃÂÃÂÃÂÃÂ± ,ÃÂÃÂÃÂÃÂ²- unsaturated compounds is one of the most reliable carbon-carbon bond forming reaction. The importance of this reaction has prompted numerous searches for procedures and methods to effect the conjugate addition process with asymmetric induction. A new class of amino thiolatocopper (I) complexes is derived from derivatives of L-cysteine. It belongs to sulfur containing class of amino acid and is capable forming a large variety of derivatives. The following chiral ligands were synthesized starting L-cysteine. S- methyl L-cysteine 1; S,N,N-trimethyl L-cysteine 2; 2-dimethylamino-3methylthio propanol 3; 2-dimethylamino-3methylthyio methoxypropane 4; 2-dimethylamino-3-methylthio ethoxypropane 5; S-ethyl L-cysteine 6; N, N-dimethyl S-ethyl L-cysteine 7; 2-dimethylamino-3ethylthio propanol 8; 2-dimethylamino-3-ethylthio methoxypropane 9; 2-dimethylamino-3ethylthio ethoxypropane 10; N,N-dimethyl L-cysteine 11; 2-dimethylamino-3-thio propanol 12; 2-dimethylamino-3-thio methoxypropane 13 and 2-dimethylamino-3-thio ethoxypropane 14. The series of chiral ligands 1-14 have been examined as a non-transferable chiral ligand of Cu(I) complex during asymmetric conjugate addition reaction. Copper complex which is formed in situ efficiently transferred their chiral activity to ÃÂÃÂÃÂÃÂ± ,ÃÂÃÂÃÂÃÂ²- unsaturated substrate. 2-Cyclohexenone, methyl crotonate or methyl cinnamate used as prochiral substrate and transferable moiety of the complexes were butyl, pentyl or vinyl. The different of induction depends on many factors such as solvent, added salts, stoichiometry of reagents, presence of salts or additives temperature, addition method, quality of reagents etc. a few factor are investigated for improvements of optical yields of products. Thiourea is the standard inhibitor of urease, which covalently modifies cysteine residues of the urease. We supposed that our synthesized derivatives also act as inhibitors. Therefore the compounds 1-14 were primarily screened for inhibition of urease. Almost all compounds, which were tested, showed good results against urease from Bacillus pasteurii. The same concentration of compounds 1-3, 6-8, 11 and 12 were used for inhibition of protease. Only 11 and 12 were found to be effective inhibitors against protease of trypsin and of papain.
|Item Type:||Thesis (PhD)|
|Uncontrolled Keywords:||chirality, metal complexes, stereo selectivity, asymmetric conjugate addition reactions, chiral ligands|
|Subjects:||Physical Sciences (f) > Chemistry(f2)|
|Deposited By:||Mr. Muhammad Asif|
|Deposited On:||27 Oct 2006|
|Last Modified:||04 Oct 2007 21:02|
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