How to cite this paper
Pedada, S & Gollapalli, N. (2023). Cationic surfactant influence on ternary complexes of CoII, NiII, CuII and ZnII ions with aspartic and citric acids.Current Chemistry Letters, 12(2), 297-304.
Refrences
1. Bregier-Jarzebowska R., and Lomozik L.(2009) Non covalent interactions and coordination reactions in the systems consisting of copper (II) ions aspartic acid and diamines. J .Inorg Biochem., 2103, 1228-1235.
2. Monda M.,Viggiano A., Sullo A., and De Luca V. (1998)Aspartic and glutamic acids increase in the frontal cortex during prostaglandin E1 hyperthermia. Neuro Sci., 83, 1239-1243.
3. Ikhsan J., Wells J.D. Johnson B., and Angove M.J. (2004)The effect of aspartic acid on the binding of transition metals to kaolinite. J. Colloid Interface Sci.,273, 6-13.
4. Aydin R., and Yirikogullari A.(2010) Potentiometric study on complexation of divalent transition metal ions with amino acids and adenosine5′-triphosphate. J. Chem. Eng. Data., 55, 4794-4800.
5. Bukietynska K., Podsiadl H., and Karwecka Z.(2003)Complexes of vanadium (III) with L-alanine and L-aspartic acid . J. Inorg. Biochem., 94, 317-325.
6. Bottari E. (1989) Copper (II) complexes with aspartate and glutamate. Polyhedron., 8, 1019-1027.
7. Phase R.P., Shankarwar A.G., Shankarwar S.G., and Chondhekar T.K. (2013) Determination of the stability constants of mixed ligand complexes of bio-molecules and amino acids with Ni(II) by potentiometric titration method. Der Pharm Chem., 4, 54-58.
8 Serbest K., Dural T., Kızıl D., Emirik M., Zengin A., and, Dinçer B.(2022)Ternary transition metal complexes with an azo-imine ligand and 2,2'-bipyridine: characterization, computational calculations, and acetylcholinesterase Inhibition activities. Acta Chim Slov., 69, 604-618.
9 Ashish B., Ravindra B., Chandarshekhar L.,Nilesh S., Kanchan T., and Anand A.(2022) Mononuclear pyrazine-2-carbohydrazone metal complexes: Synthesis, structural assessment, thermal, biological, and electrical conductivity studies. European Journal of Chemistry.,13, 126-134.
10. Martin R.B. (1989) Citrate binding of Al3+ and Fe3+ J. Inorg. Biochem., 28, 181-187.
11. Beinert H., Kennedy M.C.(1989) Engineering of protein bound iron-sulphur clusters. A tool for the study of protein and cluster chemistry and mechanism of iron-sulphur enzymes. Eur. J. Biochem., 186, 5-15.
12. Brynhildsen L., and Allard, B.(1994) Influence of metal complexation on the metabolism of citrate by klebsiella oxytoca. Biometals., 7, 163-169.
13. Krom B.P., Warner J.B., Konings W.N., and Lolkema, J.S.(2000) Complementary metal ion specificity of the metal-citrate transporters CitM and CitH of bacillus subtilis. J. Bacteriol.,182, 6374-6381.
14. Lippard S.J.(1994) Principles of bioinorganic chemistry. Mill Valley, CA:(University Science Books;
15. Bi J., Wu L., Li Z., Wang X., and Fu X. (2008) A citrate complex process to prepare nanocrystalline PbBi2Nb2O9 at a low temperature. Mater Lett., 62,155 -158.
16. Mesquita A.,Bernardi M.I.B., Maia L.J.Q., and Mastelaro V.R.(2007) Synthesis and characterization of Pb1−x La x TiO3 nanocrystalline powders. J. Therm. Anal. Calorim., 87, 747–51.
17. Delmon B. (2007) Preparation of heterogeneous catalysts. J. Therm. Anal. Calorim., 90, 49-65.
18. Fuentes R.O., and Baker R.T.(2009) Synthesis of nanocrystalline CeO2–ZrO2 solid solutions by a citrate complexation route:a thermo chemical and structural study. J. Phys. Chem.C,113, 914-924.
19. Sasikumar G., Aruimozhi S., Ashma A., Sudha S., and Askar ali J.( 2019)Mixed ligand ternary complexes of Co(II),Ni(II),Cu(II) and Zn(II) and their structural characterization, electrochemical, theoretical and biological studies. J. Mol. Struct .,108 ,1187 -1194.
20. Rawda M., Okasha Najla E., Shaikh Faizah AL., and Eman H. (2019) Design of novel oligomeric mixed ligand complexes: preparation, biological applications and the first example of their nanosized scale . Int. J. Mol. Sci., 20, 743-764.
21. Sujay M., Ishani M., Subhajit M.,Venkata Pera Reddy B., Goutam G.,Wolfgang L.,Sankar Moi, Ch.(2019) Speciation study of L-ascorbic acid and its chelated Cu(II) & Ni(II) complexes: an experimental and theoretical model of complex formation. S. Afr. J. Chem.,72, 229-236.
22. Sachan S. (2011) Study of stability constants of Fe(III), and Mn(II) With chloramphenicol by paper electrophoretic technique. Croat. Chem. Acta., 84, 461-464.
23. Singh P.P., and Kanaujia S.(2013) Interaction of cysteine and nitrilotriacetate with transition metal ions: a solution ionophoretic technique investigation. Chem. Sci. Trans., 2, 1028-1034.
24. Gran G. (1988) Equivalence volumes in potentiometric titrations. Anal .Chim. Acta., 206, 111-123.
25. Babu M.S., Rao G.N., Ramana K.V., and Rao M.S.P. (2001) Computer augmented speciation studies of cobalt(II),copper(II) and zinc(II) complexes of L-glutamic acid in water-urea mixtures. Indian J. Chem., 40, 1334-1338.
26. Rao, GN. (1989) Complex equilibria of some biologically important metal ions in aqua-organic media PhD Thesis, Andhra University, Visakhapatnam, India.
27. Gans P., Sabatini A., and Vacca A.(1976) An improved computer program for the computation of formation constants from potentiometric data. Inorg. Chim. Acta.,18, 237-239.
28. Rao G.N., and Rao R.S.(1992)Chemical speciation of ternary complexes of L-arginine and L-aspartic acid. J. Indian Council Chem., 8, 12-28.
29. Sailaja B.B.V., Kebede T., Rao G.N., and Rao M.S.P.(2002) Effect of surfactants on protonation equilibria of oxalic and malonic acids. J. Indian Chem. Soc., 79, 155-158.
30. Rao R.S., and Rao G.N. (2005) Computer Applications in Chemistry, (Himalaya Publishing House, Mumbai), India.
31. Rao G.N., and Murthy V.L.S.N. (2004) Effect of dielectric constant of medium on protonation equilibria of L glutamine and succinic acid. J. Indian Chem. Soc., 81, 424-426.
32. Bunton C.A., Cerichelli G., Ihara Y., and Supulveda L. (1979) Micellar catalysis and reactant incorporation in dephosphorylation and nucleophilic substitution. J. Am. Chem. Soc.,101, 2429-
2435.
33. Singh A.K., and Manjula D. A.(2001)Fluorescence study of 1-paminophenyl-4-phenylbuta-1E, 3E-diene in organic solvents,1,4-dioxane-water binary mixtures and micelles. J. Indian Chem. Soc., 71, 635 - 641.
34. Cordes E. H. (1978) Kinetics of organic reactions in micelles. Pure Appl. Chem., 50, 617 -625.
35. Griesser R., and Sigel H.(1978)Ternary complexes in solution VIII: complex formation between the copper(II) -2, 20-bipyridyl 1:1 complex and ligands containing oxygen and (or) nitrogen donor atoms. Inorg. Chem., 9, 1238-1243.
36. Martin R.B., and Prados R.(1974) Some factors influencing mixed complex formation. J. Inorg. Nucl.Chem. 36, 1665-1670.
37. Sigel H. (1967)Ternary complexes in solution. Chimia ., 21,489-500.
38. McCormick D.B., Sigel H., and Wright L. D.(1969)Structure of Mn2+ and Cu2+ complexes with l-methionine,S-methyl-1-cysteine,l-threonine and l-serine.Biochim. Biophys. Acta., 184, 318-328.
39. Sigel H. (1975)Ternary Cu2+ complexes stability structure and reactivity. Angew. Chem. Int. Ed. Engl., 14, 394 -402.
40. Sigel H., and Griesser R.(1967) Influence of 2,2'-bipyridyl on the stability of Cu2+ -glycine-1:1 complexes. Helv. Chim. Acta. , 50, 1842 -1845.
41. Sigel H., Prijs B., and Martin, R.B. (1981) Stability of binary and ternary β-alanine containing dipeptide copper (II) complexes. Inorg. Chim. Acta., 56, 45-49.
42 Srikanth B., Rao P.S., Rao V.S., Sastry C.K., and Rao G.N. (2009) Influence of cationic surfactant on protonation equilibria of some amino and carboxylic acids. Proc. Natl. Acad. Sci. India., 79, 335-341.
2. Monda M.,Viggiano A., Sullo A., and De Luca V. (1998)Aspartic and glutamic acids increase in the frontal cortex during prostaglandin E1 hyperthermia. Neuro Sci., 83, 1239-1243.
3. Ikhsan J., Wells J.D. Johnson B., and Angove M.J. (2004)The effect of aspartic acid on the binding of transition metals to kaolinite. J. Colloid Interface Sci.,273, 6-13.
4. Aydin R., and Yirikogullari A.(2010) Potentiometric study on complexation of divalent transition metal ions with amino acids and adenosine5′-triphosphate. J. Chem. Eng. Data., 55, 4794-4800.
5. Bukietynska K., Podsiadl H., and Karwecka Z.(2003)Complexes of vanadium (III) with L-alanine and L-aspartic acid . J. Inorg. Biochem., 94, 317-325.
6. Bottari E. (1989) Copper (II) complexes with aspartate and glutamate. Polyhedron., 8, 1019-1027.
7. Phase R.P., Shankarwar A.G., Shankarwar S.G., and Chondhekar T.K. (2013) Determination of the stability constants of mixed ligand complexes of bio-molecules and amino acids with Ni(II) by potentiometric titration method. Der Pharm Chem., 4, 54-58.
8 Serbest K., Dural T., Kızıl D., Emirik M., Zengin A., and, Dinçer B.(2022)Ternary transition metal complexes with an azo-imine ligand and 2,2'-bipyridine: characterization, computational calculations, and acetylcholinesterase Inhibition activities. Acta Chim Slov., 69, 604-618.
9 Ashish B., Ravindra B., Chandarshekhar L.,Nilesh S., Kanchan T., and Anand A.(2022) Mononuclear pyrazine-2-carbohydrazone metal complexes: Synthesis, structural assessment, thermal, biological, and electrical conductivity studies. European Journal of Chemistry.,13, 126-134.
10. Martin R.B. (1989) Citrate binding of Al3+ and Fe3+ J. Inorg. Biochem., 28, 181-187.
11. Beinert H., Kennedy M.C.(1989) Engineering of protein bound iron-sulphur clusters. A tool for the study of protein and cluster chemistry and mechanism of iron-sulphur enzymes. Eur. J. Biochem., 186, 5-15.
12. Brynhildsen L., and Allard, B.(1994) Influence of metal complexation on the metabolism of citrate by klebsiella oxytoca. Biometals., 7, 163-169.
13. Krom B.P., Warner J.B., Konings W.N., and Lolkema, J.S.(2000) Complementary metal ion specificity of the metal-citrate transporters CitM and CitH of bacillus subtilis. J. Bacteriol.,182, 6374-6381.
14. Lippard S.J.(1994) Principles of bioinorganic chemistry. Mill Valley, CA:(University Science Books;
15. Bi J., Wu L., Li Z., Wang X., and Fu X. (2008) A citrate complex process to prepare nanocrystalline PbBi2Nb2O9 at a low temperature. Mater Lett., 62,155 -158.
16. Mesquita A.,Bernardi M.I.B., Maia L.J.Q., and Mastelaro V.R.(2007) Synthesis and characterization of Pb1−x La x TiO3 nanocrystalline powders. J. Therm. Anal. Calorim., 87, 747–51.
17. Delmon B. (2007) Preparation of heterogeneous catalysts. J. Therm. Anal. Calorim., 90, 49-65.
18. Fuentes R.O., and Baker R.T.(2009) Synthesis of nanocrystalline CeO2–ZrO2 solid solutions by a citrate complexation route:a thermo chemical and structural study. J. Phys. Chem.C,113, 914-924.
19. Sasikumar G., Aruimozhi S., Ashma A., Sudha S., and Askar ali J.( 2019)Mixed ligand ternary complexes of Co(II),Ni(II),Cu(II) and Zn(II) and their structural characterization, electrochemical, theoretical and biological studies. J. Mol. Struct .,108 ,1187 -1194.
20. Rawda M., Okasha Najla E., Shaikh Faizah AL., and Eman H. (2019) Design of novel oligomeric mixed ligand complexes: preparation, biological applications and the first example of their nanosized scale . Int. J. Mol. Sci., 20, 743-764.
21. Sujay M., Ishani M., Subhajit M.,Venkata Pera Reddy B., Goutam G.,Wolfgang L.,Sankar Moi, Ch.(2019) Speciation study of L-ascorbic acid and its chelated Cu(II) & Ni(II) complexes: an experimental and theoretical model of complex formation. S. Afr. J. Chem.,72, 229-236.
22. Sachan S. (2011) Study of stability constants of Fe(III), and Mn(II) With chloramphenicol by paper electrophoretic technique. Croat. Chem. Acta., 84, 461-464.
23. Singh P.P., and Kanaujia S.(2013) Interaction of cysteine and nitrilotriacetate with transition metal ions: a solution ionophoretic technique investigation. Chem. Sci. Trans., 2, 1028-1034.
24. Gran G. (1988) Equivalence volumes in potentiometric titrations. Anal .Chim. Acta., 206, 111-123.
25. Babu M.S., Rao G.N., Ramana K.V., and Rao M.S.P. (2001) Computer augmented speciation studies of cobalt(II),copper(II) and zinc(II) complexes of L-glutamic acid in water-urea mixtures. Indian J. Chem., 40, 1334-1338.
26. Rao, GN. (1989) Complex equilibria of some biologically important metal ions in aqua-organic media PhD Thesis, Andhra University, Visakhapatnam, India.
27. Gans P., Sabatini A., and Vacca A.(1976) An improved computer program for the computation of formation constants from potentiometric data. Inorg. Chim. Acta.,18, 237-239.
28. Rao G.N., and Rao R.S.(1992)Chemical speciation of ternary complexes of L-arginine and L-aspartic acid. J. Indian Council Chem., 8, 12-28.
29. Sailaja B.B.V., Kebede T., Rao G.N., and Rao M.S.P.(2002) Effect of surfactants on protonation equilibria of oxalic and malonic acids. J. Indian Chem. Soc., 79, 155-158.
30. Rao R.S., and Rao G.N. (2005) Computer Applications in Chemistry, (Himalaya Publishing House, Mumbai), India.
31. Rao G.N., and Murthy V.L.S.N. (2004) Effect of dielectric constant of medium on protonation equilibria of L glutamine and succinic acid. J. Indian Chem. Soc., 81, 424-426.
32. Bunton C.A., Cerichelli G., Ihara Y., and Supulveda L. (1979) Micellar catalysis and reactant incorporation in dephosphorylation and nucleophilic substitution. J. Am. Chem. Soc.,101, 2429-
2435.
33. Singh A.K., and Manjula D. A.(2001)Fluorescence study of 1-paminophenyl-4-phenylbuta-1E, 3E-diene in organic solvents,1,4-dioxane-water binary mixtures and micelles. J. Indian Chem. Soc., 71, 635 - 641.
34. Cordes E. H. (1978) Kinetics of organic reactions in micelles. Pure Appl. Chem., 50, 617 -625.
35. Griesser R., and Sigel H.(1978)Ternary complexes in solution VIII: complex formation between the copper(II) -2, 20-bipyridyl 1:1 complex and ligands containing oxygen and (or) nitrogen donor atoms. Inorg. Chem., 9, 1238-1243.
36. Martin R.B., and Prados R.(1974) Some factors influencing mixed complex formation. J. Inorg. Nucl.Chem. 36, 1665-1670.
37. Sigel H. (1967)Ternary complexes in solution. Chimia ., 21,489-500.
38. McCormick D.B., Sigel H., and Wright L. D.(1969)Structure of Mn2+ and Cu2+ complexes with l-methionine,S-methyl-1-cysteine,l-threonine and l-serine.Biochim. Biophys. Acta., 184, 318-328.
39. Sigel H. (1975)Ternary Cu2+ complexes stability structure and reactivity. Angew. Chem. Int. Ed. Engl., 14, 394 -402.
40. Sigel H., and Griesser R.(1967) Influence of 2,2'-bipyridyl on the stability of Cu2+ -glycine-1:1 complexes. Helv. Chim. Acta. , 50, 1842 -1845.
41. Sigel H., Prijs B., and Martin, R.B. (1981) Stability of binary and ternary β-alanine containing dipeptide copper (II) complexes. Inorg. Chim. Acta., 56, 45-49.
42 Srikanth B., Rao P.S., Rao V.S., Sastry C.K., and Rao G.N. (2009) Influence of cationic surfactant on protonation equilibria of some amino and carboxylic acids. Proc. Natl. Acad. Sci. India., 79, 335-341.