How to cite this paper
Mirzaie, M., Barzegar, L., Behbehani, G & Saboury, A. (2012). Thermal investigation of Human Serum Albumin upon Interaction with Ytterbium (III).Current Chemistry Letters, 1(1), 35-40.
Refrences
. Krajewska B. (2008) Mono-(Ag, Hg) and di-(Cu, Hg) valent metal ions effects on the activity of jack bean urease. Probing the modes of metal binding to the enzyme. J. EnzyferemeInhibit. Med. Chem., 23, 535–542.
2. Krajewska B., and Ciurli S. (2005) Jack bean urease. Probing acid–base groups of the active site by pH variation. Plant Physiol Biochem., 43, 651–658.
3. Krajewska B., Zaborska W., and Chudy MJ. (2004) Multi-step analysis of Hg2+ ion inhibition of jack bean urease. J. Inorg. Biochem., 98, 1160–1168.
4. Bhowmick R., and Jagannadham MV. (2006) Multiple Intermediate Confor-mations of Jack Bean Urease at Low pH: Anion-induced Refolding. Protein J. 6, 399–410.
5. Zaborska W., Krajewska B., Kot M., and Karcz W. (2007) Quinone-induced inhibition of urease: Elucidation of its mechanisms by probing thiol groups of the enzyme. Bioorg. Chem., 35, 233–242.
6. Zaborska W., Krajewska B., and Olech Z. (2004) Heavy metal ions inhibition of Jack Bean urease: potential for rapid contaminant probing. J. Enzyme Inhibit. Med. Chem., 19, 65–69.
7. Font M., Dominguez MJ., Sanmartin C., Palop JA., San-Francisco S., Urrutia O., Houdusse F., and Garcia-Mina JM. (2008) Structural charac-teristics of phosphoramide derivatives as urease inhibitors. Requirements for activity. J. Agric. Food Chem., 56, 8451–8460.
8. Dong LH., Yang JSh., Yuan HL., Wang ET., and Chen WX. (2008) Chemical characteristics and influences of two fractions of Chinese lignite humic acids on urease. Eur. J. Soil Biol., 44, 166–171.
9. Todd MJ., and Hausinger RP. (1989) Competitive inhibitors of Klebsiella aerogenes urease. Mechanisms of interaction with the nickel active site. J. Biol. Chem., 27, 15835–15842.
10. Kot M., and Zaborska W. (2006) Inhibition of jack bean urease by tetra- chloro-o-benzoquinone and tetrachloro-p-benzoquinone. J. Enzyme Inhibit. Med. Chem., 21, 537–542.
11. Rezaei Behbehani G. (2009) A high performance method for thermo-dynamic study on the binding of copper ion and glycine with Alzheimer’s B amyliod peptide. J. Therm. Anal. Cal., 96, 631–635.
12. Rezaei Behbehani G., Divsalar A., Saboury AA., Faridbod F., and Ganjali MR. (2009) A high performance method for thermodynamic study on the binding of human serum albumin with erbium chloride. J. Therm. Anal. Cal., 96, 663–668.
13. Rezaei Behbehani G., Saboury AA., Fallah baghery A., and Abedini A. (2008) Application of an extended solvation theory to study on the binding of magnesium ion with myelin basic protein. J. Therm. Anal. Cal., 93, 479–483.
14. Rezaei Behbehani G., Divsalar A., Saboury AA., and Hekmat A. (2009) A thermodynamic study on the binding of PEG-stearic acid copolymer with lysozyme. J. Solution Chem., 38, 219–229.
15. Rezaei Behbehani G., Saboury AA., and Fallah baghery A. (2007) A ther- modynamic study on the binding of calcium ion with myelin basic protein. J. Solution Chem., 36, 1311–1320.
16. Rezaei Behbehani G., Saboury AA., and Taleshi E. (2008) A comparative study on direct calorimetric determination of denaturation enthalpy for lysozyme in sodium dodecyl sulfate and dodecyl- trimethylammonium bromide. J. Solution Chem., 37, 619–629.
17. Rezaei Behbehani G., and Saboury AA. (2007) A new method for thermo- dynamic study on the binding of magnesium with human growth hormone. J. Therm. Anal. Cal. 89, 852–861.
18. Rezaei Behbehani G., Saboury AA., and Taleshi E. (2008) Determination of partial unfolding enthalpy for lysozyme upon interaction with dodecyltrimethylammonium bromide using an extended solvation model. J. Mol. Recog., 21, 132–135.
19. Rezaei Behbehani G., Saboury AA., and Taleshi E. (2007) A direct calorimetric determination of denaturation enthalpy for lysozyme in sodium dodecyl sulfate. J. Colloids Surf. B., 61, 224–228.
20. Krajewska B. (2008) Mono- (Ag, Hg) and di- (Cu, Hg) valent metal ions effects on the activity of jack bean urease. Probing the modes of metal binding to the enzyme. J. Enzyme Inhibit. Med. Chem. 23, 535–542.
2. Krajewska B., and Ciurli S. (2005) Jack bean urease. Probing acid–base groups of the active site by pH variation. Plant Physiol Biochem., 43, 651–658.
3. Krajewska B., Zaborska W., and Chudy MJ. (2004) Multi-step analysis of Hg2+ ion inhibition of jack bean urease. J. Inorg. Biochem., 98, 1160–1168.
4. Bhowmick R., and Jagannadham MV. (2006) Multiple Intermediate Confor-mations of Jack Bean Urease at Low pH: Anion-induced Refolding. Protein J. 6, 399–410.
5. Zaborska W., Krajewska B., Kot M., and Karcz W. (2007) Quinone-induced inhibition of urease: Elucidation of its mechanisms by probing thiol groups of the enzyme. Bioorg. Chem., 35, 233–242.
6. Zaborska W., Krajewska B., and Olech Z. (2004) Heavy metal ions inhibition of Jack Bean urease: potential for rapid contaminant probing. J. Enzyme Inhibit. Med. Chem., 19, 65–69.
7. Font M., Dominguez MJ., Sanmartin C., Palop JA., San-Francisco S., Urrutia O., Houdusse F., and Garcia-Mina JM. (2008) Structural charac-teristics of phosphoramide derivatives as urease inhibitors. Requirements for activity. J. Agric. Food Chem., 56, 8451–8460.
8. Dong LH., Yang JSh., Yuan HL., Wang ET., and Chen WX. (2008) Chemical characteristics and influences of two fractions of Chinese lignite humic acids on urease. Eur. J. Soil Biol., 44, 166–171.
9. Todd MJ., and Hausinger RP. (1989) Competitive inhibitors of Klebsiella aerogenes urease. Mechanisms of interaction with the nickel active site. J. Biol. Chem., 27, 15835–15842.
10. Kot M., and Zaborska W. (2006) Inhibition of jack bean urease by tetra- chloro-o-benzoquinone and tetrachloro-p-benzoquinone. J. Enzyme Inhibit. Med. Chem., 21, 537–542.
11. Rezaei Behbehani G. (2009) A high performance method for thermo-dynamic study on the binding of copper ion and glycine with Alzheimer’s B amyliod peptide. J. Therm. Anal. Cal., 96, 631–635.
12. Rezaei Behbehani G., Divsalar A., Saboury AA., Faridbod F., and Ganjali MR. (2009) A high performance method for thermodynamic study on the binding of human serum albumin with erbium chloride. J. Therm. Anal. Cal., 96, 663–668.
13. Rezaei Behbehani G., Saboury AA., Fallah baghery A., and Abedini A. (2008) Application of an extended solvation theory to study on the binding of magnesium ion with myelin basic protein. J. Therm. Anal. Cal., 93, 479–483.
14. Rezaei Behbehani G., Divsalar A., Saboury AA., and Hekmat A. (2009) A thermodynamic study on the binding of PEG-stearic acid copolymer with lysozyme. J. Solution Chem., 38, 219–229.
15. Rezaei Behbehani G., Saboury AA., and Fallah baghery A. (2007) A ther- modynamic study on the binding of calcium ion with myelin basic protein. J. Solution Chem., 36, 1311–1320.
16. Rezaei Behbehani G., Saboury AA., and Taleshi E. (2008) A comparative study on direct calorimetric determination of denaturation enthalpy for lysozyme in sodium dodecyl sulfate and dodecyl- trimethylammonium bromide. J. Solution Chem., 37, 619–629.
17. Rezaei Behbehani G., and Saboury AA. (2007) A new method for thermo- dynamic study on the binding of magnesium with human growth hormone. J. Therm. Anal. Cal. 89, 852–861.
18. Rezaei Behbehani G., Saboury AA., and Taleshi E. (2008) Determination of partial unfolding enthalpy for lysozyme upon interaction with dodecyltrimethylammonium bromide using an extended solvation model. J. Mol. Recog., 21, 132–135.
19. Rezaei Behbehani G., Saboury AA., and Taleshi E. (2007) A direct calorimetric determination of denaturation enthalpy for lysozyme in sodium dodecyl sulfate. J. Colloids Surf. B., 61, 224–228.
20. Krajewska B. (2008) Mono- (Ag, Hg) and di- (Cu, Hg) valent metal ions effects on the activity of jack bean urease. Probing the modes of metal binding to the enzyme. J. Enzyme Inhibit. Med. Chem. 23, 535–542.