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Spectrofluorimetric Determination of Arsenic(III) Using Dansylated Peptide
Corresponding Author(s) : Nor Azah Yusof
Asian Journal of Chemistry,
Vol. 25 No. 8 (2013): Vol 25 Issue 8
Abstract
The potential of dansylated peptide in determination of arsenic(III) was investigated. Fluorescence intensity of dansyl-D-Ala-Gly-OH (DAG) was quenched during addition of arsenic(III) in aqueous solution. The fluorescence spectrum of DAG was measured at pH 12 with excitation and emission wavelengths of 331 nm and 524 nm. Limit of detection of arsenic(III) by DAG is 0.15 μM. The presence of foreign ions at 1:1 molar ratio of arsenic(III)-interfering ions did not have significant effect on determination of arsenic(III). The developed detection method was also applied on analysis of electroplating waste samples.
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- T. Batjargal, E. Otgonjargal, K. Baek and J. Yang, J. Hazard. Mater., 184, 872 (2010).
- H. Li, L. Cai, J. Li, Y. Hu, P. Zhou and J. Zhang, Dyes Pigments, 91, 309 (2011).
- A. Miklavcic, V. Stibilj, E. Heath, T. Polak, J.S. Tratnik, J. Klav•, D. Mazej and M. Horvat, Food Chem., 124, 711 (2011).
- M.J. McLaughlin, D.R. Parker and J.M. Clarke, Field Crops Res., 60, 143 (1999).
- M.J. DeMarco, A.K. SenGupta and J.E. Greenleaf, Water Res., 37, 164 (2003).
- C.-H. Selene, J. Chou and C.T. De Rosa, Int. J. Hyg. Environ. Health, 206, 381 (2003).
- T. Osborne, H. Jamieson, K. Hudson-Edwards, D.K. Nordstrom, S. Walker, S. Ward and J. Santini, BMC Microbiol., 10, 205 (2010).
- A. Jain, V.K. Sharma and O.S. Mbuya, J. Hazard. Mater., 169, 339 (2009).
- C.K. Jain and I. Ali, Water Res., 34, 4304 (2000).
- D.E. Mays and A. Hussam, Anal. Chim. Acta, 646, 6 (2009).
- R.G. Robins, T. Nishimura and P. Singh, Removal of Arsenic from Drinking Water by Precipitation, Adsorption or Cementation. In eds.: M.F. Ahmed, M.A. Ali and Z. Adeel. Technologies for Arsenic Removal from Drinking Water. Tokyo; Dhaka: The United Nations University; Bangladesh University of Engineering and Technology; pp. 31–42 (2001); Available: http://www.unu.edu/env/Arsenic/Robins.pdf.
- M.R.A. Manap, N.A. Yusof, S.M.M. Nor and F.B.H. Ahmad, Orient. J. Chem., 26, 23 (2010).
- K.J. Parker, S. Kumar, D.A. Pearce and A.J. Sutherland, Tetrahedron Lett., 46, 7043 (2005).
- S. Deo and H.A. Godwin, J. Am. Chem. Soc., 122, 174 (2000).
- Y. Zheng, Q. Huo, P. Kele, F.M. Andreopoulos, S.M. Pham and R.M. Leblanc, Org. Lett., 3, 3277 (2001).
- Y. Zheng, K.M. Gattás-Asfura, V. Konka and R.M. Leblanc, Chem. Commun., 2350 (2002).
- R.J. Clarke and A. Oprysa, J. Chem. Educ., 81, 705 (2004).
- G.C. McAlister, S.E.B. Kiessel and J.J. Coon, Int. J. Mass Spectrom., 276, 149 (2008).
- B.P. Joshi and K. Lee, Bioorg. Med. Chem., 16, 8501 (2008).
- Y. Zheng, X. Cao, J. Orbulescu, V. Konka, F.M. Andreopoulos, S.M. Pham and R.M. Leblanc, Anal. Chem., 75, 1706 (2003).
- S.B. Adeloju, T.M. Young, D. Jagner and G.E. Batley, Anal. Chim. Acta, 381, 207 (1999).
References
T. Batjargal, E. Otgonjargal, K. Baek and J. Yang, J. Hazard. Mater., 184, 872 (2010).
H. Li, L. Cai, J. Li, Y. Hu, P. Zhou and J. Zhang, Dyes Pigments, 91, 309 (2011).
A. Miklavcic, V. Stibilj, E. Heath, T. Polak, J.S. Tratnik, J. Klav•, D. Mazej and M. Horvat, Food Chem., 124, 711 (2011).
M.J. McLaughlin, D.R. Parker and J.M. Clarke, Field Crops Res., 60, 143 (1999).
M.J. DeMarco, A.K. SenGupta and J.E. Greenleaf, Water Res., 37, 164 (2003).
C.-H. Selene, J. Chou and C.T. De Rosa, Int. J. Hyg. Environ. Health, 206, 381 (2003).
T. Osborne, H. Jamieson, K. Hudson-Edwards, D.K. Nordstrom, S. Walker, S. Ward and J. Santini, BMC Microbiol., 10, 205 (2010).
A. Jain, V.K. Sharma and O.S. Mbuya, J. Hazard. Mater., 169, 339 (2009).
C.K. Jain and I. Ali, Water Res., 34, 4304 (2000).
D.E. Mays and A. Hussam, Anal. Chim. Acta, 646, 6 (2009).
R.G. Robins, T. Nishimura and P. Singh, Removal of Arsenic from Drinking Water by Precipitation, Adsorption or Cementation. In eds.: M.F. Ahmed, M.A. Ali and Z. Adeel. Technologies for Arsenic Removal from Drinking Water. Tokyo; Dhaka: The United Nations University; Bangladesh University of Engineering and Technology; pp. 31–42 (2001); Available: http://www.unu.edu/env/Arsenic/Robins.pdf.
M.R.A. Manap, N.A. Yusof, S.M.M. Nor and F.B.H. Ahmad, Orient. J. Chem., 26, 23 (2010).
K.J. Parker, S. Kumar, D.A. Pearce and A.J. Sutherland, Tetrahedron Lett., 46, 7043 (2005).
S. Deo and H.A. Godwin, J. Am. Chem. Soc., 122, 174 (2000).
Y. Zheng, Q. Huo, P. Kele, F.M. Andreopoulos, S.M. Pham and R.M. Leblanc, Org. Lett., 3, 3277 (2001).
Y. Zheng, K.M. Gattás-Asfura, V. Konka and R.M. Leblanc, Chem. Commun., 2350 (2002).
R.J. Clarke and A. Oprysa, J. Chem. Educ., 81, 705 (2004).
G.C. McAlister, S.E.B. Kiessel and J.J. Coon, Int. J. Mass Spectrom., 276, 149 (2008).
B.P. Joshi and K. Lee, Bioorg. Med. Chem., 16, 8501 (2008).
Y. Zheng, X. Cao, J. Orbulescu, V. Konka, F.M. Andreopoulos, S.M. Pham and R.M. Leblanc, Anal. Chem., 75, 1706 (2003).
S.B. Adeloju, T.M. Young, D. Jagner and G.E. Batley, Anal. Chim. Acta, 381, 207 (1999).