View PDF Version
 
DOI: 10.1039/A804384A (Paper) Reference Section for: Analyst, 1998, 123, 2291-2295

Non-aqueous enzymatic flow injection determination of cholestanol in sediments

(Note: The full text of this document is currently only available in the PDF Version )

Gerardo Piñeiro-Avila, Amparo Salvador and Miguel de la Guardia

Abstract

A procedure was developed for the spectrophotometric determination of cholestanol in sediments based on its extraction with chloroform–methanol (2 + 1 v/v), dissolution of the extracts, after preconcentration, in pH 7.0 buffer-saturated toluene containing 10–3Mp-anisidine and enzymatic determination in non-aqueous media using a bienzymic reactor consisting of 1 mg of cholesterol oxidase and 1 mg of horseradish peroxidase non-covalently co-immobilized on controlled pore glass beads. A limit of detection of 2.0 × 10–6M was obtained under the optimum experimental conditions and recoveries of 95–118% were obtained in the analysis of water and beach sediment samples spiked with cholestanol at concentration levels of 0.4–1.0 mg g–1. This method can also be employed for the determination of cholesterol in sediment extracts, the analytical sensitivity for cholestanol being half that for cholesterol, and studies were carried out in order to determine accurately both compounds in the same sample.

References

  1. G. A. McFeters, J. S. Kippin and M. W. Le Chevallier, Appl. Environ. Microbiol., 1986, 51, 1 CAS.
  2. P. D. Nichols, R. Leeming, M. S. Rayner, V. Latham, N. J. Ashbolt and C. Turner, J. Chromatogr., 1993, 643, 189 CrossRef CAS.
  3. R. W. Walker, C. K. Wun and W. Litsky, Crit. Rev. Environ. Control, 1982, 12, 91 Search PubMed.
  4. W. L. Jeng and B. C. Han, Estuarine Coastal Shelf Sci., 1996, 42, 727 Search PubMed.
  5. G. P. Hoskin and R. Blander, J. Assoc. Off. Anal. Chem., 1987, 70, 496 Search PubMed.
  6. Y. Miyabara, N. Sugaya, J. Suzuki and S. Suzuki, Bull. Environ. Contam. Toxicol., 1994, 53, 77 CAS.
  7. P. D. Nichols, R. Leeming, M. S. Rayner and V. Latham, J. Chromatogr. A., 1996, 733, 497 CrossRef CAS.
  8. M. M. Krahn, C. A. Wigren, L. K. Moore and D. W. Brown, J. Chromatogr., 1989, 481, 263 CrossRef CAS.
  9. G. Thomelin, L. Bodineau and M. Wartel, Mar. Chem., 1997, 58, 59 CrossRef.
  10. M. M. Elhmmali, D. J. Roberts and R. P. Evershed, Environ. Sci. Technol., 1997, 31, 3663 CrossRef CAS.
  11. J. O. Grimalt, P. Fernández, J. M. Bayona and J. Albaigés, Environ. Sci. Technol., 1990, 24, 357 CAS.
  12. G. Piñeiro-Avila, A. Salvador and M. de la Guardia, Analyst, 1997, 122, 1543 RSC.
  13. M. de la Guardia, A. E. Morales-Rubio and J. A. Darós, Span. Pat. Appl., 1990, 90 02666 Search PubMed.
  14. R. Z. Kazandjian, J. S. Dordick and A. M. Klibanov, Biotechnol. Bioeng., 1986, 28, 417 CAS.
  15. L. Braco, J. A. Darós and M. de la Guardia, Anal. Chem., 1992, 64, 129 CrossRef.
  16. M. J. Valencia-González and M. E. Díaz-García, Anal. Chem., 1994, 66, 2726 CrossRef CAS.
  17. G. Piñeiro-Avila, A. Salvador and M. de la Guardia, Anal. Chim. Acta, 1998, 371, 297 CrossRef CAS.
  18. G. Piñeiro-Avila, A. Salvador and M. de la Guardia, Analyst, 1998, 123, 999 RSC.
  19. P. S. Masurekan and C. T. Goodhue, to Eastman Kodak, US Pat., 1978, 4 093 517 Search PubMed.
  20. F. H. Cheillan, E. LaFont, F. Termine, P. Fernández, P. Sauve and G. Lesgards, Biochim. Biophys. Acta, 1989, 999, 233 CAS.
  21. A. Zaks and A. M. Klibanov, J. Biol. Chem., 1988, 263, 3194 CAS.
  22. L. Braco, K. Dabulis and A. M. Klibanov, Proc. Natl. Acad. Sci. USA, 1990, 87, 274 CAS.
Click here to see how this site uses Cookies. View our privacy policy here.