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Chemometric A spects of Sugar Profiles in Fruit Juices Using HPLC and GC

  • Published : 1997.07.20

Abstract

The objective of this work is to determine the sugar profiles in commercial fruit juices, and to obtain chemometric characteristics. Sugar compositions of fruit juices were determined by HPLC-RID and GC-FID via methoxymation and trimethylsilylation with BSTFA. The appearance of multiple peaks in GC analysis for carbohydrates was disadvantageous as described in earlier literatures. Fructose, glucose, and sucrose were major carbohydrates in most fruit juices. Glucose/fructose ratios obtained by GC were lower than those by HPLC. Orange juices are similar to pineapple juices in the sugar profiles. However, grape juices are characterized by its lower or no detectable sucrose content. In addition, it was also found that unsweeten juices contained considerable level of sucrose. Chemometric technique such as principal components analysis was applied to provide an overview of the distinguishability of fruit juices based on HPLC or GC data. Principal components plot showed that different fruit juices grouped into distinct cluster. Principal components analysis was very useful in fruit juices industry for many aspects such as pattern recognition, detection of adulterants, and quality evaluation.

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References

  1. J. Chromatogr v.254 Nikolov, Z. L.;Reilly, P. J.
  2. J. Food. Sci. v.52 Long, A. R.;Chism, G. W.
  3. J. Amer. Chem. Soc. v.85 Sweeley, C. C.;Bentley, R.;Makita, M.;Wells, W. W.
  4. J. Chromatogr v.105 Linden, J. C.;Lawhead, C. L.
  5. Carbohydrate Research v.215 Paskach, T. J.;Lieker, H. P.;Reilly, P. J.;Thielecke, K.
  6. J. Chromatogr. v.261 Baust, J. G.;Lee, R. E.;Rojas, R. R.;Hendrix, D. L.;Friday, D.;James, H.
  7. J. Food Sci. v.48 Li, B. W.;Schuhmann, P. J.
  8. J. Assoc. Off. Anal. Chem. v.53 Fitelson, J.
  9. J. Food Sci. v.44 Hurst, W. J.;Martin, R. A.;Zoumas, B. L.
  10. Food Chemistry v.44 Pilando, L. S.;Wrolstad, R. E.
  11. J. Assoc. Off. Anal. Chem. v.65 Wrostad, R. E.;Culbertson, J. D.;Cornwell, C. J.;Mattick, L. R.
  12. Anal. Chem. v.66 Higgins, M. K.;Bity, R. S.;Morgan, S. L.
  13. J. Agric. Food. Chem. v.14 Bicchi, C. P.;Binello, A. E.;Legovich, M. M.;Pellegrino, G. M.;Vanni, A. C.
  14. Methods of multivariate analysis Rencher, A. C.
  15. J. Korean Chem. Soc. v.38 Lee, D. S.;Park, H. S.;Kim, K.;Lee, T. S.;Noh, B. S.
  16. Idem, Korean J. Food Sci. Technol. v.26
  17. Korean J. Food Sci. Technol. v.26 Idem
  18. J. Korean Chem. Soc. v.41 Bae, S. Y.;Lee, D. S.
  19. J. Food Sci. v.56 Senter, S. D.;Chapman, G. W.;Forbus, W. R.;Payne, J. R.
  20. Chromatogr v.192 Zegota, H
  21. International (Supelco) Doughty, E.;Reid, T.
  22. Biochemistry of fruit and their products v.Ⅱ McGinnis, M. D.;Joslyn, M. A.;Nury, F. S.
  23. J. Assoc. Off. Anal. Chem. International v.77 Swallow, K. W.;Low, N. H.
  24. Anal. Biochem. v.43 Laine, R. A.;Sweeley, C. C.
  25. Adv. Carbohydr. Chem. Biochem. v.42 Angyal, S. J.
  26. Chromatographia v.23 Paez, M.;Martinez-Castro, I.;Sanz, J.;Olano, A.;Garcia-Raso, A.;Saura-Calixto, F.
  27. Handbook of derivatives for chromatography(2nd ed) Blau, K.;Halket, J.(Ed.)