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Fu-TalA Chen, Cheng-Ming Liu, You-Zun Hsieh, J. Sternberg (1991)
Capillary electrophoresis--a new clinical tool.Clinical chemistry, 37 1
Sharyn Armstrong, D. Leach, S. Wyllie (1992)
The use of HPLC protein profiles in fish species identificationFood Chemistry, 44
O. Lowry, N. Rosebrough, A. Farr, R. Randall (1951)
Protein measurement with the Folin phenol reagent.The Journal of biological chemistry, 193 1
Cheng-I. Wei, H. An, Jon Chen, M. Marshall (1990)
USE OF A MODIFIED UREA GEL ISOELECTRIC FOCUSING METHOD FOR SPECIES IDENTIFICATION OF RAW OR BOILED WHITE, PINK, AND ROCK SHRIMP1Journal of Food Biochemistry, 14
S. Swedberg (1990)
Characterization of protein behavior in high-performance capillary electrophoresis using a novel capillary system.Analytical biochemistry, 185 1
P. Grossman, J. Colburn, H. Lauer, R. Nielsen, R. Riggin, G. Sittampalam, E. Rickard (1989)
Application of free-solution capillary electrophoresis to the analytical scale separation of proteins and peptides.Analytical chemistry, 61 11
H. An, M. Marshall, W. Otwell, C.‐I. Wei (1989)
Species Identification of Raw and Boiled Shrimp by a Urea Gel Isoelectric Focusing TechniqueJournal of Food Science, 54
W. Ehmann, Steven Yates (1986)
Nuclear and radiochemical analysisAnalytical Chemistry, 62
Rehbein Rehbein (1990)
Identification of fish species by HPLC of water‐soluble proteinsInformationen fur die Fisehwirtschaf, 37
P. Righetti (1990)
Recent developments in electrophoretic methods.Journal of chromatography, 516 1
R. McCormick (1988)
Capillary zone electrophoretic separation of peptides and proteins using low pH buffers in modified silica capillaries.Analytical chemistry, 60 21
Kuhr Kuhr (1990)
Capillary electrophoresisAnal. Chem, 62
Fu-Tai Chen (1991)
Rapid protein analysis by capillary electrophoresisJournal of Chromatography A, 559
S. Ashoor, M. Knox (1985)
Identification of fish speceis by high-performance liquid chromatographyJournal of Chromatography A, 324
Krzynowek Krzynowek, Wiggin Wiggin (1981)
Generic identification of cooked and frozen crabmeat by thin layer polyacrylamide gel isoelectric focusing: collaborative studyJ.Assoc. Off. Anal. Chem, 64
Lundstrom Lundstrom (1979)
Fish species identification by thin layer isoelectric focusingJ.Assoc. Off. Anal. Chem, 62
H. An, C.‐I. Wei, J. Zhao, M. Marshall, C. Lee (1989)
Electrophoretic Identification of Fish Species Used in Surimi ProductsJournal of Food Science, 54
Learson Learson (1969)
Collaborative study of a rapid electrophoretic method for fish species identificationJ.Assoc. Off. Anal. Chem, 52
H. An, M. Marshall, W. Otwell, C.‐I. Wei (1988)
Electrophoretic Identification of Raw and Cooked Shrimp using Various Protein Extraction SystemsJournal of Food Science, 53
J. Green, J. Jorgenson (1989)
Minimizing adsorption of proteins on fused silica in capillary zone electrophoresis by the addition of alkali metal salts to the buffersJournal of Chromatography A, 478
Osman Osman, Ashoor Ashoor, Paul Paul (1987)
Liquid chromatographic identification of common fish speciesJ.Assoc. Off. Anal. Chem, 70
E. Leblanc, R. Leblanc (1989)
Separation of Cod (Gadus morhua) Fillet Proteins by Electrophoresis and HPLC after Various Frozen Storage TreatmentsJournal of Food Science, 54
J. Jorgenson, K. Lukacs (1981)
Zone electrophoresis in open-tubular glass capillariesAnalytical Chemistry, 53
Hamilton Hamilton (1982)
Fish species identification by thin layer agarose isoelectric focusing and densitometric scanningJ.Assoc. Off. Anal. Chem, 65
F. Chen, L. Kelly, R. Palmieri, R. Biehler, H. Schwartz (1992)
Use of High Ionic Strength Buffers for the Separation of Proteins and Peptides with Capillary ElectrophoresisJournal of Liquid Chromatography & Related Technologies, 15
H. Lauer, D. McManigill (1986)
Capillary zone electrophoresis of proteins in untreated fused silica tubingAnalytical Chemistry, 58
Lundstrom Lundstrom (1980)
Fish species identification by thin layer polyacrylamide gel isoelectric focusing: collaborative studyJ.Assoc. Off. Anal. Chem, 63
ABSTRACT A capillary zone electrophoresis (CZE) method for rapid separation of fish muscle sarcoplasmic proteins (SAJR) was developed using a highionic‐strength phosphate buffer and an untreated, fused silica capillary (20 μm i.d. X 20 cm). Changes in pH between 6.6‐7.5 resulted in differences in mobility, separation factors, and number of SAR moieties. An optimal SAR profile was obtained at pH 7.4. When used to monitor frozen storage changes in SAR from cod (Atlantic, Ling, Pacific) and pollock fillets, the procedure indicated both species differences and low‐and high‐ molecular‐weight frozen storage changes. CZE is an effective screening/quantification alternative to conventional electrophoresis and/ or HPLC because it is fast (<10 min), simple, sensitive, precise, and readily automated.
Journal of Food Science – Wiley
Published: Nov 1, 1994
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