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Comparative High-Performance Liquid Chromatographic
Analyses of Cholesterol and Its Oxidation Products Using
Diode-Array Ultraviolet and Laser Light-Scattering Detection,
S. Kermasha, S. Kubow, and M. Goetghebeur, Journal of
Chromatography A, 685, 229-235 (1994).
A Qualitative Method for Triglyceride Analysis by HPLC Using
an ELSD, W.S. Letter, Journal of Liquid Chromatography, 16(1),
225-239 (1993).
Fatty Acid Composition of Human Milk Triglyceride Species.
Possible Consequences for Optimal Structures of Infant
Formula Triglycerides, Cheil H. Winter, Edda B. Hoving, Frits
A.J. Muskier, Journal of Chromatography, 616,
9-24 (1993).
Analysis of Triglycerides in Oils and Fats by Liquid
Chromatography with Laser Light-Scattering Detector,
Andrzej Stolywho, Henri Colin, Georges Guiochon, Analytical
Chemistry, 57, 1342-1354 (1985).
Lipase G-Catalyzed Synthesis of Monoglycerides in Organic
Solvent and Analysis by HPLC, Casmir Akoh, Carolyn Cooper,
Chigozie Nwosu, Journal of the American Oil Chemists’ Society,
69(9), (March 1992).
Determination of the Positional Distribution of Fatty Acids in
Butter Fat Triacylglycerols, S. Kermasha, S. Kubow, M. Safari,
A. Reid, Journal of Chromatographic Science, 70, 169-173 (1993).
A New Variety of Low Linolenic Rapeseed Oil; Characteristics
and Room Odor Tests, A. Prevot, J.L. Perin, G. Laclaverie, P.H.
Auge, Coustille, J.L., Journal of the American Oil Chemists’
Society, 67(3), 161 (March 1990).
Analysis of Tocopherols and Phytosterols in Vegetable Oils
by HPLC with Evaporative Light Scattering Detection, K.
Warner, T.L. Mounts, Journal of the American Oil Chemists’
Society, 67(11), (November 1990).
Analysis of Dimer Acids Using HPLC and the Evaporative
Light Scattering Detector, Peter Bonnett, Lipid Technology, 96-
97 (July/August 1992).
Comparison of Detectors for Size Exclusion Chromatography
of Heavy Oil Related Samples, S. Coulombe, Journal of
Chromatographic Science, 26: 1-6 (1988).
LIPID APPLICATIONS
Estimation of Free Glycolipids in Wheat Flour by HPLC, J
.B.
Ohm, and O.K. Chung, Cereal Chemistry, 76(6), 873-876 (1999).
Fractionation of Soybean Phospholipids by High-
Performance Liquid Chromatography with an Evaporative
Light-Scattering Detector, Tong Wang, Earl G. Hammond,
James L. Cornette, and Walter R. Fehr, Journal of the American
Oil Chemists' Society, 76(11), 1313-1321 (1999).
Rapid Analysis of Oxidized Cholesterol Derivatives by High-
Performance Chromatography Combined with Diode-Array
Ultraviolet and Evaporative Laser Light-Scattering Detection,
Kyoichi Osada, Amir Ravandi, and Arns Kuksis, Journal of the
American Oil Chemists' Society, 76(7), 863-871 (1999).
Reversed-Phase Separations of Nitrogenous Phospholipids
on an Octadecanoyl Poly (Vinyl Alcohol) Phase, S.L. Abidi and
T.L. Mounts, Journal of Chromatography A, 773, 93-101 (1997).
Quantitative Analysis of Phosphatidylcholine Molecular
Species using HPLC and Light Scattering Detection, Jos
F.H.M. Brouwers, B.M. Gadella, L.M.G. van Golde, and A.G.M.
Tielens, Journal of Lipid Research, 39, 1-10 (1998).
Quantitative High-Performance Liquid Chromatography
Analysis of Plant Phospholipids and Glycolipids Using Light-
Scattering Detection, G.A. Picchioni, A.E. Watada, and B.D.
Whitaker, Lipids, 31(2), 217-221 (1996).
Separation of Synthetic Phosphatidylcholine Molecular
Species by High-Performance Liquid Chromatography on a
C
8
Column, J-T Lin, C.L. Woodruff, T.A. McKeon, and J.A.
Singleton, Journal of Chromatography A, 824, 169-174 (1998).
New Procedures for Rapid Screening of Leaf Lipid
Components from Arabidopsis, W.W. Christie, S. Gill, J.
Nordback, Y. Itabashi, S. Sanda, and A.R. Slabas, Phytochemical
Analysis, 9, 53-57 (1998).
Characterization of Rabbit Myocardial Phospholipase A
2
Activity Using Endogenous Phospholipid Substrates, O.
Vesterqvist, C.A. Sargent, G.J. Grover, B. M. Warrack, G.C.
DiDonato, and M.L. Ogletree, Analytical Biochemistry, 217, 210-
219 (1994).
Separation of Lipid Classes from Plant Tissues by High
Performance Liquid Chromatography on Chemically Bonded
Stationary Phases, W.W. Christie and R.A. Urwin, Journal of
High Resolution Chromatography, 18, 97-100 (1995).
Separation of Neutral Lipids by High-Performance Liquid
Chromatography: Quantification by Ultraviolet, Light
Scattering and Fluorescence Detection, E. J. Murphy, T. A.
Rosenberger, and Lloyd A. Horrocks, Journal of Chromatography
B, 685, 9-14 (1996).
A Rapid Method for Phospholipid Separation by HPLC Using
a Light-Scattering Detector, W.S. Letter, Journal of Liquid
Chromatography, 15(2), 253-266 (1992).
High Performance Liquid Chromatography of Lipids for the
Identification of Human Metabolic Disease, Thomas C.
Markello, Juanru Gu, and William A. Gahl, Analytic Biochemist,
198, 368-374 (1991).
Detection of HPLC Separation of Glycophospholipids: Part 1,
J.V. Amari, P.R. Brown, J.G. Turcotte, American Laboratory , 23-
29 (February 1992).
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