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1 cid methyl ester analysis was carried out by gas liquid chromatography.
2 of cholesterol precursors were measured with gas-liquid chromatography.
3 ored and short chain fatty acids analysed by gas-liquid chromatography.
4 Serum fatty acids were analyzed by capillary gas-liquid chromatography.
5 in situ hybridization and for SCFAs by using gas-liquid chromatography.
6 s were measured by high-resolution capillary gas-liquid chromatography.
7    FAs in diets and blood were determined by gas-liquid chromatography.
8 lectrospray ionization mass spectrometry and gas-liquid chromatography.
9 er analyzed by thin-layer chromatography and gas-liquid chromatography.
10 base hydrolysis, methylated, and analyzed by gas-liquid chromatography.
11 ood cells, liver, and ROS were determined by gas-liquid chromatography.
12  methyl esters were prepared and analyzed by gas-liquid chromatography.
13  trimethylsilyl derivatives were analyzed by gas-liquid chromatography.
14 atography, were elucidated and quantified by gas-liquid chromatography.
15 dney and gonad and the tissue FA measured by gas-liquid chromatography.
16 ell (RBC) fatty acids were measured by using gas-liquid chromatography.
17  and C24:0) in plasma and erythrocytes using gas-liquid chromatography among 794 incident coronary he
18  authors measured serum fatty acid levels by gas-liquid chromatography and analyzed their association
19 ic compounds of cell walls were performed by gas-liquid chromatography and HPLC, respectively.
20  and examined their chemical structures with gas-liquid chromatography and mass spectrometry.
21 biochemical tests, probes (Gen-Probe, Inc.), gas-liquid chromatography, and, when necessary, PCR-rest
22 iliary bile acid composition was analyzed by gas-liquid chromatography before and after 4 months of t
23 entration (isotherm) effects on retention in gas-liquid chromatography, configurational-bias Monte Ca
24 y high-performance liquid chromatography and gas-liquid chromatography demonstrated the presence of t
25 f previously collected blood was analyzed by gas-liquid chromatography for 94 men in whom sudden deat
26   The CDC group IIc strains were analyzed by gas-liquid chromatography for their cellular fatty acid
27                     PUFAs were quantified by gas-liquid chromatography from plasma and adipose tissue
28 ed partition coefficient values derived from gas-liquid chromatography (GLC) are found to be consiste
29 lyzed by means of high-temperature capillary gas-liquid chromatography (GLC) in combination with low
30 gh pressure liquid chromatography (HPLC) and gas-liquid chromatography (GLC) in combination with mass
31 ), supercritical fluid chromatography (SFC), gas-liquid chromatography (GLC), and micellar electrokin
32 be especially useful as stationary phases in gas-liquid chromatography (GLC).
33 ic data, along with UV-vis spectroscopic and gas-liquid-chromatography (GLC) data, are consistent wit
34  at the gas-liquid interface on retention in gas-liquid chromatography has been controversial since t
35 ttock fatty acid composition was analyzed by gas-liquid chromatography in 1992 to 1993 and 2008.
36  and erythrocytes were measured by capillary gas-liquid chromatography in 306 US women aged 43-69 y.
37                 Fatty acids were assessed by gas-liquid chromatography in adipose tissue samples coll
38          Analysis of cellular fatty acids by gas-liquid chromatography indicated a close clustering o
39            When used as stationary phases in gas-liquid chromatography, ionic liquids exhibit dual na
40 of the dithioacetal followed by chiral-phase gas-liquid chromatography is also described.
41                             A unique type of gas-liquid chromatography is described in which both mob
42 d to detailed structural analyses, combining gas-liquid chromatography, mass spectrometry, and nuclea
43                                              Gas-liquid chromatography-mass spectrometry analysis of
44                                              Gas-liquid chromatography-mass spectrometry and nuclear
45                                              Gas-liquid chromatography-mass spectrometry and reverse
46 and the free fatty acid pool was measured by gas-liquid chromatography/mass spectrometry of the respe
47 , high-performance liquid chromatography, or gas-liquid chromatography) methods for identification of
48          The structures were corroborated by gas-liquid chromatography MS, matrix-assisted laser deso
49 omposition in serum, analyzed at baseline by gas-liquid chromatography (n = 1981), and single nucleot
50 pray ionization-tandem mass spectrometry and gas-liquid chromatography of the product generated in vi
51 cantly to the retentive behavior observed in gas-liquid chromatography on nonpolar capillary columns
52 ar magnetic resonance (NMR) spectroscopy and gas-liquid chromatography revealed two types of branched
53                                              Gas liquid chromatography shows that the fatty acid comp
54  The three-phase model may be applied to any gas-liquid chromatography stationary phase involving a p
55  the "three-phase" model in enantioselective gas-liquid chromatography utilizing a methylated cyclode
56                                        Using gas-liquid chromatography, we identified both cis ALA (m
57 ompositions of these strains, as analyzed by gas-liquid chromatography, were unique, characterized by
58 issue fatty acid composition was assessed by gas-liquid chromatography while 16S rRNA pyrosequencing
59 trospray ionization); and fatty acids (using gas-liquid chromatography with flame ionization detectio

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