Biology Reference
In-Depth Information
fluids.
J Chromatogr B Analyt Technol Biomed Life Sci
2008;
871
(2):202
e
11.
5. Kitson FG, Larsen BS, McEwen CN. Chapter 1
d
What
Is GC/MS?
Gas Chromatography and Mass Spectrometry
.
San Diego: Academic Press; 1996. p. 3
e
23.
6. Sparkman OD, Penton ZE, Kitson FG.
Chapter 2dGas
Chromatography. Gas Chromatography and Mass Spec-
trometry: A Practical Guide
. 2nd ed. Amsterdam:
Academic Press; 2011. p. 15
e
83.
7. Fancy S-A, Rumpel K. GC-MS-Based Metabolomics,
Biomarker Methods in Drug Discovery and Development
.
Totowa: Humana Press; 2008. p. 317
e
40.
8. Garcia A, Barbas C. Gas Chromatography-Mass Spec-
trometry
20. Chan ECY, Pasikanti KK, Nicholson JK. Global urinary
metabolic pro
lingproceduresusinggaschromatography-
mass spectrometry.
Nat Protoc
2011;
6
(10):1483
e
99.
21. Xu F, Zou L, Ong CN. Experiment-originated variations,
and multi-peak and multi-origination phenomena in
derivatization-based GC-MS metabolomics.
Trend Anal
Chem
2010;
29
(3):269
e
80.
22.
Issaq HJ, Van QN, Waybright TJ, Muschik GM,
Veenstra TD. Analytical and statistical approaches
to metabolomics
research.
J Sep Sci
2009;
32
(13):
2183
e
99.
23. Kaal E, Janssen HG. Extending the molecular applica-
tion range of gas chromatography.
J Chromatog A
2008;
1184
(1-2):43
e
60.
24. Halket JM, Waterman D, Przyborowska AM, Patel RK,
Fraser PD, Bramley PM. Chemical derivatization and
mass spectral libraries in metabolic pro
(GC-MS)-Based Metabolomics,
Metabolic
ling: Methods and Protocols
. Totowa: Humana Press;
2011. p. 191
e
204.
9. Lenz EM, Wilson ID. Analytical strategies in metabo-
nomics.
J Proteome Res
2007;
6
(2):443
e
58.
10. Issaq HJ, Abbott E, Veenstra TD. Utility of separation
science in metabolomic studies.
J Sep Sci
2008;
31
(11):
1936
e
47.
11. Li X, Legido-Quigley C. Advances in separation science
applied to metabonomics.
Electrophoresis
2008;
29
(18):
3724
e
36.
12. Quinones MP, Kaddurah-Daouk R. Metabolomics tools
for identifying biomarkers for neuropsychiatric
diseases.
Neurobiol Dis
2009;
35
(2):165
e
76.
13. Lao YM, Jiang JG, Yan L. Application of metabonomic
analytical techniques in the modernization and toxi-
cology research of traditional Chinese medicine.
Brit J
Pharmacol
2009;
157
(7):1128
e
41.
14. Dunn WB, Bailey NJ, Johnson HE. Measuring the metab-
olome: current analytical
Pro
ling by GC/
MS and LC/MS/MS.
J Exp Bot
2005;
56
(410):219
e
43.
25. Sparkman OD, Penton ZE, Kitson FG.
Appendix
GdDerivatization in GC/MS. Gas Chromatography and
Mass Spectrometry: A Practical Guide
. 2nd ed. Amster-
dam: Academic Press; 2011. p. 445
e
58.
26. Lei Z, Huhman DV, Sumner LW. Mass spectrometry
strategies in metabolomics.
J Biol Chem
2011;
286
(29):
25435
e
42.
27. Wishart DS. Computational Approaches toMetabolomics,
Bioinformatics Methods in Clinical Research
. New York:
Humana Press; 2009. p. 283
e
313.
28. Enot DP, Haas B, Weinberger KM. Bioinformatics for
Mass Spectrometry-Based Metabolomics,
Bioinformatics
for Omics Data: Methods and Protocols
. New York:
Humana Press; 2011. p. 351
e
75.
29. SIMCA-P
technologies.
Analyst
2005;
, version 11.0. User guide and tutorial.
Umetrics AB, Umea, Sweden.
30. Koulman A, Lane GA, Harrison SJ, Volmer DA. From
differentiating metabolites to biomarkers.
Anal Bioanal
Chem
2009;
394
(3):663
e
70.
31. Beger R, Colatsky T. Metabolomics data and the
biomarker quali
รพ
130
(5):606
e
25.
15. Zhang A, Sun H, Wang P, Han Y, Wang X. Modern
analytical techniques in metabolomics analysis.
Analyst
2012;
137
(2):293
e
300.
16. Schnackenberg LK, Beger RD. The role of metabolic
biomarkers in drug toxicity studies.
Toxicol Mech Meth
2008;
18
(4):301
e
11.
17. Aa J, Shao F, Wang G, Huang Q, Zha W, Yan B, et al.
Gas chromatography time-of-
cation process.
Metabolomics
2012;
8
(1):
2
e
7.
32. Yoshida M, Hatano N, Nishiumi S, Irino Y, Izumi Y,
Takenawa T, et al. Diagnosis of gastroentero-
logical diseases by metabolome analysis using gas
chromatography-mass
ight mass spectrometry
based metabolomic approach to evaluating toxicity of
triptolide.
Metabolomics
2011;
7
(2):217
e
25.
18. Zheng X, Xie G, Zhao A, Zhao L, Yao C, Chiu NH, et al.
The footprints of gut microbial-mammalian co-metab-
olism.
J Proteome Res
2011;
10
(12):5512
e
22.
19. Dunn WB, Broadhurst D, Begley P, Zelena E, Francis-
Mcintyre S, Anderson N, et al. Procedures for large-
scale metabolic pro
spectrometry.
J Gastroenterol
2012;
47
(1):9
e
20.
33. Pasikanti KK, Esuvaranathan K, Ho PC, Mahendran R,
Kamaraj R, Wu QH, et al. Noninvasive urinary
metabonomic diagnosis of human bladder cancer.
J Proteome Res
2010;
9
(6):2988
e
95.
34. Pasikanti KK, Norasmara J, Cai S, Mahendran R,
Esuvaranathan K, Ho PC, et al. Metabolic footprinting
of tumorigenic and nontumorigenic uroepithelial
cells using two-dimensional gas
ling of serum and plasma using
gas chromatography and liquid chromatography
coupled to mass spectrometry.
Nat Protoc
2011;
6
(7):
1060
e
83.
chromatography
Search WWH ::
Custom Search