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Biomedical chromatography : BMC, v.29 no.3, 2015년, pp.445 - 451
Todoroki, Kenichiro (Laboratory of Analytical and Bio‐) , Nakano, Tatsuki (Analytical Chemistry, School of Pharmaceutical Sciences, University of Shizuoka, 52‐) , Ishii, Yasuhiro (1 Yada, Suruga‐) , Goto, Kanoko (ku, Shizuoka, 422‐) , Tomita, Ryoko (8526, Japan) , Fujioka, Toshihiro (Laboratory of Analytical and Bio‐) , Min, Jun Zhe (Analytical Chemistry, School of Pharmaceutical Sciences, University of Shizuoka, 52‐) , Inoue, Koichi (1 Yada, Suruga‐) , Toyo'oka, Toshimasa (ku, Shizuoka, 422‐)
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AbstractA sensitive, versatile, and reproducible automatic analyzer for highly polar carboxylic acids based on a fluorescence derivatization–liquid chromatography (LC) method was developed. In this method, carboxylic acids were automatically and fluorescently derivatized with 4‐(N,N̴...
Bylund D , Norström SH , Essén SA and Lundström US . Analysis of low molecular mass organic acids in natural waters by ion exclusion chromatography tandem mass spectrometry . Journal of Chromatography A 2007 ; 1176 : 89 – 93 .
Davis CR , Wibowo D , Eschenbruch R , Lee TH and Fleet GH . Practical implications of malolactic fermentation: a review . American Journal of Enology and Viticulture 1985 ; 36 : 290 – 301 .
Esteves VI , Lima SSF , Lima DLD and Daurte AC . Using capillary electrophoresis for the determination of organic acids in Port wine . Analytica Chimica Acta 2004 ; 513 : 163 – 167 .
Gatenby RA and Gillies RJ . Why do cancers have high aerobic glycolysis? Nature Reviews Cancer 2004 ; 4 : 891 – 899 .
Higashi T , Ichikawa T , Inagaki S , Min JZ , Fukushima T and Toyo'oka T . Simple and practical derivatization procedure for enhanced detection of carboxylic acids in liquid chromatography–electrospray ionization–tandem mass spectrometry . Journal of Pharmaceutical and Biomedical Analysis 2010 ; 52 : 809 – 818 .
Hirayama A , Kami K , Sugimoto M , Sugawara M , Toki N , Onozuka H , Kinoshita H , Saito N , Ochiai A and Tomita M . Quantitative metabolome profiling of colon and stomach cancer microenvironment by capillary electrophoresis time‐of‐flight mass spectrometry . Cancer Research 2009 ; 69 : 4918 – 4925 .
Iwasaki Y , Nakano Y , Mochizuki K , Nomoto M , Takahashi Y , Ito R , Saito K and Nakazawa H . A new strategy for ionization enhancement by derivatization for mass spectrometry . Journal of Chromatography B 2011 ; 879 : 1159 – 1165 .
Keefer JF and Schuster SM . Separation of citric acid cycle intermediates by high‐performance liquid chromatography with ion pairing . Journal of Chromatography B 1986 ; 383 : 297 – 305 .
Kelly RA , O'Hara DS and Kelly V . High‐performance liquid chromatographic separation of femtomolar quantities of endogenous carboxylic acids, including arachidonic acid metabolites, as 4‐bromomethyl‐7‐acetoxycoumarin derivatives . Journal of Chromatography 1987 ; 416 : 247 – 254 .
Kim JW and Dang CV . Cancer's molecular sweet tooth and the Warburg effect . Cancer Research 2006 ; 66 : 8927 – 8930 .
Kubota K , Fukushima T , Yuji R , Miyano H , Hirayama K , Santa T and Imai K . Development of an HPLC–fluorescence determination method for carboxylic acids related to the tricarboxylic acid cycle as a metabolome tool . Biomedical Chromatography 2005 ; 19 : 788 – 795 .
Kunishima M , Kawachi C , Monta J , Terao K , Iwasaki F and Tani S . 4‐(4,6‐Dimethoxy‐1,3,5‐triazin‐2‐yl)‐4‐methyl‐morpholinium chloride: an efficient condensing agent leading to the formation of amides and esters . Tetrahedron 1999 ; 55 : 13159 – 13170 .
Nagao R , Tsutsui H , Mochizuki T , Takayama T , Kuwabara T , Min JZ , Inoue K , Todoroki K and Toyo'oka T . Novel chiral derivatization reagents possessing a pyridylthiourea structure for enantiospecific determination of amines and carboxylic acids in high‐throughput liquid chromatography and electrospray–ionization mass spectrometry for chiral metabolomics identification . Journal of Chromatography A 2013 ; 1296 : 111 – 118 .
Ogawa S , Tadokoro H , Sato M , Hanawa T and Higashi T . ( S )‐1‐(4‐Dimethylaminophenylcarbonyl)‐3‐aminopyrrolidine: a derivatization reagent for enantiomeric separation and sensitivedetection of chiral carboxylic acids by LC/ESI‐MS/MS . Journal of Chromatography B 2013 ; 940 : 7 – 14 .
Sakaguchi Y , Yoshida H , Todoroki K , Nohta H and Yamaguchi M . Separation‐oriented derivatization of native fluorescent compounds through fluorous labeling followed by liquid chromatography with fluorous‐phase . Analytical Chemistry 2009 ; 81 : 5039 – 5045 .
Sakaguchi Y , Yoshida H , Hayama T , Yoshitake M , Itoyama M , Todoroki K , Yamaguchi M and Nohta H . Fluorous derivatization and fluorous‐phase separation for fluorometric determination of naproxen and felbinac in human plasma . Journal of Pharmaceutical and Biomedical Analysis 2011 ; 55 : 176 – 180 .
Sasaki M , Ishikawa M , Suzuki H and Nakagawa H . Analysis of organic acid by postcolumn ultra high‐speed liquid chromatography . Bunseki Kagaku 2010 ; 59 : 247 – 250 .
Todoroki K , Hashimoto H , Mikawa T , Itoyama M , Hayama T , Kojima E , Yoshida H , Nohta H and Yamaguchi M . Reagent peak‐free liquid chromatography–fluorescence analysis of carboxylic acids using a fluorous scavenging–derivatization method . Analytical and Bioanalytical Chemistry 2010 ; 397 : 2409 – 2416 .
Todoroki K , Yoshida H , Hayama T , Itoyama M , Nohta H and Yamaguchi M . Highly sensitive and selective derivatization–LC method for biomolecules based on fluorescence interactions and fluorous separations . Journal of Chromatography B 2011 ; 879 : 1325 – 1337 .
Todoroki K , Hashimoto H , Machida K , Itoyama M , Hayama T , Yoshida H , Nohta H , Nakashima M and Yamaguchi M . Fully automated reagent peak‐free liquid chromatography fluorescence analysis of highly polar carboxylic acids using a column‐switching system and fluorous scavenging derivatization . Journal of Separation Science 2013 ; 36 : 232 – 238 .
Toyo'oka T . Modern Derivatization Methods for Separation Sciences . Wiley : Chichester , 1999 ; 121 – 135 .
Tsutsui H , Fujii S , Sakamoto T , Min JZ , Todoroki K and Toyo'oka T . Chiral amines as reagents for HPLC‐MS enantioseparation of chiral carboxylic acids . Journal of Separation Science 2012 ; 35 : 1551 – 1559 .
Wada A , Bonoshita M , Tanaka Y and Hibi K . A study of a reaction system for organic acid analysis using a pH indicator as post‐column reagent . Journal of Chromatography A 1984 ; 291 : 111 – 118 .
Yoshida H , Mizukoshi T , Hirayama K and Miyano H . Comprehensive analytical method for the determination of hydrophilic metabolites by high‐performance liquid chromatography and mass spectrometry . Journal of Agricultural and Food Chemistry 2007 ; 55 : 551 – 560 .
Zhang H , Zhou F , Ji B , Nout RMJ , Fang Q and Yang Z . Determination of organic acids evolution during apple cider fermentation using an improved HPLC analysis method . European Food Research and Technology 2008 ; 227 : 1183 – 1190 .
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