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Analysis by capillary electrophoresis

Zahou, E., Jornvall H., and Bergman T., Amino acid analysis by capillary electrophoresis after phenylthiocarbamylation, Anal. Biochem., 281, 115, 2000. [Pg.440]

Muller, O., Minarik, M., and Foret, F., Ultrafast DNA analysis by capillary Electrophoresis/laser-induced fluorescence detection, Electrophoresis, 19,1436, 1998. [Pg.440]

Yan W, Sloat AL, Yagi S, Nakazumi H, Colyer CL (2006) Protein labeling with red squarylium dyes for analysis by capillary electrophoresis with laser-induced fluorescence detection. Electrophoresis 27 1347-1354... [Pg.102]

Snyder TM, McGown LB (2005) Multiplex single strand conformation polymorphism analysis by capillary electrophoresis with on-the-fly fluorescence lifetime detection. Appl Spectrosc 59 335-339... [Pg.39]

A.D. Presley, K.M. Fuller and E. A. Arriaga, MitoTracker Green labeling of mitochondrial proteins and their subsequent analysis by capillary electrophoresis with laser-induced fluorescence detection. J. Chromatogr.B, 793 (2003) 141-150. [Pg.562]

Sonverain, S., Geiser, L., Rudaz, S., Venthey, J.-L. Strategies for rapid chiral analysis by capillary electrophoresis. J. Pharm. Biomed An. 2006, 40, 235-241. [Pg.209]

Garcia-Ruiz, C., and Marina, M. L. (2006). Sensitive chiral analysis by capillary electrophoresis. Electrophoresis 27, 195—212. [Pg.257]

Ions are highly charged species by nature and lend themselves well to analysis by capillary electrophoresis (CE). In pharmaceutical analyses, we usually deal with small organic and inorganic anions and small cations or aliphatic amines. [Pg.318]

Johannesson, N., Wetterhall, M., Markides, K. E., and Bergquist, J. (2004). Monomer surface modifications for rapid peptide analysis by capillary electrophoresis and capillary electrochromatography coupled to electrospray ionization-mass spectrometry. Electrophoresis 25, 809-816. [Pg.474]

Takeda, S., Tanaka, Y., Yamane, M., Slroma, Z., Wakida, S., Otsuka, K., and Terabe, S. (2001). Ionization of dichlorophenols for their analysis by capillary electrophoresis-mass spectrometry. /. Chromatogr. A 924, 415—420. [Pg.505]

Rudaz, S., Veuthey, J. L., Desiderio, C., and Fanali, S. (1999). Simultaneous stereoselective analysis by capillary electrophoresis of tramadol enantiomers and their main phase I metabolites in urine.. Chromatogr. A 846, 227—237. [Pg.511]

Zhang, B., Foret, F, and Karger, B. L. (2000). A microdevice with integrated liquid junction for facile peptide and protein analysis by capillary electrophoresis/electrospray mass spectrometry. Anal. Chem. 72, 1015-1022. [Pg.520]

M. A. Ruggiero and F. M. Lan9as, Approaching the ideal system for the complete automation in trace analysis by capillary electrophoresis , in Proceedings of the 3rd Latin American Symposium on Capillary Electrophoresis, Buenos Aires, Argentine, November 30-December 2. p. 1 (1997). [Pg.150]

Sample preparation procedures for GC are generially more involved. For example, for methadone hydrochloride, 0.5jV sodium hydroxide is added to give the free base, followed by extraction with methylene chloride. An internal standard is added after the extract is dried with anhydrous sodium sulfate [3, p. 970]. The assay of interleukin-la formulated with human serum albumin does not require any sample treatment prior to analysis by capillary electrophoresis [44]. [Pg.25]

Figure 8 Automated high-throughput RNA analysis by capillary electrophoresis. Typical batch processing profiles of a 96-well sample plate. Total RNA sample preparations from rice (traces 1-76 from top), arabidopsis (traces 77-95), and yeast (trace 96) 6 pL each in 96-well plate. Conditions 50-pm-i.d. capillary, =10 cm (L = 30 cm) sieving medium, 1% PVP (polyvinylpirrolidone, MW= 1.3 MDa), 4 M urea, 1 xTBE, 0.5 pM ethidium bromide =500 V/cm 25°C. RNA samples were diluted in deionized water and denatured at 65°C for 5 min prior to analysis. Sample tray was stored at 4°C in the CE instrument during processing. Injection vacuum (5 s at 3.44 kPa). Separation matrix was replaced after each run, 2 min at 551 kPa. (Reproduced with permission from Ref. 102.)... Figure 8 Automated high-throughput RNA analysis by capillary electrophoresis. Typical batch processing profiles of a 96-well sample plate. Total RNA sample preparations from rice (traces 1-76 from top), arabidopsis (traces 77-95), and yeast (trace 96) 6 pL each in 96-well plate. Conditions 50-pm-i.d. capillary, =10 cm (L = 30 cm) sieving medium, 1% PVP (polyvinylpirrolidone, MW= 1.3 MDa), 4 M urea, 1 xTBE, 0.5 pM ethidium bromide =500 V/cm 25°C. RNA samples were diluted in deionized water and denatured at 65°C for 5 min prior to analysis. Sample tray was stored at 4°C in the CE instrument during processing. Injection vacuum (5 s at 3.44 kPa). Separation matrix was replaced after each run, 2 min at 551 kPa. (Reproduced with permission from Ref. 102.)...
Fasco MJ, Treanor CP, Spivack S, Figge HL, Kaminsky LS (1995) Quantitative RNA-polymerase chain reaction—DNA analysis by capillary electrophoresis and laser induced fluorescence. Anal Biochem 224 140-147. [Pg.161]

Hargadon KA, McCord BR (1992) Explosive residue analysis by capillary electrophoresis and ion chromatography. J Chromatogr 602 241 -247. [Pg.202]

Advances in Chiral Pollutants Analysis by Capillary Electrophoresis... [Pg.5]

Carbohydrates Analysis by Capillary Electrophoresis Oliver Schmitz... [Pg.14]

See other pages where Analysis by capillary electrophoresis is mentioned: [Pg.421]    [Pg.35]    [Pg.77]    [Pg.164]    [Pg.270]    [Pg.198]    [Pg.160]    [Pg.367]    [Pg.2]    [Pg.10]    [Pg.28]    [Pg.28]    [Pg.217]    [Pg.218]    [Pg.219]    [Pg.220]    [Pg.221]    [Pg.222]   
See also in sourсe #XX -- [ Pg.3 , Pg.5 ]



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