| 3265 - 3266 |
Untitled
Rozing G, Schappler J, Rudaz S |
| 3267 - 3268 |
Pier-Giorgio Righetti wins the inaugural Beckman Award
Svec F |
| 3269 - 3275 |
Effect of electrolyte pH on CIEF with narrow pH range ampholytes
Pager C, Vargova A, Takacsi-Nagy A, Dornyei A, Kilar F |
| 3276 - 3280 |
Capillary gel electrophoresis for precise protein quantitation
Cianciulli C, Hahne T, Watzig H |
| 3281 - 3290 |
IEF-based multidimensional applications in proteomics: Toward higher resolution
Stoyanov A |
| 3291 - 3298 |
Complementary workflow for global phosphoproteome analysis
Li QR, Ning ZB, Yang XL, Wu JR, Zeng R |
| 3299 - 3305 |
Electrophoretically mediated microanalysis for characterization of the enantioselective CYP3A4 catalyzed N-demethylation of ketamine
Kwan HY, Thormann W |
| 3306 - 3315 |
Characterization of drug-protein interactions by capillary electrophoresis hyphenated to mass spectrometry
Vuignier K, Veuthey JL, Carrupt PA, Schappler J |
| 3316 - 3322 |
Precise, fast, and flexible determination of protein interactions by affinity capillary electrophoresis: Part 1: Performance
Redweik S, Xu YH, Watzig H |
| 3323 - 3330 |
Capillary electrophoresis/frontal analysis versus equilibrium dialysis in dexamethasone sodium phosphate-serum albumin binding studies
Gonciarz A, Kus K, Szafarz M, Walczak M, Zakrzewska A, Szymura-Oleksiak J |
| 3331 - 3338 |
Segmented field OFFGEL (R) electrophoresis
Tobolkina E, Cortes-Salazar F, Momotenko D, Maillard J, Girault HH |
| 3339 - 3342 |
A surfactant-based, regularly arrayed nanostructure gel matrix for migration of small molecules
Kato M, Suwanai Y, Shimojima A, Santa T |
| 3343 - 3350 |
Sample preconcentration in open microchannels combined with MALDI-MS
Mikkonen S, Rokhas MK, Jacksen J, Emmer A |
| 3351 - 3360 |
Quantitative microfluidic analysis of S- and R-type endotoxin components with chip capillary electrophoresis
Makszin L, Kilar A, Felso P, Peterfi Z, Kocsis B, Kilar F |
| 3361 - 3369 |
Urinary hydrophilic and hydrophobic metabolic profiling based on liquid chromatography-mass spectrometry methods: Differential metabolite discovery specific to ovarian cancer
Chen J, Zhou LN, Zhang XY, Lu X, Cao R, Xu CJ, Xu GW |
| 3370 - 3379 |
A validated microfluidics-based LC-chip-MS/MS method for the quantitation of fluoxetine and norfluoxetine in rat serum
Houbart V, Servais AC, Charlier TD, Pawluski JL, Abts F, Fillet M |
| 3380 - 3386 |
Disclosure of a fundamental clue for the elucidation of the myricetin mechanism of action as amyloid aggregation inhibitor by mass spectrometry
Fiori J, Naldi M, Bartolini M, Andrisano V |
| 3387 - 3393 |
Normal phase LC coupled with direct analysis in real time MS for the chiral analysis of 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol and jasmonic acid
Chang CL, Zhou ZG, Yang YY, Han YH, Bai Y, Zhao MP, Liu HW |
