| 3501 - 3501 |
Microchannel-based methods for proteomics
Lee CS |
| 3503 - 3522 |
Capillary electrophoresis-based separation techniques for the analysis of proteins
Huang YF, Huang CC, Hu CC, Chang HT |
| 3523 - 3532 |
Capillary separations enabling tissue proteomics-based biomarker discovery
Guo T, Lee CS, Wang WJ, DeVoe DL, Balgley BM |
| 3533 - 3546 |
Permanent surface modification of polymeric capillary electrophoresis microchips for protein and peptide analysis
Liu JK, Lee ML |
| 3547 - 3558 |
Monolithic media in microfluidic devices for proteomics
Ro KW, Nayalk R, Knapp DR |
| 3559 - 3568 |
Microfluidic technologies for MALDI-MS in proteomics
Devoe DL, Lee CS |
| 3569 - 3577 |
Online concentration and separation of basic proteins using a cationic polyelectrolyte in the presence of reversed electroosmotic flow
Yu CJ, Tseng WL |
| 3578 - 3583 |
Macroporous polyacrylamide-based monolithic column with immobilized pH gradient for protein analysis
Zhu GJ, Yuan HM, Zhaol P, Zhang LH, Liang Z, Zhang WB, Zhang YK |
| 3584 - 3590 |
Peak identification in capillary isoelectric focusing using the concept of relative peak position as determined by two isoelectric point markers
Wu JQ, Huang TM |
| 3591 - 3598 |
Transient isotachophoresis in carrier ampholyte-based capillary electrophoresis for protein analysis
Busnel JM, Descroix S, Godfrin D, Hennion MC, Kasicka V, Peltre G |
| 3599 - 3608 |
Selective enrichment and ultrasensitive identification of trace peptides in proteome analysis using transient capillary isotachophoresis/zone electrophoresis coupled with nano-ESI-MS
An YM, Cooper JW, Balgley BM, Lee CS |
| 3609 - 3618 |
Ultrasensitive native fluorescence detection of proteins with miniaturized polyacrylamide gel electrophoresis by laser side-entry excitation
Zhang H, Yeung ES |
| 3619 - 3626 |
Effects of separation length and voltage on isolectric focusing in a plastic microfluidic device
Das C, Fan ZH |
| 3627 - 3634 |
SDS-CGE of proteins in microchannels made of SU-8 films
Agirregabiria M, Blanco FJ, Berganzo J, Fullaondo A, Zubiaga AM, Mayora K, Ruano-Lopez JM |
| 3635 - 3642 |
A self-contained polymeric 2-DE chip system 2 for rapid and easy analysis
Usui K, Hiratsuka A, Shiseki K, Maruo Y, Matsushima T, Takahashi K, Unuma Y, Sakairi K, Namatame I, Ogawa Y, Yokoyama K |
| 3643 - 3651 |
Automated integration of monolith-based protein separation with on-plate digestion for mass spectrometric analysis of esophageal adenocarcinorna human epithelial samples
Yoo C, Zhao J, Pal M, Hersberger K, Huber CG, Simeone DM, Beer DG, Lubman DM |
| 3652 - 3660 |
Dimethyl multiplexed labeling combined with microcolumn separation and MS analysis for time course study in proteomics
Hsu JL, Huang SY, Chen SH |
| 3661 - 3670 |
Separation and characterization of rabbit liver apothioneins by capillary electrophoresis coupled to electrospray ionization time-of-flight mass spectrometry
Andon B, Barbosa J, Sanz-Nebot V |
| 3671 - 3675 |
Surface plasmon resonance-enabled mass spectrometry arrays
Nedelkov D, Tubbs KA, Nelson RW |
| 3676 - 3683 |
A chip-based miniaturized format for protein-expression profiling: The exploitation of comprehensively produced antibodies
Koga H, Kyo M, Usui-Aoki K, Inamori K |
