| U3 - U3 |
Extremely high levels of human mitochondrial DNA heteroplasmy in single hair roots (vol 21, pg 548, 2000)
Grzybowski T |
| 823 - 833 |
An exactly solvable Ogston model of gel electrophoresis V. Attractive gel-analyte interactions and their effects on the Ferguson plot
Labrie J, Mercier JF, Slater GW |
| 834 - 840 |
Ultrathin-layer sodium dodecyl sulfate gel electrophoresis of proteins: Effects of gel composition and temperature on the separation of sodium dodecyl sulfate-protein complexes
Gerstner A, Csapo Z, Sasvari-Szekely M, Guttman A |
| 841 - 845 |
Direct Blue 71 staining of proteins bound to blotting membranes
Hong HY, Yoo GS, Choi JK |
| 846 - 849 |
Electroelution of nonfluorescent stacked proteins detected by fluorescence optics from gel electrophoretic bands for transfer into mass spectrometry
Gombocz E, Chrambach A, Yefimov S, Yergey AL |
| 850 - 858 |
Heat-induced conformational transition of cytochrome c observed by temperature gradient gel electrophoresis at acidic pH
Viglasky V, Antalik M, Bagel'ova J, Tomori Z, Podhradsky D |
| 859 - 864 |
Unlimited increase in the resolution of DNA ladders
Griess GA, Rogers E, Serwer P |
| 865 - 873 |
Characterization of the selective staining of DNA on gels using two fluorochromes
Mabuchi T, Nishikawa S |
| 874 - 888 |
Quality assurance considerations for use of the Fluorlmager SI (R) and FragmeNT Analysis software
Christ SA, Silbiger RN, Garg M, Franson SE, Toth GP |
| 889 - 895 |
Microsatellite structures in the context of human evolution
Wiegand P, Meyer E, Brinkmann B |
| 896 - 903 |
Cloning and characterization of a novel caprine genomic repetitive element that hybridizes with papillomavirus DNA
Kulski JK, Ward BK |
| 904 - 908 |
Quantitative DNA methylation analysis by fluorescent polymerase chain reaction single-strand conformation polymorphism using an automated DNA sequencer
Suzuki H, Itoh F, Toyota M, Kikuchi T, Kakiuchi H, Hinoda Y, Imai K |
| 909 - 916 |
New adsorbed coatings for capillary electrophoresis
Chiari M, Cretich M, Damin F, Ceriotti L, Consonni R |
| 917 - 924 |
Investigation of capillary electrochromatography with brush-type chiral stationary phases
Wolf C, Spence PL, Pirkle WH, Cavender DM, Derrico EM |
| 925 - 929 |
A new method of quantification of pipemidic acid by capillary zone electrophoresis with end-column amperometric detection
Jin WR, Yu DQ, Dong Q, Ye XY |
| 930 - 934 |
Capillary electrophoresis of nonprotein and protein amino acids without derivatization
Lee JH, Choi OK, Jung HS, Kim KR, Chung DS |
| 935 - 948 |
Mapping and identification of Mycobacterium tuberculosis proteins by two-dimensional gel electrophoresis, microsequencing and immunodetection
Rosenkrands I, Weldingh K, Jacobsen S, Hansen CV, Florio W, Gianetri I, Andersen P |
| 949 - 955 |
Reference map of soluble proteins from Streptococcus thermophilus by two-dimensional electrophoresis
Perrin C, Gonzalez-Marquez H, Gaillard JL, Bracquart P, Guimont C |
| 956 - 961 |
Cell surface proteins of Candida albicans: Preparation of extracts and improved detection of proteins
Vediyappan G, Bikandi J, Braley R, Chaffin WL |
| 963 - 963 |
Proceedings of the American Electrophoresis Society Meeting, Bethesda, MD, August 8-10, 1999 - Editorial
Stellwagen N |
| 965 - 975 |
Serum protein immunogenicity: Implications for liver xenografting
Celli S, Marto JA, Falchetto R, Shabanowitz J, Valdivia LA, Fung JJ, Hunt DF, Kelly RH |
| 976 - 984 |
Proteomic analysis of the renal effects of simulated occupational jet fuel exposure
Witzmann FA, Bauer MD, Fieno AM, Grant RA, Keough TW, Lacey MP, Sun YP, Witten ML, Young RS |
| 985 - 992 |
Separation efficiency in protein zone electrophoresis performed in capillaries of different diameters
St'astna M, Radko SP, Chrambach A |
| 993 - 1000 |
A comparison of three commercially available isoelectric focusing units for proteome analysis: The Multiphor, the IPGphor and the Protean IEF cell
Choe LH, Lee KH |
| 1001 - 1009 |
Preparative electrochromatography of proteins in various types of porous media
Tellez CM, Cole KD |
| 1010 - 1017 |
Separation of different physical forms of plasmid DNA using a combination of low electric field strength and flow in porous media: Effect of different field gradients and porosity of the media
Cole KD, Tellez CM, Blakesley RW |
| 1018 - 1025 |
The role of Joule heating in dispersive mixing effects in electrophoretic cells: Hydrodynamic considerations
Bosse MA, Arce P |
| 1026 - 1033 |
Role of Joule heating in dispersive mixing effects in electrophoretic cells: Convective-diffusive transport aspects
Bosse MA, Arce P |
