Environmental Engineering Reference
In-Depth Information
37. Bjellqvist B, Ek K, Righetti PG, Gianazza E, Gorg A, Westermeier R, Postel W (1982)
Isoelectric focusing in immobilized pH gradients: principle, methodology and some applica-
tions. J Biochem Biophys Methods 6:317-339
38. Klose J, Kobalz U (1995) Two-dimensional electrophoresis of proteins: an updated protocol
and implications for a functional analysis of the genome. Electrophoresis 16:1034-1059
39. Poland J, Cahill MA, Sinah P (2003) Isoelectric focusing in long immobilized pH gradient
gels to improve protein separation in proteomic analysis. Electrophoresis 24:1271-1275
40. O
Farrell PH (1977) High resolution two-dimensional electro-
phoresis of basic as well as acidic proteins. Cell 12:1133-1141
41. Aebersold R, Mann M (2003) Mass spectrometry-based proteomics. Nature 422:198-207
42. Nothwang HG, Schindler J (2009) Two-dimensional separation of membrane proteins by
16-BAC-SDS-PAGE. Methods Mol Biol 528:269-277
43. Jorgenson JW, Lukacs KD (1981) Zone electrophoresis in open-tubular glass capillaries.
Anal Chem 53:1298-1302
44. Quang C, Petersen SL, Ducatte GR, Ballou NE (1996) Characterization and separation of
inorganic fine particles by capillary electrophoresis with an indifferent electrolyte system. J
Chromatogr A 732:377-384
45. Petersen SL, Ballou NE (1992) Effects of capillary temperature control and electrophoretic
heterogeneity on parameters characterizing separations of particles by capillary zone elec-
trophoresis. Anal Chem 64:1676-1681
46. Huff BV, McIntire GL (1994) Determination of the electrophoretic mobility of polystyrene
particles by capillary electrophoresis. J Microcol 6:591-594
47. Templeton AC, Cliffel DE, Murray RW (1999) Redox and fluorophore functionalization of
water-soluble, tiopronin-protected gold clusters. J Am Chem Soc 121:7081-7089
48. Liu FK, Koa FH, Huang PW, Wu CH, Chu TC (2005) Studying the size/shape separation and
optical properties of silver nanoparticles by capillary electrophoresis. J Chromatogr A
1062:139-145
49. Liu FK, Huang PW, Chang YC, Ko FH, Chu TC (2004) Microwave-assisted synthesis of
silver nanorods. J Mater Res 19:469-473
50. Mafune F, Kohno J, Takeda Y, Kondow T, Sawabe H (2000) Formation and size control of
silver nanoparticles by laser ablation in aqueous solution. J Phys Chem B 104:9111-9117
51. Chen YH, Yeh CS (2002) Laser ablation method: use of surfactants to form dispersed Ag
nanoparticles. Colloids Surf A 197:133-139
52. Aggarwal P, Hall JB, McLeland CB, Dobrovolskaia MA, McNeil SE (2009) Nanoparticle
interaction with plasma proteins as it relates to particle biodistribution, biocompatibility and
therapeutic efficacy. Adv Drug Del Rev 61:428-437
53. Rosengren A, Pavlovic E, Oscarsson S, Krajewski A, Ravaglioli A, Piancastelli A (2002)
Plasma protein adsorption pattern on characterized ceramic biomaterials. Biomaterials
23:1237-1247
54. Marshall J, Kupchak P, Zhu W (2003) Processing of serum proteins underlies the mass
spectral fingerprinting of myocardial infarction. J Proteome Res 2:361-372
55. Olivieri E, Herbert B, Righetti PG (2001) The effect of protease inhibitors on the
two-dimensional electrophoresis pattern of red blood cell membranes. Electrophoresis
22:560-565
56. Hulmes JD, Deidra Bethea D, Ho K, Huang SP, Ricci DL, Opiteck GJ, Hefta SA (2004) An
investigation of plasma collection, stabilization, and storage procedures for proteomic anal-
ysis of clinical samples. Clin Proteo Journal 1:17-31
57. Pasella S, Baralla A, Canu E, Pinna S, Vaupel J, Deiana M et al (2013) Pre-analytical stability
of the plasma proteomes based on the storage temperature. Proc Natl Acad Sci U S A 11:10-
20
58. Jiang L, Hea L, Fountoulakis M (2004) Comparison of protein precipitation methods for
sample preparation prior to proteomic analysis. J Chromatogr A 1023:317-320
Farrell PZ, Goodman HM, O
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