Quantifying adsorbed protein on surfaces using confocal fluorescence microscopy

Colloids and Surfaces B: Biointerfaces

Volumn 72, Issue 2, 2009, Pages 219-229

  Togashi, Denisio M ^a   Ryder, Alan G ^a   Heiss, Gregor ^a  

^a NATIONAL UNIVERSITY OF IRELAND   (Ireland)

Author keywords

Confocal microscopy; DLVO; Fluorescence; Protein adsorption; Serum albumin

Indexed keywords

ADSORPTION PARAMETERS; BIOMEDICAL DEVICES; BOVINE SERUM ALBUMINS; CONFOCAL FLUORESCENCE MICROSCOPE; CONFOCAL FLUORESCENCE MICROSCOPY; DERJAGUIN-LANDAU-VERWEY-OVERBEEK THEORIES; DLVO; HYDROPHILIC GLASS SURFACE; IMPLANTED MEDICAL DEVICES; IN-SITU; LANGMUIR MODELS; NEW TOOLS; PH CONDITION; PHYSICOCHEMICAL PROPERTY; PROTEIN ADSORPTION; PROTEIN LAYERS; QUANTITATIVE METHOD; SERUM ALBUMIN; SIMPLE PROTOCOL; SOLID SURFACE; SURFACE ADSORPTION; SURFACE SYSTEMS;

BIOCOMPATIBILITY; BIOSENSORS; BODY FLUIDS; CONFOCAL MICROSCOPY; FLUORESCENCE; FLUORESCENCE MICROSCOPY; PARAMETER ESTIMATION; SURFACE CHEMISTRY;

ADSORPTION;

BOVINE SERUM ALBUMIN; GLASS; TETRAMETHYLRHODAMINE;

ADSORPTION KINETICS; ARTICLE; CONFOCAL MICROSCOPY; FLUORESCENCE MICROSCOPY; HYDROPHILICITY; PH; PHYSICAL CHEMISTRY; PRIORITY JOURNAL; PROTEIN INTERACTION; QUANTITATIVE ANALYSIS; SURFACE PROPERTY;

ADSORPTION; ANIMALS; CATTLE; GLASS; HYDROGEN-ION CONCENTRATION; MICROSCOPY, CONFOCAL; MICROSCOPY, FLUORESCENCE; PROTEIN BINDING; PROTEINS; SERUM ALBUMIN, BOVINE; SURFACE PROPERTIES;

BOVINAE;

EID: 67349181263     PISSN: 09277765     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.colsurfb.2009.04.007     Document Type: Article

References (80)

1. Ratner B.D., and Bryant S.J. Annu. Rev. Biomed. Eng. 6 (2004) 41-75
2. Wilson C.J., Clegg R.E., Leavesley D.I., and Pearcy M.J. Tissue Eng. 11 (2005) 1-18
3. Benesch J., Askendal A., and Tengvall P. Colloids Surf., B: Biointerfaces 18 (2000) 71-81
4. Elwing H. Biomaterials 19 4-5 (1998) 397-406
5. Lu J.R., Zhao X., and Yaseen M. Curr. Opin. Colloid Interface Sci. 12 (2007) 9-16
6. Czeslik C. Z. Phys. Chem. 218 7 (2004) 771-801
7. Nakanishi K., Sakiyama T., and Imamura K. J. Biosci. Bioeng. 91 3 (2001) 233-244
8. Ostuni E., Chapman R.G., Holmlin R.E., Takayama S., and Whitesides G.M. Langmuir 17 18 (2001) 5605-5620
9. Guo A., and Zhu X.-Y. The critical role of surface chemistry in protein microarrays. In: Predki P. (Ed). Functional Protein Microarrays in Drug Discovery (2007), CRC Press, Boca Raton 53-71
10. Gee M.L., Lensun L., Smith T.A., and Scholes C.A. Eur. Biophys. J. 33 (2004) 130-139
11. Togashi D.M., and Ryder A.G. Exp. Mol. Pathol. 82 2 (2007) 135-141
12. Arima Y., and Iwata H. J. Mater. Chem. 17 (2007) 4079-4087
13. Mulvihill J.N., Faradji A., Oberling F., and Cazenave J.P. J. Biomed. Mater. Res. 24 2 (1990) 155-163
14. Peters Jr. T. All About Albumin: Biochemistry, Genetics, and Medical Applications (1996), Academic Press, San Diego, CA
15. Lakowicz J.R. Principles of Fluorescence Spectroscopy. 3rd ed. (2006), Springer, Singapore
16. No significant changes in the fluorescence emission spectrum of BSA-TMR in buffered pH 7.4 is observed if guanidinium hydrochloride (5 M) is present. This is an indication that the probe parameters such as molar absorption coefficient and fluorescence quantum yield are not very dependent on protein structure changes.
17. Picart C., Ladam G., Senger B., Voegel J.-C., Schaaf P., Cuisinier F.J.G., and Gergely C. J. Chem. Phys. 115 2 (2001) 1086-1094
18. Hungerford G., Benesch J., Mano J.F., and Reis R.L. Photochem. Phobiol. Sci. 6 (2007) 152-158
19. Su T.J., Lu J.R., Thomas R.K., Cui Z.F., and Penfold J. J. Phys. Chem. B. 102 (1998) 8100-8108
20. Malmsten M. J. Colloid Interface Sci. 166 (1994) 333-342
21. Zucker R.M., and Price O.T. Methods 18 (1999) 447-458
22. Shaw P.J. Comparison of widefield/deconvolution and confocal microscopy for three-dimensional imaging. In: Pawley J.B. (Ed). Handbook of Biological Confocal Microscopy. 3rd ed. (2006), Plenum Press, New York 453-467
23. Juškaitis R. Measuring the real point spread function of high numerical aperture microscope objective lenses. In: Pawley J.B. (Ed). Handbook of Biological Confocal Microscopy. 3rd ed. (2006), Plenum Press, New York 239-250
24. Gettens R.T.T., Bai Z., and Gilbert J.L. J. Biomed. Mater. Res. A 72 (2005) 246-257
25. Chang C.-H., and Franses E.I. Colloids Surf., A: Physicochem. Eng. Asp. 100 (1995) 1-45
26. Docoslis A., Wu W.J., Giese R.F., and van Oss C.J. Colloids Surf., B: Biointerfaces 13 (1999) 83-104
27. van Oss C.J., Wu W., Giese R.F., and Naim J.O. Colloids Surf., B: Biointerfaces 4 3 (1995) 185-189
28. Robinson S., and Williams P.A. Langmuir 18 (2002) 8743-8748
29. Larsericsdotter H., Oscarsson S., and Buijs J. J. Colloid Interface Sci. 289 (2005) 26-35
30. Giacomelli C.E., and Norde W. J. Colloid Interface Sci. 233 (2001) 234-240
31. Norde W., and Giacomelli C.E.C.E. J. Biotechnol. 79 3 (2000) 259-268
32. Welzel P.B. Thermochim. Acta 382 (2002) 175-188
33. Klose T., Welzel P.B.P.B., and Werner C. Colloids Surf., B: Biointerfaces 51 1 (2006) 1-9
34. McClellan S.J., and Franses E.I. Colloids Surf., A: Physicochem. Eng. Asp. 260 1-3 (2005) 265-275
35. Giacomelli C.E., Esplandiu M.J., Ortiz P.I., Avena M.J., and De Pauli C.P. J. Colloid Interface Sci. 218 2 (1999) 404-411
36. Lu J.R., Su T.J., and Thomas R.K. J. Colloid Interface Sci. 213 2 (1999) 426-437
37. Freeman N.J., Peel L.L., Swann M.J., Cross G.H., Reeves A., Brand S., and Lu J.R. J. Phys.: Condens. Matter 16 (2004) S2493-S2496
38. Squire P.G., Moser P., and O'Konski C.T. Biochemistry 7 (1968) 4261-4271
39. Revilla J., Elaïssari A., Carriere P., and Pichot C.J. J. Colloid Interface Sci. 180 2 (1996) 405-412
40. Feder J. J. Theor. Biol. 87 2 (1980) 237-254
41. Evans J.W. Rev. Mod. Phys. 65 4 (1993) 1281-1329
42. Adamczyk Z., and Weroński P. J. Chem. Phys. 105 13 (1996) 5562-5573
43. Oberholzer M.R., Stankovich J.M., Carnie S.L., Chan D.Y.C., and Lenhoff A.M. J. Colloid Interface Sci. 194 (1997) 138-153
44. Bloomfield V. Biochemistry 5 2 (1966) 684-689
45. Norde W. Colloids Surf., B: Biointerfaces 61 (2008) 1-9
46. Noh H., and Vogler E.A. Biomaterials 27 (2006) 5801-5812
47. Brewer S.H., Glomm W.R., Johnson M.C., Knag M.K., and Franzen S. Langmuir 21 20 (2005) 9303-9307
48. Hiemenz P.C., and Rajagopalan R. Principles of Colloid and Surface Chemistry. 3rd ed. (1997), Marcel Dekker, NY (Chapters 10-13)
49. Verwey E.J.W., and Overbeek J.Th.G. Theory of the Stability of Lyophobic Colloids (1948), Elsevier, Amsterdam
50. Roth C.M., and Lenhoff A.M. Langmuir 11 9 (1995) 3500-3509
51. Bowen W.R., Cao X., and Williams P.M. Proc. R. Soc. London, Ser. A 455 (1999) 2933-2955
52. Bhattacharjee S., Chen J.Y., and Elimelech M. Colloids Surf., A: Physicochem. Eng. Asp. 165 (2000) 143-156
53. Yuan Y., Oberholzer M.R., and Lenhoff A.M. Colloids Surf., A: Physicochem. Eng. Asp. 165 (2000) 125-141
54. Biesheuvel P.M., van der Veen M., and Norde W. J. Phys. Chem. B 109 (2005) 4172-4180
55. Bremer M.G.E.G., Duval J., Norde W., and Lyklema J. Colloids Surf., A: Physicochem. Eng. Asp. 255 (2004) 29-42
56. Sader J.E. J. Colloid Interface Sci. 188 (1997) 508-510
57. Bergström L. Adv. Colloid Interface Sci. 70 (1997) 125-169
58. Van Oss C.J., Chaudhury M.K., and Good R.J. Chem. Rev. 88 (1988) 927-941
59. Bowen W.R., and Jenner F.F. Adv. Colloid Interface Sci. 56 (1995) 201-243
60. Roth C.M., Neal B.L., and Lenhoff A.M. Biophys. J. 70 (1996) 977-987
61. Bowen W.R., Pan L.-C., and Sharif A.O. Colloids Surf., A: Physicochem. Eng. Asp. 143 (1998) 117-131
62. Ettelaie R., and Buscall R. Adv. Colloid Interface Sci. 61 (1995) 131-160
63. Behrens S.H., and Borkovec M.M. J. Phys. Chem. B. 103 15 (1999) 2918-2928
64. Lund M., Åkesson T., and Jönsson B. Langmuir 21 (2005) 8385-8388
65. Bowen W.R., and Williams P.M. J. Colloid Interface Sci. 184 (1996) 241-250
66. Rezwan K., Studart A.R., Vörös J., and Gauckler L.J. J. Phys. Chem. B 109 (2005) 14469-14474
67. Duval J.F.L., Huijs G.K., Threels W.F., Lyklema J., and van Leeuwen H.P. J. Colloid Interface Sci. 260 (2003) 95-106
68. Kosmulski M. J. Colloid Interface Sci. 253 (2002) 77-87
69. Tanford C., Swanson S.A., and Shore W.S. J. Am. Chem. Soc. 77 24 (1955) 6414-6421
70. Oliva F.Y., Avalle L.B., Camara O.R., and De Pauli C.P. J. Colloid Interface Sci. 261 (2003) 299-311
71. Geometric medium of ellipsoid shape at pH 2.2 root(19.7 × 5.3 × 5.3, 3) / 2 plus the Stern layer thickness 0.23 nm (Appendix B).
72. Matsukata M., Nishino M., Gong J.P., Osada Y., Sakurai Y., and Okano T. Colloids Surf., B: Biointerfaces 13 (1999) 203-211
73. Marmé N., Knemeyer J.-P., Sauer M., and Wolfrum J. Bioconjugate Chem. 14 (2003) 1133-1139
74. Togashi D.M., and Ryder A.G. J. Fluoresc. 16 (2006) 153-160
75. Oberholzer M.R., Wagner N.J., and Lenhoff A.M. J. Chem. Phys. 107 21 (1997) 9157-9167
76. Miyahara M., Watanabe S., Gotoh Y., and Higashitani K. J. Chem. Phys. 120 3 (2004) 1524-1534
77. Serway R.A. Physics for Scientists and Engineers with Moderm Physics. 3rd ed. (1992), Sunders College Publishing, Chicago
78. Togashi D.M., Szczupak B., Ryder A.G., Calvet A., and O'Loughlin M. J. Phys. Chem. A 113 12 (2009) 2757-2767
79. Doose S., Neuweiler H., and Sauer M. ChemPhysChem. 6 (2005) 2277-2285
80. Nelson D.L., and Cox M.C. Lehninger Principles of Biochemistry. 4th ed. (2005), W.H. Freeman and Company, New York