Investigation of Adsorption Characteristics of Fibrinogen on Modified Gold Substrates Using Infrared Reflection Absorption Spectroscopy
Keywords:
Protein adsorption, Fibrinogen, Infrared reflection absorption spectroscopy, gold substrate .Abstract
The adsorption characteristics of human fibrinogen (HFG) on surfaces with well-controlled chemistries have been studied using infrared reflection absorption spectroscopy. The surfaces examined in this study provide the experimental basis for exploring fundamental non-covalent intermolecular forces that dominate protein adsorption processes. Comparisons were drawn between fibrinogen and non-specifically adsorbed bovine IgG (bIgG) as well as structurally rigid lysozyme (LYS) on a positively-charged amine-modified surface to further understand substrate-influence on protein surface coverage. Work presented herein shows that surface coverage of an adsorbed protein depends largely on the nature of the substrate and the protein structure.References
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[2] W. Norde, J.G.E.M. Fraaye, J. Lyklema, Acs Symposium Series, 343 (1987) 36-47.
[3] W. Norde, F. Macritchie, G. Nowicka, J. Lyklema, Journal of Colloid and Interface Science, 112 (1986) 447-456.
[4] D.R. Lu, K. Park, Journal of Colloid and Interface Science, 144 (1991) 271-281.
[5] W. Norde, C.E. Giacomelli, Macromolecular Symposia, 145 (1999) 125-136.
[6] M. Matsuda, S. Shiratori, Langmuir, 27 (2011) 4271–4277.
[7] D.J. Vanderah, R.J. Vierling, M.L. Walker, Langmuir, 25 (2009) 5026-5030.
[8] E.P. Vieira, S. Rocha, C.M. Pereira, H. Mohwald, M.A.N. Coelho, Langmuir, 25 (2009) 9879-9886.
[9] M. Matsuda, S. Shiratori, Langmuir, 27 (2011) 4271-4277.
[10] R.J. Hamers, C. Stavis, A. Pokhrel, R. Frankling, R.E. Ruther, X. Wang, M.C. Cooperrider, H. Zheng, J.A. Carlisle, J.E. Butler, Diamond and Related Materials, 20 (2011) 733-742.
[11] R.B. Pernites, C.M. Santos, M. Maldinado, R.R. Ponnapati, D.F. Rodrigues, R.C. Advincula, Chemistry of Materials, 24 (2012) 870-880.
[12] T. Wei, S. Kaewtathip, K. Shing, J. Phys. Chem. C., 113 (2009) 2053-2062.
[13] M.M. Santore, C.F. Wertz, Langmuir, 21 (2005) 10172-10178.
[14] L. Feng, J.D. Andrade, in: T.A. Horbett, J.L. Brash (Eds.) ACS Symposium Series, American Chemical Society, Washington, DC, San Diego, California, 1995, pp. 67-79.
[15] P. Roach, D. Farrar, C.C. Perry, Journal of the American Chemical Society, 128 (2006) 3939-3945.
[16] D. Kiaei, A.S. Hoffman, T.A. Horbett, in: Proteins at Interfaces Ii, 1995, pp. 450-462.
[17] T. Arai, W. Norde, Colloids and Surfaces, 51 (1990) 1-15.
[18] D.J. Vanderah, R.J. Vierling, M.L. Walker, Langmuir 25 (2009) 5026–5030.
[19] C.J. Nonckreman, S. Fleith, P.G. Rouxhet, C.C. Dupont-Gillain, Colloids and Surfaces B: Biointerfaces, 77 (2010) 139–149.
[20] W. Norde, C.A. Haynes, Proteins at Interfaces Ii, 602 (1995) 26-40.
[21] J. Buijs, P.A.W. vandenBerg, J.W.T. Lichtenbelt, W. Norde, J. Lyklema, Journal of Colloid and Interface Science, 178 (1996) 594-605.
[22] J.N. Lin, B. Drake, A.S. Lea, P.K. Hansma, J.D. Andrade, Langmuir, 6 (1990) 509-511.
[23] T.C. Ta, M.T. Sykes, M.T. McDermott, Langmuir, 14 (1998) 2435-2443.
[24] P.S. Sit, R.E. Marchant, Thrombosis and Haemostasis, 82 (1999) 1053-1060.
[25] R.J. Green, R.A. Frazier, K.M. Shakesheff, M.C. Davies, C.J. Roberts, S.J.B. Tendler, Biomaterials, 21 (2000) 1823-1835.
[26] A. Ulman, An Introduction to Ultrathin Organic Films: From Langmuir-Blogett to Self-Assembly, Academic Press Inc.
, New York, USA, 1991.
[27] R.J. Hamers, C. Stavis, A. Pokhrel, R. Franking, R.E. Ruther, X. Wang, M.C. Cooperrider, H. Zheng, J.A. Carlisle, J.E. Butler, Diamond & Related Materials, 20 (2011) 733–742.
[28] P.S. Sit, R.E. Marchant, Surface Science, 491 (2001) 421-432.
[29] J.E. Puskas, Y. Dahman, A. Margaritis, Biomacromolecules, 5 (2004) 1412-1421.
[30] S. Tunc, M.F. Maitz, G. Steiner, L. Vazquez, M.T. Pham, R. Salzer, Colloids and Surfaces B-Biointerfaces, 42 (2005) 219-225.
[31] A. Naidja, C. Liu, P.M. Huang, Journal of Colloid and Interface Science, 251 (2002) 46-56.
[32] T.C. Ta, M.T. McDermott, Analytical Chemistry, 72 (2000) 2627-2634.
[33] B. Liedberg, B. Ivarsson, P.O. Hegg, I. Lundstrom, Journal of Colloid and Interface Science, 114 (1986) 386-397.
[34] R.E. Marchant, M.D. Barb, J.R. Shainoff, S.J. Eppell, D.L. Wilson, C.A. Siedlecki, Thrombosis and Haemostasis, 77 (1997) 1048-1051.
[35] K.M. Evans-Nguyen, L.R. Tolles, O.V. Gorkun, S.T. Lord, M.H. Schoenfisch, Biochemistry, 44 (2005) 15561-15568.
[36] C.F. Wertz, M.M. Santore, Langmuir, 18 (2002) 706-715.
[37] S.S. Cheng, K.K. Chittur, C.N. Sukenik, L.A. Culp, K. Lewandowska, Journal of Colloid and Interface Science, 162 (1994) 135-143.
[38] C.F. Wertz, M.M. Santore, Langmuir, 15 (1999) 8884-8894.
[39] L.B. Koh, I. Rodriguezb, S.S. Venkatraman, Phys. Chem. Chem. Phys., 12 (2010) 10301–10308.
[40] F. Nsiah, in: Deparment of Chemistry, University of Alberta, Edmonton, 2003, pp. 99.
[41] Q. Yang, Y. Zhang, M. Liu, M. Ye, Y. Zhang, S. Yao, Analytica Chimica Acta, 597 (2007) 58–66.
[42] J.L. Bohnert, T.A. Horbett, Journal of Colloid and Interface Science, 111 (1986) 363-378.
[43] S. Servagent-Noinville, M. Revault, H. Quiquampoix, M.H. Baron, Journal of Colloid and Interface Science, 221 (2000) 273-283.
[44] M.D. Porter, T.B. Bright, D.L. Allara, C.E.D. Chidsey, Journal of the American Chemical Society, 109 (1987) 3559-3568.
[45] R.G. Snyder, M. Maroncelli, H.L. Strauss, V.M. Hallmark, Journal of Physical Chemistry, 90 (1986) 5623-5630.
[46] M. Maroncelli, S.P. Qi, H.L. Strauss, R.G. Snyder, Journal of the American Chemical Society, 104 (1982) 6237-6247.
[47] Z. Pei, L. Busenlehner, S.D. Worley, Y. Tang, C.W. Curtis, Journal of Physical Chemistry B, 101 (1997) 10450-10454.
[48] B. Liedberg, B. Ivarsson, I. Lundstrom, W.R. Salaneck, Progress in Colloid and Polymer Science, 70 (1985) 67-75.
[49] B. Liedberg, B. Ivarsson, I. Lundstrom, Journal of Biochemical and Biophysical Methods, 9 (1984) 233-243.
[50] R. Barbucci, A. Magnani, Biomaterials, 15 (1994) 955-962.
[51] C.E. Giacomelli, M.G.E.G. Bremer, W. Norde, Journal of Colloid and Interface Science, 220 (1999) 13-23.
[52] K.L. Prime, G.M. Whitesides, Science, 252 (1991) 1164-1167.
[53] T.A. Horbett, J.L. Brash, Acs Symposium Series, 343 (1987) 1-33.
[54] D. Kiaei, A.S. Hoffman, T.A. Horbett, K.R. Lew, Journal of Biomedical Materials Research, 29 (1995) 729-739.
[55] S. Oscarsson, Journal of Colloid and Interface Science, 165 (1994) 402-410.
[56] K. Imamura, Y. Kawasaki, T. Awadzu, T. Sakiyama, K. Nakanishi, Journal of Colloid and Interface Science, 267 (2003) 294-301.
[57] R.L. Rich, D.G. Myszka, Journal of Molecular Recognition, 16 (2003) 351-382.
[58] T.J. Su, R.J. Green, Y. Wang, E.F. Murphy, J.R. Lu, R. Ivkov, S.K. Satija, Langmuir, 16 (2000) 4999-5007.
[59] J. Buijs, J.W.T. Lichtenbelt, W. Norde, J. Lyklema, Colloids and Surfaces B-Biointerfaces, 5 (1995) 11-23.
[60] S.F. Chen, L.Y. Liu, J. Zhou, S.Y. Jiang, Langmuir, 19 (2003) 2859-2864.
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2015-11-27
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Nsiah, F., & T. McDermott, M. T. M. (2015). Investigation of Adsorption Characteristics of Fibrinogen on Modified Gold Substrates Using Infrared Reflection Absorption Spectroscopy. American Scientific Research Journal for Engineering, Technology, and Sciences, 14(3), 66–86. Retrieved from https://asrjetsjournal.org/index.php/American_Scientific_Journal/article/view/1078
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