hjbc

Hacettepe Journal of Biology and Chemistry

2687-475X 2687-475X

Hacettepe University

Plasma fractionation: conventional and chromatographic methods for albumin purification

Plazma Fraksiyonlanması: Albumin Saflaştırılması için Geleneksel ve Kromatografik Yöntemler

Denizli

Adil

Department of Chemistry, Biochemistry Division, Hacettepe University, Ankara, Turkey

12 01 2011

39 4 315 341

1972

Hacettepe Journal of Biology and Chemistry

Plasma fractionation is the first process for large scale protein purification developed about 60 years ago by Cohn and co-workers. Currently therapeutically important proteins are human serum albumin HSA , immunoglobulin G IgG , coagulation factor VIII and protease inhibitors. HSA is one of the most abundant proteins in plasma and, together with IgGs, constitutes 80% of all plasma proteins. According to the data, HSA represented approximately 50% of all sales of therapeutic plasma protein products. The purification of HSA is generally required for the treatment of hypoproteinemia and heavy loss of blood, requires relatively high purity for medical use. HSA also used for therapeutic purposes such as shock, burns, hypoalbuminemia, surgery, trauma, cardiopulmonary bypass, the acute respiratory distress syndrome, hemodialysis, acute nephrosis, hyperbilirubinemia, acute liver failure, acites, and sequestration of protein-rich fluids in acute peritonitis, pancreatitis, mediastinitis and extensive cellulites.

P lazma ayırma fraksiyonlama 60 yıl önce Cohn ve çalışma arkadaşları tarafından geliştirilmiş olan büyük ölçekli protein saflaştırılmasında ilk basamaktır. Son yılların tedavi amaçlı kullanılan önemli proteinleri insan serum albumini HSA , immunoglobulin G IgG , pıhtılaşma faktörü VIII ve proteaz inhibitörleridir. HSA plazmada en çok bulunan proteindir ve IgG ile tüm plazma proteinlerinin %80’ini oluşturur. Elde edilen verilere göre albumin plazma protein ürünlerinin yaklaşık %50’sini oluşturmaktadır. HSA saflaştırılması genel olarak, tıbbi kullanım için nispeten yüksek saflık gerektiren hipoproteinemi ve ciddi kan kaybı tedavilerinde gerekli olmaktadır. HSA ayrıca, şok, yanma, hipoalbuminemi, cerrahi, travma, kardiyopulmoner bypass, akut solunum yetmezliği, hemodiyaliz, akut nefroz, hiperbilirübinemi, akut karaciğer yetmezliği, karında sıvı birikmesi ve akut peritonit, pankreatit, mediastinit ve ekstansif selülitde proteince zengin sıvıların ayrılması gibi tedavi amaçlı kullanılmaktadır

Albumin plasma fractionation Affinity chromatography plasma proteins

Albumin plazma ayırma affinite kromatografisi plazma proteinleri

1. H. Ancell, Course of lectures on the physiology and pathology of the blood and other animal fluids, Lancet, 1 (1839) 222 (from the Am. J. Dig. Dis., 14 (1969) 711-744.

2. M.A. Rothschild, M. Oratz, S.S. Schreiber, Serum Albumin, Hepatology, 2 (1988) 385-401.

3. J.D. Andrade, V. Hlady, A.P. Wei, C.G. Gölander, A domain approach to the adsorption of complex proteins: preliminary analysis and application to albumin, Croatica Chemica Acta, 63 (1990) 527-538.

4. X.M. He and D.C. Carter, Atomic structure and chemistry of human serum albumin, Nature, 358 (1992) 209.

5. T. Peters, Serum Albumin, Adv. Protein Chem., 37 (1985) 161-245.

6. E.J. Cohn, L.E. Strong, W.L. Hughes, D.J. Mulford, J.N. Ashworth, M. Melin, H.L. Taylor, Preparation and properties of serum and plasma proteins: a system for the preparation into fractions of protein and lipoprotein components of biological tissues and fluids, J. Am. Chem. Soc., 68 (1946) 459-475.

7. E. J. Cohn, F. R. N. Gurd, D. M. Surgenor, B. A. Barnes, R.K. Brown, Deoaux, G., et.al., A system for the separation of the components of human blood, J. Am. Chem. Soc., 72 (1950) 465-474.

8. J. Curling, Integrating new technology into blood plasma fractionation, BioPharm., September 2002, 16-25.

9. J.D. Andrade, V. Hlady, Plasma protein adsorption: the big twelve, Ann. N.Y. Acad. Sci., p. 158-172, 1990.

10. P. Robert, Worldwide supply and demand of plasma and plasma derived medicines, J. Blood and Cancer, 3 (2011) 111-120.

11. J. Curling, C. Bryant, The plasma fractionation industry: new opportunities to move forward, Bioprocess Int., March 2005, 18-27.

12. T. Burnouf, M. Radosevich, Affinity chromatography in the industrial purification of plasma proteins for therapeutic use, J. Biochem. Biophys. Methods, 49 (2001) 575-586.

13. J. Curling (ed) Methods of Plasma Protein Fractionation, Academic Press, London, 1980.

14. T. Burnouf, Integration of chromatography with traditional plasma protein fractionation methods, Bioseparation, 1 (1991) 383-396.

15. T. Burnouf, H. A. Goubran, M. Radosevich, Application of bioaffinity technology in therapeutic extracorporeal plasmapheresis and large scale fractionation of human plasma, J. Chromatogr., 715 (1998) 715-765.

16. F.J. Mannuzza, J.G. Montalto, Is bovine albumin complex too complex to be just a commodity, BioProcess Int., April 2010, 42-48.

17. J. Curling, J.H. Berglöf, L.O. Lindquits, S. Eriksson, A chromatographic procedure for the purification of human plasma albumin, Vox. Sanguinis, 33 (1977) 97-107.

18. A. Buchacher, G. Iberer, Purification of intraveneous immunoglobulin G from human plasma-aspects of yield and virus safety, Biotechnol. J., 1 (2006) 148- 163.

19. J. Curling, Current practice and future possibilities in plasma protein fractionation, Plenary Lecture Notes, The Joint Meeting of the 19th Congress of the Int. Soc. Haematol. and 17th Congress of the Int. Soc. Blood Transf., Budapest, August 1-7, 1982.

20. J.F. Stotz, C. Rivat, C. Geschier, P. Colosett, F. Streiff, Chromatography purification of a high purity human plasmatic albumin for clinical or biological uses, Swiss Biotech., 8 (1990) 7-10.

21. G.S. Chaga, Twenty five years of immobilized metal ion affinity chromatography: past, present and future, J. Biochem. Biophys. Methods, 49 (2001) 313.

22. K. Tanaka, E.M. Shigueoka, E. Sawatani, G.A. Dias, F. Arashiro, T.C.X.B. Campos, H.C. Nakao, Purification of human albumin by the combination of the method of Cohn with liquid chromatography, Braz. J. Med. Biol. Res., 31 (1998) 1383-1388.

23. J.H. Berglöf, S. Eriksson, J.M. Curling, Chromatographic preparation and in vitro properties of albumin from human plasma, J. Appl. Biochem., 5 (1983) 282-292.

24. S. Zhang, Y. Sun, Further studies on the contribution of electrostatic and hydrophobic interactions to protein adsorption on dye-ligand adsorbents, Biotechnol. Bioeng., 75 (2001) 710-717.

25. A. Denizli, E. Pişkin, Dye-ligand affinity systems, J. Biochem. Biophys. Methods, 49 (2001) 391-416.

26. A. Denizli, G. Köktürk, H. Yavuz, E. Pişkin, albumin adsorption from aqueous solutions and human plasma in a packed-bed column with Cibacron Blue F3GA-Zn(II) attached poly(EGDMA-HEMA) microbeads, React. Functl. Polym., 40 (1999) 195.

27. N.E. Katsos, N.E. Labrou, Y.D. Clonis, Interaction of L-glutamate oxidase with triazine dyes: selection of ligands for affinity chromatography, J. Chromatogr. B., 807 (2004) 277-285.

28. X. Dong, Y. Sun, Agar based magnetic affinity support for protein adsorption, Biotechnol. Prog., 1 ( 2 0 0 1 ) 738-743.

29. P.M. Boyer, J.T. Hsu, Protein purification by dyeligand chromatography, Advances in Biochemical Engineering, 49 (1993) 1-44.

30. D. Hangghi, P. Carr, Analytical evaluation of the purity of commercial preparations of Cibacron Blue F3GA and related dyes, Anal. Biochem., 149 (1985) 91-104.

31. J. Sereikate, Z. Bumeliene, V.A. Bumelis, Bovine serum albumin-dye binding, Acta Chromatographica, 15 (2005) 298-306.

32. R.A. Billington, J. Bak, A.M. Coscolla, M. Debidda, A.A. Genazzani, Triazine dyes are agonists of the NAADP receptor, British J. Pharmacol., 142 (2004) 1231-1246.

33. Y.D. Clonis, A. Atkinson, C.J. Burton, C.R. Lowe (eds) Reactive Dyes in Protein and Enzyme Technology, Macmillan, Basingstoke (1987).

34. C.R. Lowe, in: Topics in Enzyme and Fermantation Technology, A. Wiseman (ed), p. 78, Ellis Horwood, Chichester (1984).

35. J.B. Qu, .Q. Zhou, W. Wei, Z.G. Su, G.H. Ma, An effective way to hydrophilize gigaporous polystyrene microspheres as rapid chromatographic separation media for proteins, Langmuir, 24 (2008) 13646- 13652. 36. D.A. Barrett, M.S. Hartshornem M.A. Hussain, P.N. Shaw, M.C. Davies, Resistance to nonspecific protein adsorption by PVAL thin films adsorbed to a PS support matrix studied using SPR, Anal. Chem., 73 (2001) 5232-5239.

37. A. Tuncel A. Denizli, D. Purvis, C.R. Lowe, E. Pişkin, Cibacron Blue-F3GA attached monosize PVALcoated PS microspheres for specific albumin adsorption, J. Chromatogr., 634 (1993) 161-168.

38. E. Pişkin, A. Tuncel, A. Denizli, H. Ayhan, Monosize microbeads based on polystyrene and their modified forms for some selected medical and biological applications, J. Biomater. Sci. Polym. Ed., 5 (1994) 451- 471.

39. E. Pişkin, A. Tuncel, A, Denizli, E. Denkbaş, X. Kaitian, H. Ayhan, H. Çiçek, Nondegradable and biodegradable polymeric particles: preparation and some selected biomedical applications, in: Diagnostic Biosensor Polymers, A. Usmani, N. Akmal, Eds., American Chemical Society (ACS) Symposium Book Series 556, pp. 222-237, Washington, DC, 1994.

40. A. Denizli, G. Köktürk, H. Yavuz, E. Pişkin, Dye ligand column chromatography: albumin adsorption from aqueous media and human plasma with poly(EGDMA-HEMA) microbeads, J. Appl. Polym. Sci., 74 (1999) 2803-2810.

41. J. Ghosh, Protein separation using membrane chromatography: opportunities and challenges, J. Chromatogr. A., 952 (2002) 13-27.

42. A. Kassab, H. Yavuz, M. Odabaşı, A. Denizli, Human serum albumin chromatography by cibacron blue F3GA-derived microporous polyamide hollow fibre affinity membranes, J. Chromatogr. B, 746 (2000) 123-132.

43. S. Akgöl, N. Tüzmen, A. Denizli, Porous dye affinity beads for albumin separation from human plasma, J. Appl. Polym. Sci., 105 (2007) 1251-1260.

44. S.B. McLoughlin, C.R. Lowe, Applications of triazinyl dyes in protein purification, Rev. Prog. Coloration, 18 (1988) 16-28.

45. X.D. Tong, Y. Sun, Agar based magnetic affinity support for protein adsorption, Biotechnol. Prog., 17 (2001) 738-743.

46. Z.Y. Ma, Y.P. Guan, H.Z. Liu, Affinity adsorption of albumin on Cibacron blue F3GA-coupled non-porous micrometer-sized magnetic polymer microspheres, React. Functl. Polym., 66 (2006) 618-624.

47. F.J. Wolman, M. Graselli, E.E. Smolko, O. Cascone, Preparation and characterisation of cibacron blue F3GA poly(ethylene) hollowfibre membranes, Biotechnol. Lett., 22 (2000) 1407-1411.

48. J. Gu, Z. Lei, Y. Qizhi, Novel method for human serum albumin adsorption/separation from aqueous solutions and human plasma with Cibacron Blue F3GA-Zn(II) attached microporous affinity membranous capillaries, J. Membr. Sci., 287 (2007) 271-279.

49. F. Qu, Y. Guan, Z. Ma, Q. Zhang, Synthesis of Cibacron Blue F3GA-coupled magnetic PMMA nanospheres and their use for protein affinity separation, Polym. Int., 58 (2009) 888-892.

50. M. Miyauchi, J. Miao, T.J. Simmons, J.S. Dordick, R.J. Linhardt, Flexible electrospun fibers as an affinity material for the separation of bovine serum albumin, J. Chromatogr. Sep. Techniq., 2 (2011) 1-6.

51. H.Y. Shen, W.B. Xiong, J. Yang, Y. Gong, X.Y. Liu, M.O. Chen, Studies of human serum albumin adsorption on cibacron blue F3GA functional microspheres, J. Functl. Mater., 40 (2009) 1005-1008.

52. F.J. Wolman, E.E. Smolko, O. Cascone, M. Grasselli, Improved hollow-fibre membranes for dye-affinity chromatography, J. Sep. Sci., 28 (2005) 45-51.

53. A. Denizli, A. Tuncel, A. Kozluca, K. Ecevit, E. Pişkin, Cibacron Blue F3GA attached poly(vinyl alcohol) particles for specific albumin adsorption, Sep. Sci. Technol., 32 (1997) 1003-1015.

54. A. Denizli, A. Kozluca, B. Salih, E. Pişkin, Comparison of albumin binding capacities of three different reactive dye derivatized poly(EGDMA-HEMA) beads, J. Biomater. Sci. Polym. Ed., 8 (1997) 411-420.

55. A. Denizli, G. Köktürk, B. Salih, A. Kozluca, E. Pişkin, Congo Red and Zn(II) derivatized monosize poly(MMA-HEMA) microspheres as specific sorbent in metal chelate affinity of albumin, J. Appl. Polym. Sci., 63 (1997) 27-33.

56. H. Yavuz, E. Duru, Ö. Genç, A. Denizli, Cibacron Blue F3GA incorporated poly(methyl methacrylate) beads for albumin adsorption in batch system, Colloids Surfaces A, 223 (2003) 185-193.

57. M. Odabaşı, A. Denizli, Cibacron Blue F3GA-attached magnetic PHEMA beads for human serum albumin adsorption, Polym. Int., 53 (2004) 332-338.

58. H. Yavuz, A. Denizli, Dye affinity hollow fibers for albumin purification, Macromol. Biosci., 4 (2004) 84-91.

59. J. Zhang, Z. Zhang, Y. Song, H. Cai, Bovine serum albumin (BSA) adsorption with cibacron blue F3GA attached chitosan microspheres, React. Functl. Polym., 66 (2006) 916-923.

60. N. Demiryas, N. Tüzmen, I.Y. Galaev, E. Pişkin, A. Denizli, Poly(acrylamide-allyl glycidyl ether) cryogel as a novel stationary phase in dye-affinity chromatography, J. Appl. Polym. Sci., 105 (2007) 1808-1816.

61. L. Uzun, H. Yavuz, R. Say, A. Ersöz, A. Denizli, Poly(ethylene dimethacrylate-glycidyl methacrylate) monolith as stationary phase in dye-affinity chromatography, Ind. Eng. Chem. Res., 43 (2004) 6507- 6513.

62. G.E. McCreath, H.A. Chase, D.R. Purvis, C.R. Lowe, Novel afinity separations based on perfluorocarbon emulsions, J. Chromatogr., 629 (1993) 201-213.

63. J. Zhu, J. Yang, G. Sun, Cibacron Blue F3GA functionalized poly(vinyl alcohol-co-ethylene) nanofibrous membranes as high effivient affinity adsorption materials, J. Membr. Sci., 385 (2011) 269- 276.

64. S.T. Camlı, S. Şenel, A. Tuncel, Cibacron Blue F3GAattached uniform and macroporous poly(St-DVB) particles for specific albumin adsorption, J. Biomater. Sci. Polym. Ed., 8 (1999) 875-889.

65. L. Uzun, M. Odabaşı, Y. Arıca, A. Denizli, Poly(StDVB) monodisperse microspheres as specific sorbent in dye affinity adsorption of albumin, Sep. Sci. Technol., 39 (2004) 2401-2418.

66. E. Tamahkar, C. Babaç, T. Kutsal, E. Pişkin, A. Denizli, A., Bacterial cellulose nanofibers for albumin depletion from human serum, Process Biochem., 45 (2010) 1713-1719.

67. D.C. Nash, H.A. Chase, odification of postyrenic matrices for the purification of proteins, J. Chromatogr. A, 776 (1997) 55-63.

68. M. Nigel, R. Lindner, R. Jeffcoat, C.R. Lowe, Design and applications of biomimetic antraquinone dyes, J. Chromatogr., 473 (1989) 227-240.

69. P.M. Boyer, J.T. Hsu, Effects of ligand concentration on protein adsorption in dye-ligand adsorbents, Chem. Eng. Sci., 47 (1992) 241-251.

70. X. Zeng, E. Ruckenstein, Supported chitosan dye affinity membranes and their protein adsorption, J. Membr. Sci., 117 (1996) 271-278.

71. Y. Li , H.G. Spencer, in: Polymers of Biological and Biomedical Significance, W. Shalaby eds., ACS, Washington, DC, 1994, pp. 297-305.

72. H.A. Chase, Prediction of the performance of preparative affinity chromatography, J. Chromatogr., 297 (1984) 179-202.

73. D. Muller-Schulte, S. Manjini, M.A. Vijayalakshmi, Comparative affinity chromatographic studies using novel grafted polyamide and poly(vinyl alcohol) media, J. Chromatogr., 539 (1991) 307-314.

74. Bio-Rad, Life Science Research Product Catalog (1995).

75. L. Urbas, P. Brne, B. Gabor, M. Barut, M. Strlic, T.C. Petric, A. Strancar, Depletion of high abundance proteins from human plasma using a combination of an affinity and pseudo-affinity column, J. Chromatogr. A., 1216 (2009) 2689-2694.

76. X. Sun, Z. Chai, Urea-formaldehyde resin monolith as a new packing material for affinity chromatography, J. Chromatogr.A., 943 (2002) 209-218.

77. R. Gutierrez, E.M. Martin del Valle, M.A. Galan, Immobilized metal ion affinity chromatography: status and trends, Sep. Purif. Rev., 36 (2007) 71-111.

78. S.Y. Suen, Y.C. Liu, C.S. Chang, Exploiting immobilized metal affinity membranes for the isolation or purification of therapeutically relevant species, J. Chromatogr. A., 797 (2003) 305-319.

79. J. Porath, J. Carlsson, I. Olsson and G. Belfrage, Metal-chelate affinity chromatography, a new approach to protein fractionation, Nature, 258 (1975) 598-599.

80. L. Andersson, E. Sulkowski, J. Porath, Immobilized metal ion affinity chromatography of serum albumins, Bioseparation, 2 (1991) 15-22.

81. R.D. Johnson, R.J. Todd, F.H. Arnold, J. Chromatogr. A., Multipoint binding in metal affinity chromatography II: effect of pH and imidazole of chromatographic retention of engineered histidine containing cytochromes, 725 (1996) 225-235.

82. S. Jain, M.N. Gupta, An integrated process for separation of major and minor proteins from goat serum, Appl. Biochem. Biotechnol., 125 (2005) 53- 62.

83. B. Garipcan, N. Bereli, S. Patır, Y. Arıca, A. Denizli, Synthesis of poly(hydroxyethyl methacrylatemethacryloamidoalanine) membranes and iIts utilization as a affinity sorbent for lysozyme sdsorption, Macromol. Biosci., 1 (2001) 332-340.

84. A. Denizli, B. Salih, E. Pişkin, Congo red and Cu(II) carrying poly(EGDMA-HEMA) microbeads as specific sorbents: albumin adsorption/desorption, J. Chromatogr. A, 731 (1996) 57-63.

85. A. Denizli, G. Köktürk, B. Salih, A. Kozluca, E. Pişkin, Congo Red and Zn(II) derivatized monosize poly(MMA-HEMA) microspheres as specific sorbent in metal chelate affinity of albumin, J. Appl. Polym. Sci., 63 (1997) 27-33.

86. A. Denizli, B. Salih, S. Şenel, M.Y. Arıca, New metal chelate sorbent for albumin adsorption: Cibacron Blue F3GA-Zn(II) attached microporous PHEMA membranes, J. Appl. Polym. Sci., 68 (1998) 657- 664.

87. M. Odabaşı, B. Garipcan, A. Denizli, Preparation of a novel metal-chelate affinity beads for albumin isolation from human plasma, J. Appl. Polym. Sci., 90 (2003) 2840-2847.

88. M. Odabaşı, L. Uzun, A. Denizli, Porous magnetic chelator support for albumin adsorption by immobilized metal affinity separation, J. Appl. Polym. Sci., 93 (2004) 2501-2510.

89. B. Garipcan, M. Andaç, L. Uzun, A. Denizli, Methacryloylamidocysteine fuctionalized PHEMA beads and its design as a metal-chelate affinity support for human serum albumin adsorption, React. Functl. Polym., 59 (2004) 119-128.

90. V. Karakoç, E. Yılmaz, D. Türkmen, N. Öztürk, S. Akgöl, A. Denizli, Selective separation of human serum albumin with copper(II) chelated PHEMA based nanoparticles, Int. J. Biol. Macromol., 45 (2009) 188-199.

91. A. Denizli, F. Denizli, E. Pişkin, Diamine-plasma treated and Cu(II)-incorporated PHEMA microbeads for albumin adsorption, J. Biomater. Sci., Polym. Ed., 10 (1999) 305-318.

92. A. Denizli, B. Salih, E. Pişkin, Comparison of metal chelate affinity sorption of BSA onto dye/Zn(II) derived poly(EGDMA-HEMA) beads, J. Appl. Polym. Sci., 65 (1997) 2085.

93. S. Akgöl, D. Türkmen, A. Denizli, Cu(II)-incorporated, histidine-containing, magnetic-metal-complexing beads as specific sorbents for the metal chelate affinity of albumin, J. Appl. Polym. Sci., 93 (2004) 2669-2677.

94. L. Uzun, A. Denizli, Metal-chelated polyamide hollow fibres for human serum albumin separation, J. Appl. Polym. Sci., 86 (2002) 3346-3354.

95. A. Denizli, H. Yavuz, Y. Arıca, Monosize and nonporous p(HEMA-MMA) microparticles designed as dye-and metal-chelate affinity sorbents, Colloids Surfaces A., 174 (2000) 307-317.

96. A.V, Patwardhan, M.M. Ataai, Site accessibility and the pH dependence of the saturation capacity of a highly cross-linked matrix IMAC of BSA on chelating Superose, J. Chromatogr. A., 767 (1997) 11-23.

97. H. Yasuda, (ed.) (1985), Plasma polymerization, Academic Press Inc., Orlando.

98. R. d’Agostino, (ed.) (1991) Plasma deposition, treatment and etching of polymers, Academic Press, New York.

99. A. Denizli, B. Salih and E. Pişkin, in: Plasma Processing of Polymers, R. d’Agostino, (ed), pp. 423- 433, Kluwer Academic Publ., 1997.

100. I. Safarik, M. Safarikova, Magnetic techniques for the isolation and purification of proteins and peptides, Biomagn. Res. Technol., 2 (2004) 1-17.

100

101. I. Safarik, M. Safarikova, Use of magnetic techniques for for the isolation of cells, J. Chromatogr. B., 722 (1999) 33-53.

101

102. M. Odabaşı, A. Denizli, Cibacron Blue F3GA incorporated magnetic PHEMA beads for lysozyme adsorption, J. Appl. Polym. Sci., 93 (2004) 719.

102

103. Z.M. Saiyed, S.D. Telang, C.N. Ramchand, Application of magnetic techniques in the field of drug discovery and biomedicine, Biomagn. Res. Technol., 1 (2003) 1-8.

103

104. B. Xue, Y. Sun, Protein adsorption equilibra and kinetics to a poly(vinyl alcohol)-based magnetic affinity support, J. Chromatogr. A., 921 (2001) 109- 119.

104

105. Z.Y. Ma, Y.P. Guan, X.Q. Liu, H.Z. Liu, Synthesis of magnetic chelator for high-capacity immobilized metal affinity adsorption of protein by cerium initiated graft polymerization, Langmuir, 21 (2005) 6987-6994.

105

106. M. Safarikova, I. Roy, M. N. Gupta, I. Safarik, Magnetic alginate microparticles for purification a-amylases, J. Biotechnol., 105 (2003) 255-260.

106

107. W.S. Xing, W. Sun, Y. Zhou, Preparation of Cu(II)/ NTA-derivatized branch polyglycerol magnetic nanoparticles for protein adsorption, J. Nanopart. Res., 12 (2010) 2467-2472.

107

108. X. Bi, K.L. Yang, Complexation of copper ions with histidine containing tripeptides immobilized on solid surfaces, Langmuir, 23 (2007) 11067-11073.

108

109. A. Poma, A.P.F. Turner, S.A. Piletsky, Advances in the manufacture of MIP nanoparticles, Trends Biotechnol., 28 (2010) 629-637.

109

110. D. Türkmen, N. Öztürk, S. Akgöl, A. Elkak, A. Denizli, Phenylalanine containing hydrophobic nanospheres for antibody purification, Biotechnol. Prog., 2 (2008) 1297-1303.

110

111. A. Luchini, C. Longo, V. Espina, E.F. Petricoin, L.A. Liotta, Nanoparticle technology: addressing the fundamental roadblocks to protein biomarker discovery, J. Mater. Chem., 19 (2009) 5071-5077.

111

112. D. Türkmen, N. Öztürk, S. Akgöl, S., A. Denizli, High capacity removal of Hg(II) ions by PHEMA nanoparticles, in: Environanotechnology, M. Fan, C.P. Huang, R.B. Slimane, I.G. Wright, A.E. Bland, Z.I. Wang, eds., Elsevier B.V., The Netherland, 2010.

112

113. Y. Yu, Y. Sun, Macroporous Poly(GMA-TAIC-DVB) matrix as an anion-exchange resin for protein adsorption, J. Chromatogr. A., 855 (1999) 129-136.

113

114. C.G. Gomez, M.C. Strumia, Synthesis and modification of supports with an alkylamine and their use in albumin adsorption, J. Polym. Sci. Part A: Polym. Chem., 46 (2008) 2557-2566.

114

115. X. Hou, B. Liu, X. Deng, B. Zhang, J. Yan, Monodisperse polystyrene microspheres by dispersion copolymerization of styrene and other vinyl comonomers: characteriation and protein adsorption properties, J. Biomed. Mater. Res., 83A (2007) 280-289.

115

116. M.A. Torres, M.M. Beppu, C.C. Santana, Characterization of chemically modifed chitosan microspheres as adsorbents using albumin and lysozyme, Braz. J. Chem. Eng., 24 (2007) 2-15.

116

117. N. Belattar, T. Mekhalif, Adsorption of human serum albumin on to synthesized dye-like polystyrene gel beads, Mater. Sci. Eng., 24 (2004) 507-511.

117

118. N.P. Gonzalez, M.C. Strumia, C.I.A. Igarzabal, Macroporous bead modification with polyethyleneimines of different molecular weights as polycationic ligands, J. Appl. Polym. Sci., 16 (2010) 2857-2865.

118

119. X. He, Y. Chen, L. Wang, P. Wu, P. Gong, H. Huo, Selective separation of proteins with pH dependent magnetic nanoadsorbents, Nanotechnolohy, 18 (2007) 1-6.

119

120. K.H. Gebauer, J. Thömmes, M.R. Kula, Plasma protein fractionation with advanced membrane adsorbents, Biotechnol. Bioeng., 54 (1997) 181-189.

120

121. A. Pingali, B. McGuinness, H. Keshishian, J.F. Wu, L. Varady, F. Regbier, Peptides as affinity surfaces for protein purification, J. Mol. Recogn., 9 (1996) 426- 432.

121

122. D. Müller-Schulte, Novel media for chromatography and immobilization using a radiation grafting technique, J. Chromatogr., 510 (1990) 115-121.

122

123. W.D. Chen, X.D. Tong, X.Y. DOng, Y. Sun, Expanded bed adsorption of protein with Spherodex M, Biotechnol. Prog., 19 (2003) 880.

123

124. H.F. Boden, K. Pommerening, M. Becker, et.al., Bead cellulose derivatives as supports for immobilization and chromatographic purification of proteins, J. Chromatogr., 552 (1991) 389.

124

125. L. Yang, L.Y. Jia, H.F. Zou, Immobilized Ni2+-IDA metal chelating affinty membrane chromatography for HSA purification, Sheng Wu Bao, 16 (2000) 74- 77.

125

126. N. Avcıbaşı, M. Uygun, M.E. Çorman, S. Akgöl, A, Denizli, Application of supermacroporous monolithic hydrophobic cryogel in capturing of albumin, Appl. Biochem. Biotechnol., 162 (2010) 2232-2243.

126

127. N. Bereli, M. Andac, G. Baydemir, R. Say, I.Y. Galaev, A. Denizli, Protein recognition via ion-coordinated molecularly imprinted supermacroporous cryogels, J. Chromatogr. A, 1190 (2008) 18.

127

128. N. Bereli, Y. Saylan, L. Uzun, R. Say, A. Denizli, L-Histidine imprinted supermacroporous cryogels for protein recognition, Sep. Purif. Technol., 82 (2011) 28-35.

128

129. C.J. Tan, H.G. Chua, K.H. Ker, Y.Q. Tong, Proparation of BSA surface imprinted submicrometer particles with magnetic suscepribility through core-shell miniemulsion polymerization, Anal. Chem., 80 (2008) 683.

129

130. X. Pang, G. Cheng, S. Lu, E. Tang, Synthesis of polyacrylamide gel beads with electrostatic functional groups for the molecular imprinting of BSA, Anal. Bional. Chem., 384 (2006) 225-230.

130

131. G. Fu, J. Zhao, H. Yu, K. Liu, B. He, BSA imprinted polymer gels preparaed by graft copolymerization of acrylamide on chitosam, React. Functl. Polym., 67 (2007) 442-450.

131

132. F. Bonini, S. Piletsky, A.P.F. Turner, A. Speghini, A. Bossi, Surface imprinted beads for the recognition of human serum albumin, Biosens. Bioelectron., 22 (2007) 2322-2328.

132

133. G. Demirel, G. Özçetin, E. Turan, T. Çaykara, pH-temperature sensitive imprinted ionic poly(butylacryl-amide-acryalmide-maleic acid) hydrogels for BSA, Macromol. Biosci., 5 (2005) 1032-1037.

133

134. X. Pang, G. Cheng, Y. Zhang, S. Lu, Soft-wet polyacrylamide gel beads with the imprinting of bovine serum albumin, React. Functl. Polym., 66(2006) 1182-1188.

134

135. F. Li, X.M. Li, S.S. Zhang, One-pot preparation of silica supported hybrid IMAC adsorbent with macroporous surface based on surface imprinting coating technique combined with polysaccharide incorporated sol-gel process, J. Chromatogr. A., 1129 (2006) 223-230.

135

136. C.J. Tan, S. Wangrangsimakul, R. Bai, Y.W. Tong, Chem. Mater., Defining the interactions between proteins and surfactants for nanoparticle surface imprinting through miniemulsion polymerization, Chem. Mater., 20 (2008) 118-127.

136

137. Z.D. Hua, Z.Y. Chen, Y.Z. Li, M.P. Zhao, Thermosensitive and salt-sensitive molecularly imprinted hydrogel for bovine serum albumin, Langmuir, 24 (2008) 5773-5780.

137

138. Y. Li, H.H. Yang, Q.H. You, Z.X. Zhuang, X.R. Wang, Protein recognition via surface molecularly imprinted polymer nanowires, Anal. Chem., 78 (2006) 317-320.

138

139. Z. Lin, F. Yang, X. He, X. Zhao, Y. Zhang, Preparation and evaluation of a macroporous molecularly imprinted silica column for recognition of proteins by HPLC, J. Chromatogr. A., 1216 (2009( 8612-8622.

139

140. P.P. Tang, J.B. Cai, Q.D. Su, Synthesis and adsorption study of BSA surface imprinted polymer on CdS quantum dost, Chin. J. Chem. Phys., 23 (2010) 195- 200.

140

141. W. Zhang, X.W. He, Y. Chen, W.Y. Li, Y.K. Zhang, MIP anchored on the surface of denaturated BSAmodified CdTe quantum dots as fluorescent artificial receptor for recognition of target protein, Biosens. Bioelectron., 2011, in press.

141

142. N. Bereli, Y. Saylan, L. Uzun, R. Say, A. Denizli, L-Histidine imprinted supermacroporous cryogels for protein recognition, Sep. Purif. Technol., 82 (2011) 28-35, 2011.

142

143. Q.Q. Gai, F. Qu, T. Zhang, Y.K. Zhang, The preparation of BSA surface imprinted superparamagnetic polymer with the assistance of basic functional monomer and its application for protein separation, J. Chromatogr. A., 1218 (2011) 3489-3495.

143

144. F. Li, J. Li, S.S. Zhang, Molecularly imprinted polymer grafted on polysaccharide microsphere surface by the sol-gel process for protein recognition, Talanta, 74 (2008) 1247-1255.

144

145. Z. Hua, Z. Chen, Y. Li, M. Zhao, Thermosensitive and salt sensitive molecularly imprinted hydrogel for bovine serum albumin, Langmuir, 24 (2008) 5773- 5780.

145

146. M. Zhang, J. Huang, P. Yu, X. Chen, Preparation and characteristics of protein molecularly imprinted membranes on the surface of multiwalled carbon nanotubes, Talanta, 81 (2010) 162-166.