參考文獻 |
1. Roberts, M.J., M.D. Bentley, and J.M. Harris, Chemistry for peptide and protein PEGylation. 2002, Advanced drug delivery reviews. p. 459-476.
2. Veronese, F.M., Peptide and protein PEGylation: a review of problems and solutions. 2001, Biomaterials. p. 405-417.
3. Na, D.H., et al., Stability of PEGylated salmon calcitonin in nasal mucosa. 2004, Journal of pharmaceutical sciences. p. 256-261.
4. Shiraki, M., T. Sugimoto, and T. Nakamura, Effects of a single injection of teriparatide on bone turnover markers in postmenopausal women. 2013, Osteoporosis International. p. 219-226.
5. Sowa, H., E. Hamaya, and T. Yamamoto, Teriparatide: human recombinant parathyroid hormone (1-34) as a daily subcutaneous injection. 2011, Clinical calcium. p. 9-16.
6. A., D., Will biobetters beat biologics? 2011.
7. N., T., Biobetters a big opportunity for biopharm and CROs. 2011.
8. Dinwoodie, N., Biobetters and the Future Biologics Market. 2011. p. 31-35.
9. Alconcel, S.N.S., A.S. Baas, and H.D. Maynard, FDA-approved poly (ethylene glycol)-protein conjugate drugs. 2011, Polymer Chemistry. p. 1442-1448.
10. Fee, C.J. and J.M. Van Alstine, PEG-proteins: reaction engineering and separation issues. 2006, Chemical engineering science. p. 924-939.
11. Ettre, L.S., Nomenclature for chromatography (IUPAC Recommendations 1993). 1993, Pure and applied chemistry. p. 819-872.
12. Kopaciewicz, W., M.A. Rounds, and F.E. Regnier, Stationary phase contributions to retention in high-performance anion-exchange protein chromatography: ligand density and mixed mode effects. 1985, Journal of Chromatography A. p. 157-172.
13. Melander, W.R., Z. El Rassi, and C. Horv獺th, Interplay of hydrophobic and electrostatic interactions in biopolymer chromatography: Effect of salts on the retention of proteins. 1989, Journal of Chromatography A. p. 3-27.
14. Norde, W., Energy and entropy of protein adsorption. 1992, Journal of dispersion science and technology. p. 363-377.
15. Yamamoto, S. and T. Ishihara, Ion-exchange chromatography of proteins near the isoelectric points. 1999, Journal of Chromatography A. p. 31-36.
16. Kroeff, E.P. and D.J. Pietrzyk, Investigation of the retention and separation of amino acids, peptides, and derivatives on porous copolymers by high performance liquid chromatography. 1978, ANALYTICAL CHEMISTRY. p. 502-511.
17. Dismer, F. and J. Hubbuch, A novel approach to characterize the binding orientation of lysozyme on ion-exchange resins. 2007, Journal of Chromatography A. p. 312-320.
18. Gilar, M. and A. Jaworski, Retention behavior of peptides in hydrophilic-interaction chromatography. 2011, Journal of Chromatography A. p. 8890-8896.
19. Barak, J.A. and J.A. Kennedy, HPLC Retention Thermodynamics of Grape and Wine Tannins. 2013, Journal of agricultural and food chemistry. p. 4270-4277.
20. Aguilar, M.-I., et al., RP-HPLC binding domains of proteins. 1998, Analytical chemistry. p. 5010-5018.
21. McNay, J.L.M. and E.J. Fernandez, Protein unfolding during reversed phase chromatography: I. Effect of surface properties and duration of adsorption. 2001, Biotechnology and bioengineering. p. 224-232.
22. McNay, J.L.M., J.P. O′Connell, and E.J. Fernandez, Protein unfolding during reversed phase chromatography: II. Role of salt type and ionic strength. 2001, Biotechnology and bioengineering. p. 233-240.
23. Tsai, C.-W., et al., Study of conformation effects on the retention of small peptides in reversed-phase chromatography by thermodynamic analysis and molecular dynamics simulation. 2010, The Journal of Physical Chemistry B. p. 11620-11627.
24. Gilar, M., H. Xie, and A. Jaworski, Utility of retention prediction model for investigation of peptide separation selectivity in reversed-phase liquid chromatography: impact of concentration of trifluoroacetic acid, column temperature, gradient slope and type of stationary phase. 2009, Analytical chemistry. p. 265-275.
25. Finkelstein, J.S., et al., The effects of parathyroid hormone, alendronate, or both in men with osteoporosis. 2003, New England Journal of Medicine. p. 1216-1226.
26. Potts, J.T., Parathyroid hormone: past and present. 2005, Journal of endocrinology. p. 311-325.
27. Deal, C. and J. Gideon, Recombinant human PTH 1-34 (Forteo): an anabolic drug for osteoporosis. 2003, Cleveland Clinic journal of medicine,. p. 585-586.
28. Werle, M. and A. Bernkop-Schnurch, Strategies to improve plasma half life time of peptide and protein drugs. 2006, Amino acids. p. 351-367.
29. Narayanan, D., et al., In Vitro and in Vivo Evaluation of Osteoporosis Therapeutic Peptide PTH 1??4 Loaded PEGylated Chitosan Nanoparticles. 2013, Molecular pharmaceutics. p. 4159-4167.
30. Israelachvili, J., The different faces of poly (ethylene glycol). 1997, Proc. Natl. Acad. Sci. p. 8378-8379.
31. Morar, A.S., J.L. Schrimsher, and M.D. Chavez, PEGylation of proteins: A structural approach. 2006, Drug discovery today.
32. Heymann, B. and H. Grubm羹ller, Elastic properties of poly (ethylene-glycol) studied by molecular dynamics stretching simulations. 1999, Chemical physics letters. p. 425-432.
33. Liu, K.-J. and J.L. Parsons, Solvent effects on the preferred conformation of poly (ethylene glycols). 1969, Macromolecules. p. 529-533.
34. 洪世勳, 熱力學分析聚乙烯二醇在水合程序中結構變化, in Department of Chemical and Materials Engineering. 2008, National Central University: Taiwan.
35. Chang, Y., et al., A systematic SPR study of human plasma protein adsorption oxide) triblock copolymer surfaces. 2010, Journal of Biomedical Materials Research Part A. p. 400-408.
36. Chiag, Y.-C., et al., Biofouling resistance of ultrafiltration membranes controlled by surface self-assembled coating with PEGylated copolymers. 2012, Langmuir. p. 1399-1407.
37. Jain, A. and S.K. Jain, PEGylation: an approach for drug delivery. A review. 2008, Critical Reviews™ in Therapeutic Drug Carrier Systems.
38. Meng, F., et al., PEGylation of human serum albumin: reaction of PEG-phenyl-isothiocyanate with protein. 2008, Bioconjugate chemistry. p. 1352-1360.
39. Harris, J.M., PEGylation-A" Sunset" technology?-Recent advances and new applications suggest a favorable future for PEGylation technology. 2004.
40. Working, P.K., et al., Safety of poly (ethylene glycol) and poly (ethylene glycol) derivatives. 1997, Poly (Ethylene Glycol). p. 45-57.
41. Abuchowski, A., et al., Alteration of immunological properties of bovine serum albumin by covalent attachment of polyethylene glycol. 1977, J. Biol. Chem. p. 3578-3581.
42. Bailon, P. and C.-Y. Won, PEG-modified biopharmaceuticals. 2009.
43. Kinstler, O.B., et al., Characterization and stability of N-terminally PEGylated rhG-CSF. 1996, Pharmaceutical Research. p. 996-1002.
44. Na, D.H. and K.C. Lee, Capillary electrophoretic characterization of PEGylated human parathyroid hormone with matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. 2004, Analytical biochemistry. p. 322-328.
45. Annathur, G.V., et al., Application of arginine as an efficient eluent in cation exchange chromatographic purification of a PEGylated peptide. 2010, Journal of chromatography A. p. 3783-3793.
46. Cai, Y. and P. Yue, Separation of exenatide analogue mono-PEGylated with 40kDA polyethylene glycol by cation exchange chromatography. 2011, Journal of chromatography A. p. 6953-6960.
47. Wang, X., et al., Preparation and characterization of PEGylated terlipressin. 2010, Journal of applied polymer science. p. 3220-3224.
48. Na, D.H. and P.P. DeLuca, PEGylation of octreotide: I. Separation of positional isomers and stability against acylation by poly (D, L-lactide-co-glycolide). 2005, Pharmaceutical research. p. 736-742.
49. Park, E.J., K.C. Lee, and D.H. Na, Separation of positional isomers of mono-poly (ethylene glycol)-modified octreotides by reversed-phase high-performance liquid chromatography. 2009, Journal of chromatography A. p. 7793-7797.
50. Pabst, T.M., et al., Comparison of strong anion-exchangers for the purification of a PEGylated protein. 2007, Journal of Chromatography A. p. 172-182.
51. Muller, E., et al., Solubility and binding properties of PEGylated lysozyme derivatives with increasing molecular weight on hydrophobic-interaction chromatographic resins. 2010, Journal of Chromatography A. p. 4696-4703.
52. Dou, H., et al., Synthesis and Purification of Mono-PEGylated Insulin. 2007, Chemical biology & drug design. p. 132-138.
53. Pai, S.S., T.M. Przybycien, and R.D. Tilton, Protein PEGylation attenuates adsorption and aggregation on a negatively charged and moderately hydrophobic polymer surface. 2010, Langmuir. p. 18231-18238.
54. Lenhoff, A.M., Protein adsorption and transport in polymer-functionalized ion-exchangers. 2011, Journal of Chromatography A. p. 8748-8759.
55. Nguyen Viet, C. and B. Trathnigg, Determination of thermodynamic parameters in reversed phase chromatography for polyethylene glycols and their methyl ethers in different mobile phases. 2009, Journal of separation science. p. 464-474.
56. Dieterle, M., T. Blaschke, and H. Hasse, Microcalorimetric study of adsorption of human monoclonal antibodies on cation exchange chromatographic materials. 2008, Journal of Chromatography A. p. 1-9.
57. Pinholt, C., et al., Influence of PEGylation with linear and branched PEG chains on the adsorption of glucagon to hydrophobic surfaces. 2011, European Journal of Pharmaceutics and Biopharmaceutics. p. 139-147.
58. Werner, A., T. Blaschke, and H. Hasse, Microcalorimetric study of the adsorption of PEGylated lysozyme and PEG on a mildly hydrophobic resin: influence of ammonium sulfate. 2012, Langmuir. p. 11376-11383.
59. Blaschke, T., A. Werner, and H. Hasse, Microcalorimetric study of the adsorption of native and mono-PEGylated bovine serum albumin on anion-exchangers. 2013, Journal of Chromatography A. p. 58-68.
60. Ueberbacher, R., et al., Hydrophobic interaction chromatography of proteins: Thermodynamic analysis of conformational changes. 2010, Journal of Chromatography A. p. 184-190.
61. Lin, F.-Y., W.-Y. Chen, and H.-M. Chen, Microcalorimetric study of the effect of hexa-histidine tag and denaturant on the interaction mechanism between protein and metal-chelating gel. 2001, Journal of colloid and interface science. p. 333-339.
62. Perkins, T.W., et al., Protein retention in hydrophobic interaction chromatography: modeling variation with buffer ionic strength and column hydrophobicity. 1997, Journal of chromatography A. p. 1-14.
63. Wiggins, P.M., Hydrophobic hydration, hydrophobic forces and protein folding. 1997, Physica A: Statistical Mechanics and its Applications. p. 113-128.
64. Barnes, P., et al., Cooperative effects in simulated water. 1979, Nature. p. 459-464.
65. Andrade, J.D., Surface and interfacial aspects of biomedical polymers. Vol. 2. 1985: Journal of Polymer Science Part C: Polymer Letters.
66. Flynn, J.H., The Temperature integral its use and abuse. 1997, Thermochimica Acta. p. 83-92.
67. Cole, L.A. and J.G. Dorsey, Temperature dependence of retention in reversed-phase liquid chromatography. 1. Stationary-phase considerations. 1992, Anal. Chem. p. 1317-1323.
68. Boysen, R.I., et al., Observations on the origin of the non-linear van′t Hoff behaviour of polypeptides in hydrophobic environments. 1999, Biophysical chemistry. p. 79-97.
69. Wieprecht, T., et al., Role of helix formation for the retention of peptides in reversed-phase high-performance liquid chromatography. 2001, Journal of Chromatography A. p. 1-12.
70. Vailaya, A. and C. Horv獺th, Exothermodynamic relationships in liquid chromatography. 1998, The Journal of Physical Chemistry B. p. 701-718.
71. Vailaya, A. and C. Horvath, Retention thermodynamics in hydrophobic interaction chromatography. 1996, Ind. Eng. Chem. Res. p. 2964-2981.
72. Vailaya, A. and C. Horvath, Retention in hydrophobic interaction chromatography and dissolution of nonpolar gases in water. 1996, Biophysical chemistry. p. 81-93.
73. Bian, L., D. Wu, and W. Hu, Temperature induced conformational transition oliquid chromatography. 2014, Biomedical Chromatography. p. 295-301.
74. Rowe, G.E., et al., Thermodynamics of hydrophobic interaction chromatography of acetyl amino acid methyl esters. 2008, Journal of Chromatography A. p. 243-253.
75. Wong, S.S., Reactive groups of proteins and their modifying agents. 1991, Chemistry of Protein Conjugation and Crosslinking. p. 27-29.
76. 高偉紘, 利用逆相管柱層析並輔以溶解度參數計算進行聚乙烯二醇化人類副甲狀腺素位置異購物之分離, in Department of Chemical and Materials Engineering. 2013, National Central University: Taiwan.
77. Na, D.H., et al., Identification of the modifying sites of mono-PEGylated salmon calcitonins by capillary electrophoresis and MALDI-TOF mass spectrometry. 2001, Journal of Chromatography B: Biomedical Sciences and Applications. p. 259-263.
78. Plesner, B., et al., Effects of PEG size on structure, function and stability of PEGylated BSA. 2011, European Journal of Pharmaceutics and Biopharmaceutics. p. 399-405.
79. Svergun, D.I., et al., Solution structure of poly (ethylene) glycol-conjugated hemoglobin revealed by small-angle X-ray scattering: implications for a new oxygen therapeutic. 2008, Biophysical journal. p. 173-181.
80. Reed, J. and T.A. Reed, A set of constructed type spectra for the practical estimation of peptide secondary structure from circular dichroism. 1997, Analytical biochemistry. p. 36-40. |