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REFERENCES

  • Asenjo, JA. 1990. Selection of operations in separation processes. In Separation Processes in Biotechnology, AsenjoJA (ed.) Marcel Dekker: New York; 316.
  • Asenjo, JA Andrews, BA. 2004. Is there a rational method to purify proteins?: from expert systems to proteomics. J. Mol. Recognit. 17: 236247.
  • Carroll, DL. 2009. D. L. Carroll's FORTRAN Genetic Algorithm Driver, http://cuaerospace.com/carroll/ga.html accessed in March 2009.
  • Gu, T. 1995. Mathematical Modeling and Scale-Up of Liquid Chromatography. Berlin: Springer.
  • Lazo, C. 1999. Simulation of Liquid Chromatography and Simulated Moving Bed (SMB) Systems. Sudienarbeit Technische Universitat: Hamburg-Harburg.
  • Leser, EW. 1996. Prot_Ex: an expert system for selecting the sequence of processes for the downstream purification of proteins. Ph.D. Thesis, University of Reading.
  • Leser, EW, Asenjo, JA. 1992. The rational design of purification processes for recombinant proteins. J. Chromatogr. 584: 3542.
  • Li, W., Zhang, S., Sun, Y. 2004. Modeling of the linear-gradient dye-ligand affinity chromatography with a binary adsorption isotherm. Biochem. Eng. J. 22: 6370.
  • Lienqueo, ME, Leser, EW, Asenjo JA. 1996. An expert system for the selection and synthesis of multistep protein separation processes. Comput. Chem. Eng. 20: S189S194.
  • Orellana CA., Shene C., Asenjo JA. 2009. Mathematical modeling of elution curves for a protein mixture in ion exchange chromatography applied to high protein concentration. Biotechnol. Bioeng. 104: 572581.
  • Shene C, Lucero A, Andrews BA, Asenjo, JA. 2006. Mathematical modeling of elution curves for a protein mixture in ion exchange chromatography and for the optimal selection of operational conditions. Biotechnol. Bioeng. 95: 704713.