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Journal Abstract Search

137 related items for PubMed ID: 16952152

  • 1. Protein instability during HIC: hydrogen exchange labeling analysis and a framework for describing mobile and stationary phase effects.
    Xiao Y, Jones TT, Laurent AH, O'Connell JP, Przybycien TM, Fernandez EJ.
    Biotechnol Bioeng; 2007 Jan 01; 96(1):80-93. PubMed ID: 16952152
    [Abstract] [Full Text] [Related]

  • 2. Protein instability during HIC: describing the effects of mobile phase conditions on instability and chromatographic retention.
    Xiao Y, Freed AS, Jones TT, Makrodimitris K, O'Connell JP, Fernandez EJ.
    Biotechnol Bioeng; 2006 Apr 20; 93(6):1177-89. PubMed ID: 16444741
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  • 3. Hydrophobic interaction chromatography selectivity changes among three stable proteins: conformation does not play a major role.
    Jones TT, Fernandez EJ.
    Biotechnol Bioeng; 2004 Aug 05; 87(3):388-99. PubMed ID: 15281113
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  • 4. Protein stability and structure in HIC: hydrogen exchange experiments and COREX calculations.
    Gospodarek AM, Smatlak ME, O'Connell JP, Fernandez EJ.
    Langmuir; 2011 Jan 04; 27(1):286-95. PubMed ID: 21117672
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  • 5. Generalizing a two-conformation model for describing salt and temperature effects on protein retention and stability in hydrophobic interaction chromatography.
    Xiao Y, Rathore A, O'Connell JP, Fernandez EJ.
    J Chromatogr A; 2007 Jul 20; 1157(1-2):197-206. PubMed ID: 17524412
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  • 6. Protein instability during HIC: evidence of unfolding reversibility, and apparent adsorption strength of disulfide bond-reduced alpha-lactalbumin variants.
    Deitcher RW, Xiao Y, O'Connell JP, Fernandez EJ.
    Biotechnol Bioeng; 2009 Apr 01; 102(5):1416-27. PubMed ID: 19152385
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  • 8. Loading, stationary phase, and salt effects during hydrophobic interaction chromatography: alpha-lactalbumin is stabilized at high loadings.
    Fogle JL, O'Connell JP, Fernandez EJ.
    J Chromatogr A; 2006 Jul 21; 1121(2):209-18. PubMed ID: 16690064
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  • 9. Angiotensin I retention behavior on Butyl-Sepharose under linear loading chromatographic conditions.
    Nunes CA, Dias-Cabral AC.
    J Chromatogr A; 2009 Mar 20; 1216(12):2332-8. PubMed ID: 19168184
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  • 10. Hydrophobic interaction chromatography: harnessing multivalent protein-surface interactions for purification procedures.
    Jennissen HP.
    Methods Mol Biol; 2005 Mar 20; 305():81-99. PubMed ID: 15943009
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  • 11. Evaluation of selectivity changes in HIC systems using a preferential interaction based analysis.
    Xia F, Nagrath D, Garde S, Cramer SM.
    Biotechnol Bioeng; 2004 Aug 05; 87(3):354-63. PubMed ID: 15281110
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  • 12. Molecular insight into protein conformational transition in hydrophobic charge induction chromatography: a molecular dynamics simulation.
    Zhang L, Zhao G, Sun Y.
    J Phys Chem B; 2009 May 14; 113(19):6873-80. PubMed ID: 19374422
    [Abstract] [Full Text] [Related]

  • 13. Deuterium isotope effects on hydrophobic interactions: the importance of dispersion interactions in the hydrophobic phase.
    Turowski M, Yamakawa N, Meller J, Kimata K, Ikegami T, Hosoya K, Tanaka N, Thornton ER.
    J Am Chem Soc; 2003 Nov 12; 125(45):13836-49. PubMed ID: 14599224
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  • 14. Prediction of protein retention in hydrophobic interaction chromatography.
    Mahn A, Asenjo JA.
    Biotechnol Adv; 2005 Jul 12; 23(5):359-68. PubMed ID: 15894452
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  • 18. Hydrophobic interaction chromatography of proteins. II. Solution thermodynamic properties as a determinant of retention.
    To BC, Lenhoff AM.
    J Chromatogr A; 2007 Feb 09; 1141(2):235-43. PubMed ID: 17207494
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