James Woo, Ph.D.
Affiliations: | 2014 | Chemical Engineering | Rensselaer Polytechnic Institute, Troy, NY, United States |
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Chemical EngineeringGoogle:
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Parents
Sign in to add mentor| Steven M. Cramer | grad student | 2014 | RPI | |
| (Engineering Biomolecular Interactions to Enhance Selectivity in Chromatographic Separations.) | ||||
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| Trasatti JP, Woo J, Ladiwala A, et al. (2018) Rational Design of Peptide Affinity Ligands for the Purification of Therapeutic Enzymes. Biotechnology Progress |
| Robinson JR, Karkov HS, Woo JA, et al. (2016) QSAR models for prediction of chromatographic behavior of homologous Fab variants. Biotechnology and Bioengineering |
| Karkov HS, Woo J, Krogh BO, et al. (2015) Evaluation of selectivity in homologous multimodal chromatographic systems using in silico designed antibody fragment libraries. Journal of Chromatography. A |
| Woo J, Parimal S, Brown MR, et al. (2015) The effect of geometrical presentation of multimodal cation-exchange ligands on selective recognition of hydrophobic regions on protein surfaces. Journal of Chromatography. A. 1412: 33-42 |
| Woo JA, Chen H, Snyder MA, et al. (2015) Defining the property space for chromatographic ligands from a homologous series of mixed-mode ligands. Journal of Chromatography. A. 1407: 58-68 |
| Karkov HS, Krogh BO, Woo J, et al. (2015) Investigation of protein selectivity in multimodal chromatography using in silico designed Fab fragment variants. Biotechnology and Bioengineering. 112: 2305-15 |
| Carvalho RJ, Woo J, Aires-Barros MR, et al. (2014) Phenylboronate chromatography selectively separates glycoproteins through the manipulation of electrostatic, charge transfer, and cis-diol interactions. Biotechnology Journal. 9: 1250-8 |
| Chandra D, Morrison CJ, Woo J, et al. (2013) Design of peptide affinity ligands for S-protein: a comparison of combinatorial and de novo design strategies. Molecular Diversity. 17: 357-69 |