Mutant Selection

Mutant Selection

Enriching/selecting outliners from a homogenous library can help the overall population to promote their overall desired phenotypes. We have participated in various projects focusing on the selection/enrichment of preferred subpopulations, for increasing the speed of plastic degradation, selecting binding materials with higher affinity; investigating the mechanism of high intracellular properties, to name a few.

Selected Project/Publications

1. Plastic degradation (SH)
2. S. Han*, H. S. Kim*, K. -H. Han, and A. Han (*these authors contributed equally), Digital quantification and selection of high-lipid-producing microalgae through a lateral dielectrophoresis-based microfluidic platform, Lab on a Chip, Vol. 19, pp. 4128-4138 (2019)
3. C. Huang, F. Guo, H. Wang, J. Olivares, J. Dalton, III, O. Belyanina, A. R. Wattam, C. A. Cucinell, A. W. Dickerman, Q. Qin, A. Han and P. de Figueiredo, An automated system for interrogating the evolution of microbial endosymbiosis, Lab Chip, 2023, 23, 671
4. S. -I. Han*, D. A. Sarkes*, J. P. Jahnke, M. M. Hurley, V. M. Ugaz, R. Renberg, J. J. Sumner, D. N. Stratis-Cullum, and A. Han (*these authors contributed equally), Discovery of Targeted Material Binding Microorganisms using a Centrifugal Microfluidic Platform, Advanced Materials Technologies, Vol. 6, 2100282 (2021)
5. H. S. Kim, T. P. Devarenne and A. Han, A High-Throughput Microfluidic Single-Cell Screening Platform Capable of Selective Cell Extraction, Lab on a Chip, Vol. 15, pp. 2467-2475 (2015)