Materiomically Designed Polymeric Vehicles for Nucleic Acids: Quo Vadis?
Kumar, R. (2022). Materiomically Designed Polymeric Vehicles for Nucleic Acids: Quo Vadis? ACS Applied Bio Materials. 5, 6, 2507–2535
High-Throughput Experimental Platforms for Polymeric Vector Discovery
Kumar, R. (2022). Materiomically Designed Polymeric Vehicles for Nucleic Acids: Quo Vadis? ACS Applied Bio Materials. 5, 6, 2507–2535
Kumar, R., Le, N., Oviedo, F., Brown, M.E., & Reineke, T.M. (2022) Combinatorial Polycation Synthesis and Causal Machine Learning Reveal Divergent Polymer Design Rules for Effective pDNA and Ribonucleoprotein Delivery. JACS Au, 2, 2, 428–442
Bockman, M.R., Dalal, R.J., Kumar, R., & Reineke, T.M. (2021) Facile synthesis of GalNAc monomers and block polycations for hepatocyte gene delivery. Polymer Chemistry, 10.1039/D1PY00250C.
Dalal, R.J., Kumar, R, Ohnsorg, M., Brown, M.E., & Reineke, T.M. (2021) Cationic Bottlebrush Polymers Outperform Linear Polycation Analogues for pDNA Delivery and Gene Expression. ACS Macro Letters, 10, XXX, 886–893.
Kumar, R*., Chalarca, C.F.S.*, Bockman, M.R.*, Van Bruggen, C., Grimme. C.J., Dalal, R.J., Hanson, M.G., Hexum, J.K., & Reineke, T.M. (2021) Polymeric Delivery of Therapeutic Nucleic Acids. Chemical Reviews, 10.1021/acs.chemrev.0c00997. *equal contribution
Kumar, R., Le, N., Tan, Z., Brown, M.E., Jian, S., & Reineke, T.M. (2020) Efficient polymer-mediated delivery of ribonucleoprotein payloads through combinatorial design & parallelized experimentation. ACS Nano, 10.1021/acsnano.0c08549.
Tan, Z., Jiang, Y., Ganewatta, M.S., Kumar, R., Keith, A., Twaroski, K., Pengo, T., Tolar, J., Lodge, T.P., Reineke, T.M. Block Polymer Micelles Enable CRISPR/Cas9 Ribonucleoprotein Delivery: Physicochemical Properties Affect Packaging Mechanisms and Gene Editing Efficiency. Macromolecules, 52, 21, 8197-8206 (2019).
Colorado School of Mines
491 Alderson Hall, 1613 Illinois Street
Golden, CO 80401
ramyakumar@mines.edu
Colorado School of Mines
Dept. of Chemical and Biological Engineering