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전체 논문

244

161

Protein Nanoparticles Simultaneously Displaying TRAIL and EGFR-Binding Ligands Effectively Induce Apoptotic Cancer Cell Death and Overcome EGFR-TKI Resistance in Lung Cancer
Kim, Y, Kim, J, Eom, S, Jun, H, Lee, HB, Jeong, D, Kang, S
ACS APPLIED MATERIALS & INTERFACES, 202504

162

In situ forming and self-crosslinkable protein hydrogels for localized cancer therapy and topical wound healing
Eom, S, Park, S G, Koo, Y, Noh, Y, Choi, C, Kim, Y, Jun, H, Cha, C, Joo, J, Kang, S
JOURNAL OF CONTROLLED RELEASE, 202502

163

CD13-targeting and TRAIL-displaying protein nanoparticles effectively induce apoptotic cell death of acute myeloid leukemia, prolonging survival in mouse models
Jun, H, Yeo, M, Jeon, JP, Eom, S, Kim, HJ, Kim, Y, Jang, E, Park, SH, Kim, E, Kang, S
NANO TODAY, 202412

164

Developing Porous Protein Cage Nanoparticles as Cargo-Loadable and Ligand-Displayable Modular Delivery Nanoplatforms
Eom, S, Jun, H, Kim, E, Min, D, Kim, H, Kang, S
ACS APPLIED MATERIALS & INTERFACES, 202410

165

Development of plug-and-deliverable intracellular protein delivery platforms based on botulinum neurotoxin
Park, SG, Lee, HB, Kang, S
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 202403

166

Protein cage nanoparticle-based NK cell-engaging nanodrones (NKeNDs) effectively recruit NK cells to target tumor sites and suppress tumor growth
Park, SG, Kim, HJ, Lee, HB, Eom, S, Jun, H, Jang, Y, Park, SH, Kang, S
NANO TODAY, 202402

167

Compact and modular bioprobe: Integrating SpyCatcher/SpyTag recombinant proteins with zwitterionic polymer-coated quantum dots
Kim, S, Bae, Y, Park, S, Chen, N, Eom, S, Kang, S, Park, J
JOURNAL OF COLLOID AND INTERFACE SCIENCE, 202312

168

Development of recombinant secondary antibody mimics (rSAMs) for immunoassays through genetic fusion of monomeric alkaline phosphatase with antibody binders
Park, J, Bae, Y, Eom, S, Choi, Y, Lee, G, Kang, S
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 202311

169

Lactate oxidase/vSIRPα conjugates efficiently consume tumor-produced lactates and locally produce tumor-necrotic H2O2 to suppress tumor growth
Kang, Y, Yeo, M, Choi, H, Jun, H, Eom, S, Park, SG, Yoon, H, Kim, E, Kang, S
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 202303

170

Lactate oxidase/catalase-displaying nanoparticles efficiently consume lactate in the tumor microenvironment to effectively suppress tumor growth
Choi, H, Yeo, M, Kang, Y, Kim, HJ, Park, SG, Jang, E, Park, SH, Kim, E, Kang, S
JOURNAL OF NANOBIOTECHNOLOGY, 202301