Kentarou Sakamoto, Yuka Yamamoto, Hiroshi Inaba, Kazunori Matsuura. Strategy toward In-Cell Self-Assembly of an Artificial Viral Capsid from a Fluorescent Protein-Modified β-Annulus Peptide. ACS Synthetic Biology. 2024
Kazunori Matsuura, Miu Hirahara, Kentarou Sakamoto, Hiroshi Inaba. Alkyl anchor-modified artificial viral capsid budding outside-to-inside and inside-to-outside giant vesicles. Science and Technology of Advanced Materials. 2024. 25. 2347191
Kazunori Matsuura, Hiroshi Inaba. Photoresponsive peptide materials: Spatiotemporal control of self-assembly and biological functions. Biophysics Reviews. 2023. 4. 041303
Hiroto Furukawa, Yuuna Kimura, Hiroshi Inaba, Kazunori Matsuura. A supramolecular system mimicking the infection process of an enveloped virus through membrane fusion. Scientific Reports. 2023. 13. 19934
Functionalization of microtubules by Tau-derived peptides: encapsulation, cell manipulation, and construction of superstructures
Amino Acids, Peptides and Proteins 2024
Chapter 34: Designed peptides that control protein nanoassemblies
Supramolecular Nanotechnology: Advanced Design of Self-Assembled Functional Materials 2023
Biomaterials based on DNA conjugates and assemblies
Handbook of Chemical Biology of Nucleic Acids 2022
Microtubules
Methods in Molecular Biology 2022 ISBN:9781071619827
Encapsulation of Nanomaterials Inside Microtubules by Using a Tau-Derived Peptide
Microtubules, Methods in Molecular Biology 2022