Hiroshi Inaba scite author profile

The synthesis of a robust bio‐nanotube consisting of the β‐helical tubular component proteins of bacteriophage T4 is described. The crystal structure indicates that it has a well‐defined nanoscale length of 10 nm as a result of the head‐to‐head dimerization of β‐helices. Surprisingly, the tube assembly has high thermal stability, high tolerance to organic solvents, and a wide pH‐stability range.

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Design of biomaterials for intracellular delivery of carbon monoxide

Inaba

Fujita

Ueno

2015

Biomater. Sci.

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Carbon monoxide (CO) is recognized as one of the most important gas signaling molecules involved in governing various therapeutic responses. Intracellular generation of CO is spatiotemporally controlled by catalytic reactions of heme oxygenases (HOs). Thus, the ability to control intracellular CO delivery with modulation of the CO-release rate in specific amounts and locations is expected to improve our fundamental understanding of the functions of CO and the development of clinical applications. For this purpose, CO-releasing molecules (CORMs) have been developed and investigated in vitro and in vivo. Most CORMs are based on transition metal carbonyl complexes. Recently, various biomaterials consisting of metal carbonyls with biomacromolecular scaffolds have been reported to improve the properties of bare metal carbonyls. In this mini-review, current progress in CO delivery, recent strategies for the development of CORMs, and future directions in this field are discussed.

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Hiroshi Inaba

Light responsive metal–organic frameworks as controllable CO-releasing cell culture substrates

Construction of Robust Bio‐nanotubes using the Controlled Self‐Assembly of Component Proteins of Bacteriophage T4

Design of biomaterials for intracellular delivery of carbon monoxide

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