Ryo Matsunaga scite author profile

Protein fibrils are expected to have applications as functional nanomaterials because of their sophisticated structures; however, nanoscale ordering of the functional units of protein fibrils remains challenging. Here we design a series of self-polymerizing protein monomers, referred to as protein shackles, derived from modified recombinant subunits of pili from Streptococcus pyogenes. The monomers polymerize into nanochains through spontaneous irreversible covalent bond formation. We design the protein shackles so that their reactions can be controlled by altering redox conditions, which affect disulphide bond formation between engineered cysteine residues. The interaction between the monomers improves their polymerization reactivity and determines morphologies of the polymers. In addition, green fluorescent protein-tagged protein shackles can polymerize, indicating proteins can be stably attached to the nanochains with its functionality preserved. Furthermore we demonstrate that a molecular-recognizable nanochain binds to its partner with an enhanced binding ability in solution. These characteristics are expected to be applied for novel protein nanomaterials.

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Bidirectional binding property of high glycine–tyrosine keratin-associated protein contributes to the mechanical strength and shape of hair

Matsunaga

Abe

Ishii

et al. 2013

Journal of Structural Biology

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Addition of arginine hydrochloride and proline to the culture medium enhances recombinant protein expression in Brevibacillus choshinensis: The case of RBD of SARS-CoV-2 spike protein and its antibody

Matsunaga

Tsumoto

2022

Protein Expression and Purification

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Biophysical insight into protein-protein interactions in the Interleukin-11/Interleukin-11Rα/glycoprotein 130 signaling complex

Mori

Nagatoishi

Matsunaga

et al. 2022

Preprint

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Interleukin-11 (IL-11) is a member of the interleukin-6 (IL-6) family of cytokines. IL-11 is a regulator of multiple events in hematopoiesis, and IL-11-mediated signaling is implicated in inflammatory disease, cancer, and fibrosis. All IL-6 family cytokines signal through the signal-transducing receptor, glycoprotein 130 (gp130), but these cytokines have distinct as well as overlapping biological functions. To understand IL-11 signaling at the molecular level, we performed a comprehensive interaction analysis of the IL-11 signaling complex, comparing it with the IL-6 complex, one of the best-characterized cytokine complexes. Our thermodynamic analysis revealed a clear difference between IL-11 and IL-6. Surface plasmon resonance analysis showed that the interaction between IL-11 and IL-11 receptor α (IL-11Rα) is entropy driven, whereas that between IL-6 and IL-6 receptor α (IL-6Rα) is enthalpy driven. Our analysis using isothermal titration calorimetry revealed that the binding of gp130 to the IL-11/IL-11Rα complex results in entropy loss, but that the interaction of gp130 with the IL-6/IL-6Rα complex results in entropy gain. Our hydrogen-deuterium exchange mass spectrometry experiments suggested that the D2 domain of gp130 was not involved in n IL-6-like interactions in the IL-11/IL-11Rα complex. It has been reported that IL-6 interaction with gp130 in the signaling complex was characterized through the hydrophobic interface located in its D2 domain of gp130. Our findings suggest that unique interactions of the IL-11 signaling complex with gp130 are responsible for the distinct biological activities of IL-11 compared to IL-6.

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Ryo Matsunaga

Hyperthin nanochains composed of self-polymerizing protein shackles

Bidirectional binding property of high glycine–tyrosine keratin-associated protein contributes to the mechanical strength and shape of hair

Addition of arginine hydrochloride and proline to the culture medium enhances recombinant protein expression in Brevibacillus choshinensis: The case of RBD of SARS-CoV-2 spike protein and its antibody

Biophysical insight into protein-protein interactions in the Interleukin-11/Interleukin-11Rα/glycoprotein 130 signaling complex

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