Sota Yagi scite author profile

The extant complex proteins must have evolved from ancient short and simple ancestors.Nevertheless, how such prototype proteins emerged on the primitive earth remains enigmatic. The double-psi beta-barrel (DPBB) is one of the oldest protein folds and conserved in various fundamental enzymes, such as the core domain of RNA polymerase. Here, by reverse engineering a modern DPBB domain, we reconstructed its evolutionary pathway started by "interlacing homo-5

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Estimation of delafossite p-type CuGaO2/ZnO hybrids as semiconductor photocatalyst by controlling particle size

Choi

Yagi²,

Ohta³

et al. 2021

Journal of Physics and Chemistry of Solids

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Creation of artificial protein–protein interactions using α-helices as interfaces

2017

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Designing novel protein-protein interactions (PPIs) with high affinity is a challenging task. Directed evolution, a combination of randomization of the gene for the protein of interest and selection using a display technique, is one of the most powerful tools for producing a protein binder. However, the selected proteins often bind to the target protein at an undesired surface. More problematically, some selected proteins bind to their targets even though they are unfolded. Current state-of-the-art computational design methods have successfully created novel protein binders. These computational methods have optimized the non-covalent interactions at interfaces and thus produced artificial protein complexes. However, to date there are only a limited number of successful examples of computationally designed de novo PPIs. De novo design of coiled-coil proteins has been extensively performed and, therefore, a large amount of knowledge of the sequence-structure relationship of coiled-coil proteins has been accumulated. Taking advantage of this knowledge, de novo design of inter-helical interactions has been used to produce artificial PPIs. Here, we review recent progress in the in silico design and rational design of de novo PPIs and the use of α-helices as interfaces.

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De novo design of protein–protein interactions through modification of inter-molecular helix–helix interface residues

Yagi

Akanuma

Yamagishi

et al. 2016

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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Addition of negatively charged residues can reverse the decrease in the solubility of an acidic protein caused by an artificially introduced non-polar surface patch

Yagi

Akanuma

Yamagishi

2014

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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Sota Yagi

Seven Amino Acid Types Suffice to Create the Core Fold of RNA Polymerase

Estimation of delafossite p-type CuGaO2/ZnO hybrids as semiconductor photocatalyst by controlling particle size

Creation of artificial protein–protein interactions using α-helices as interfaces

De novo design of protein–protein interactions through modification of inter-molecular helix–helix interface residues

Addition of negatively charged residues can reverse the decrease in the solubility of an acidic protein caused by an artificially introduced non-polar surface patch

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