Takaomi Oguro scite author profile

Takaomi Oguro

4Publications

43Citation Statements Received

77Citation Statements Given

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Nagoya University

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Structural basis for unfolding pathway‐dependent stability of proteins: Vectorial unfolding versus global unfolding

et al. 2010

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Point mutations in proteins can have different effects on protein stability depending on the mechanism of unfolding. In the most interesting case of I27, the Ig-like module of the muscle protein titin, one point mutation (Y9P) yields opposite effects on protein stability during denaturantinduced ''global unfolding'' versus ''vectorial unfolding'' by mechanical pulling force or cellular unfolding systems. Here, we assessed the reason for the different effects of the Y9P mutation of I27 on the overall molecular stability and N-terminal unraveling by NMR. We found that the Y9P mutation causes a conformational change that is transmitted through b-sheet structures to reach the central hydrophobic core in the interior and alters its accessibility to bulk solvent, which leads to destabilization of the hydrophobic core. On the other hand, the Y9P mutation causes a bend in the backbone structure, which leads to the formation of a more stable N-terminal structure probably through enhanced hydrophobic interactions.

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Structural Stabilities of Different Regions of the Titin I27 Domain Contribute Differently to Unfolding upon Mitochondrial Protein Import

Oguro

Yagawa

Momose

et al. 2009

Journal of Molecular Biology

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3P-016 NMR analyses on the local mechanical stabilities of titin I27 mutants(The 46th Annual Meeting of the Biophysical Society of Japan)

et al. 2008

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Solution NMR structure of titin I27 domain mutant

Yagawa¹,

Oguro²,

Momose³

et al. 2010

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Takaomi Oguro

Structural basis for unfolding pathway‐dependent stability of proteins: Vectorial unfolding versus global unfolding

Structural Stabilities of Different Regions of the Titin I27 Domain Contribute Differently to Unfolding upon Mitochondrial Protein Import

3P-016 NMR analyses on the local mechanical stabilities of titin I27 mutants(The 46th Annual Meeting of the Biophysical Society of Japan)

Solution NMR structure of titin I27 domain mutant

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