Masashi Kawagoe scite author profile

Masashi Kawagoe

3Publications

48Citation Statements Received

146Citation Statements Given

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126

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Tottori University

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Functional Communications between the Apical and Equatorial Domains of GroEL through the Intermediate Domain

et al. 1999

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The Escherichia coli GroEL subunit consists of three domains with distinct functional roles. To understand the role of each of the three domains, the effects of mutating a single residue in each domain (Y203C at the apical, T89W at the equatorial, and C138W at the intermediate domain) were studied in detail, using three different enzymes (enolase, lactate dehydrogenase, and rhodanese) as refolding substrates. By analyzing the effects of each mutation, a transfer of signals was detected between the apical domain and the equatorial domain. A signal initiated by the equatorial domain triggers the release of polypeptide from the apical domain. This trigger was independent of nucleotide hydrolysis, as demonstrated using an ATPase-deficient mutant, and, also, the conditions for successful release of polypeptide could be modified by a mutation in the apical domain, suggesting that the polypeptide release mechanism of GroEL is governed by chaperonin-target affinities. Interestingly, a reciprocal signal from the apical domain was suggested to occur, which triggered nucleotide hydrolysis in the equatorial domain. This signal was disrupted by a mutation in the intermediate domain to create a novel ternary complex in which GroES and refolding protein are simultaneously bound in a stable ternary complex devoid of ATPase activity. These results point to a multitude of signals which govern the overall chaperonin mechanism.

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Refolding of Target Proteins from a “Rigid” Mutant Chaperonin Demonstrates a Minimal Mechanism of Chaperonin Binding and Release

Mizobata

Kawagoe

Hongo

et al. 2000

Journal of Biological Chemistry

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One of the most interesting facets of GroEL-facilitated protein folding lies in the fact that the requirement for a successful folding reaction of a given protein target depends upon the refolding conditions used. In this report, we utilize a mutant of GroEL (GroEL T89W) whose domain movements have been drastically restricted, producing a chaperonin that is incapable of utilizing the conventional cyclic mechanism of chaperonin action. This mutant was, however, still capable of improving the refolding yield of lactate dehydrogenase in the absence of both GroES and ATP hydrolysis. A very rapid interconversion of conformations was detected in the mutant immediately after ATP binding, and this interconversion was inferred to form part of the target release mechanism in this mutant. The possibility exists that some target proteins, although dependent on GroEL for improved refolding yields, are capable of refolding successfully by utilizing only portions of the entire mechanism provided by the chaperonins.

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Functional analysis of GroEL T89W using flouorescence spectroscopy.

Mizobata¹,

Kawagoe²,

Hongo³

et al. 1999

Biophysics

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Masashi Kawagoe

Functional Communications between the Apical and Equatorial Domains of GroEL through the Intermediate Domain

Refolding of Target Proteins from a “Rigid” Mutant Chaperonin Demonstrates a Minimal Mechanism of Chaperonin Binding and Release

Functional analysis of GroEL T89W using flouorescence spectroscopy.

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