Kyoko Atsuta scite author profile

Kyoko Atsuta

3Publications

82Citation Statements Received

45Citation Statements Given

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Affiliations

Yazaki (Japan), The University of Tokyo, Laboratory for Integrated Micro-Mechatronic Systems

Publications

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FtsH Recognizes Proteins with Unfolded Structure and Hydrolyzes the Carboxyl Side of Hydrophobic Residues

Asahara

Atsuta

Motohashi

et al. 2000

Journal of Biochemistry

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FtsH of Escherichia coli is an essential membrane-integrated ATP-dependent protease. We cloned a gene for an FtsH homolog (T. FtsH) from Thermus thermophilus HB8, expressed it in E. coli, and purified the expressed protein. ATPase activity of T.FtsH was activated by proteins with unfolded structure ( alpha-casein and pepsin), and T.FtsH digested these proteins in an ATP-, Zn(2+)-dependent manner. alpha-Lactalbumin was digested by T.FtsH when it was largely unfolded, but not in its native form. Analysis of the proteolytic products revealed that, in most cases, T.FtsH cleaved the C-terminal side of hydrophobic residues and produced a characteristic set of small peptides (<30 kDa) without releasing a large intermediate. Thus, T.FtsH recognizes the unfolded structure of the proteins and progressively digests them at the expense of ATP. A soluble domain of T.FtsH, which lacked the N-terminal two transmembrane helices, was also prepared but was found to retain neither ATPase nor protease activities. Thus, the membrane segment appeared to be indispensable for these activities of T.FtsH.

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Micro patterning of active proteins with perforated PDMS sheets (PDMS sieve)

2004

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We propose a novel technique for patterning active proteins on a glass substrate using a perforated polydimethylsiloxane (PDMS) sheet-sieve. The sieve, which has tapering holes, is fabricated by spin-coating PDMS on a pyramidal-shaped mold. By means of this sieve, FITC (fluorescent isothiocyanate, bovine)-albumin was successfully spotted in a 5 3 5 mm 2 area in an array. The patterned spots were perfectly isolated, which eliminates the problem of non-specific binding of proteins to undesired areas. To show that proteins maintained their activity after the patterning, we used F 1 -ATPase biomolecular motors; their activity can easily be verified by observing their rotary motion after patterning. Selective patterning with three kinds of fluorescent micro beads indicated the possibility of patterning of different proteins on the same substrate by using the sieve.

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Biomolecular linear motors confined to move upon micro-patterns on glass

Yoshida

Yokokawa

Suzuki

et al. 2006

J. Micromech. Microeng.

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Biomolecular linear motor proteins—kinesin and microtubules—are finely patterned on a conventional, flat glass substrate using a Parylene lift-off process. These patterns are useful for single molecule analysis and biohybrid transportation. A patterning width of 2 µm has been achieved with minimal non-specific binding of the proteins. A conventional gliding assay was realized using this glass substrate and behaviors of the single proteins were analyzed.

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Kyoko Atsuta

FtsH Recognizes Proteins with Unfolded Structure and Hydrolyzes the Carboxyl Side of Hydrophobic Residues

Micro patterning of active proteins with perforated PDMS sheets (PDMS sieve)

Biomolecular linear motors confined to move upon micro-patterns on glass

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