Foreword

We developed a high-resolution scanning electrochemical microscope (SECM) for the characterization of various biological materials. Electrode probes were fabricated by Ti/Pt sputtering followed by parylene C-vapor deposition polymerization on the pulled optical fiber or glass capillary. The effective electrode radius estimated from the cyclic voltammogram of ferrocyanide was found to be 35 nm. The optical aperture size was less than 170 nm, which was confirmed from the cross section of the near-field scanning optical microscope (NSOM) image of the quantum dot (QD) particles with diameters in the range of 10-15 nm. The feedback mechanism controlling the probe-sample distance was improved by vertically moving the probe by 0.1-3 microm to reduce the damage to the samples. This feedback mode, defined as "standing approach (STA) mode" (Yamada, H.; Fukumoto, H.; Yokoyama, T.; Koike, T. Anal. Chem. 2005, 77, 1785-1790), has allowed the simultaneous electrochemical and topographic imaging of the axons and cell body of a single PC12 cell under physiological conditions for the first time. STA-mode feedback imaging functions better than tip-sample regulation by the conventionally available AFM. For example, polystyrene beads (diameter approximately 6 microm) was imaged using the STA-mode SECM, whereas imaging was not possible using a conventional AFM instrument.

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Imaging of enzyme activity by scanning electrochemical microscope equipped with a feedback control for substrate–probe distance

Oyamatsu

Hirano

Kanaya

et al. 2003

Bioelectrochemistry

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A competitive immunochromatographic assay for testosterone based on electrochemical detection

Inoue

Ferrante

Hirano

et al. 2007

Talanta

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Function Control of Anti-microRNA Oligonucleotides Using Interstrand Cross-Linked Duplexes

Mie

Hirano

Kowata

et al. 2018

Molecular Therapy - Nucleic Acids

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MicroRNA (miRNA)-guided argonaute (Ago) controls gene expression upon binding to the 3′ UTR of mRNA. The miRNA function can be competitively inhibited by single-stranded anti-miRNA oligonucleotides (AMOs). In this study, we constructed a novel type of AMO flanked by interstrand cross-linked 2′-O-methylated RNA duplexes (CLs) that confer a stable helical conformation. Compared with other structured AMOs, AMO flanked by CLs at the 5′ and 3′ termini exhibited much higher inhibitory activity in cells. Anti-miRNA activity, nuclease resistance, and miRNA modification pattern distinctly differed according to the CL-connected positions in AMOs. Moreover, we found that the 3′-side CL improves nuclease resistance, whereas the 5′-side CL contributes to stable binding with miRNA in Ago upon interaction with the 3′ part of miRNA. These structure-function relationship analyses of AMOs provide important insights into the function control of Ago-miRNA complexes, which will be useful for basic miRNA research as well as for determining therapeutic applications of AMO.

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Hypothermic preservation effect on mammalian cells of type III antifreeze proteins from notched-fin eelpout

et al. 2008

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Facile control of surface crystallographic orientation of anodized nanoporous gold catalyst and its application for highly efficient hydrogen evolution reaction

Mie

Hirano

2020

Journal of Catalysis

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Analysis of beat fluctuations and oxygen consumption in cardiomyocytes by scanning electrochemical microscopy

Hirano

Kodama

Shibuya

et al. 2014

Analytical Biochemistry

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Interstrand cross-link of DNA by covalently linking a pair of abasic sites

et al. 2012

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Yu Hirano

Topographic, Electrochemical, and Optical Images Captured Using Standing Approach Mode Scanning Electrochemical/Optical Microscopy

Imaging of enzyme activity by scanning electrochemical microscope equipped with a feedback control for substrate–probe distance

A competitive immunochromatographic assay for testosterone based on electrochemical detection

Function Control of Anti-microRNA Oligonucleotides Using Interstrand Cross-Linked Duplexes

Hypothermic preservation effect on mammalian cells of type III antifreeze proteins from notched-fin eelpout

Facile control of surface crystallographic orientation of anodized nanoporous gold catalyst and its application for highly efficient hydrogen evolution reaction

Analysis of beat fluctuations and oxygen consumption in cardiomyocytes by scanning electrochemical microscopy

Interstrand cross-link of DNA by covalently linking a pair of abasic sites

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