Masaki Murase scite author profile

Rises in free [Ca2+]i in response to various tetanic stimuli (Ca2+ transient) in frog motor nerve terminals were measured by recording fluorescence changes of Ca2+ indicators and analyzed in relation to short-term synaptic plasticity. Ca2+ transients reached a plateau after 10-20 impulses at 100 Hz and decayed in a three-exponential manner, in which the fast component was predominant. The plateau and fast component of the Ca2+ transient were elevated infralinearly with an increase in tetanus frequency. Computer simulation showed that the Ca2+ transients estimated from fluorescence changes faithfully reflect the true changes in [Ca2+]i except for the initial 20 ms. A slow Ca2+ chelator, EGTA, loaded into the nerve terminal, decreased the magnitude of both the fast and slow components of facilitation of transmitter release and the time constant of the former. A fast Ca2+ chelator, BAPTA, decreased the magnitude of fast facilitation but slightly increased its time constant. These results suggest that Ca2+ transients in the frog motor nerve terminals are primarily caused by Ca2+ entry and are dissipated by three components, in which the rate of the fast component is equivalent to that of free Ca2+ diffusion. The residual Ca2+ in the nerve terminals after stimulation accounts for the fast component of facilitation.

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21.3: Invited Paper: Latest Development of “System‐on‐Glass” Display with Low Temperature Poly‐Si TFT

Nakajima¹,

Kida²,

Murase³

et al. 2004

Symp Digest of Tech Papers

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A 2.3‐inch diagonal, QVGA formatted “System‐on‐glass” display has been developed by low temperature poly‐Si TFT LCD technology. This display fully integrates 6‐bit RGB digital interface drivers as well as all the power‐supply circuitry to drive the LCD, which requires neither external ICs nor power supply ICs. This paper discusses the newly developed TFT circuit technologies used in this LCD. The development trend in the “System‐on‐glass” display is also reviewed.

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Volcano-hydrothermal activity detected by precise levelling surveys at the Tatun volcano group in Northern Taiwan during 2006–2013

Murase

Lin

Kimata

et al. 2014

Journal of Volcanology and Geothermal Research

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Integrated mass spectrometry–based analysis of plasma glycoproteins and their glycan modifications

et al. 2011

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We present a protocol for the identification of glycosylated proteins in plasma followed by elucidation of their individual glycan compositions. The study of glycoproteins by mass spectrometry is usually based on cleavage of glycans followed by separate analysis of glycans and deglycosylated proteins, which limits the ability to derive glycan compositions for individual glycoproteins. The methodology described here consists of 2D HPLC fractionation of intact proteins and liquid chromatography–multistage tandem mass spectrometry (LC-MS/MSn) analysis of digested protein fractions. Protein samples are separated by 1D anion-exchange chromatography (AEX) with an eight-step salt elution. Protein fractions from each of the eight AEX elution steps are transferred onto the 2D reversed-phase column to further separate proteins. A digital ion trap mass spectrometer with a wide mass range is then used for LC-MS/MSn analysis of intact glycopeptides from the 2D HPLC fractions. Both peptide and oligosaccharide compositions are revealed by analysis of the ion fragmentation patterns of glycopeptides with an intact glycopeptide analysis pipeline.

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Masaki Murase

The gating mechanism of the bacterial mechanosensitive channel MscL revealed by molecular dynamics simulations

Ca2+ dynamics at the frog motor nerve terminal

21.3: Invited Paper: Latest Development of “System‐on‐Glass” Display with Low Temperature Poly‐Si TFT

Volcano-hydrothermal activity detected by precise levelling surveys at the Tatun volcano group in Northern Taiwan during 2006–2013

Integrated mass spectrometry–based analysis of plasma glycoproteins and their glycan modifications

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