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Literature Review on Recent Magnetocardiography and Impedance-Magnetocardiography Technologies
Kandori, A.,Miyashita, T.,Ogata, K.,Seki, Y.,Suzuki, D.,Tsukamoto, A.,Saito, K.,Yokosawa, K.,Tsukada, K.,Yamada, Satsuki,Watanabe, Shigeyuki,Horigome, Hitoshi,Yamaguchi, Iwao The Korean Superconductivity Society 2006 Progress in superconductivity Vol.8 No.1
We have developed magnetocardiography(MCG) and impedance magnetocardiography(I-MCG) for detecting heart disease by using dc-SQUID technology. The MCG system, using low-Tc SQUID, is being applied commercially for diagnosing heart disease. Using the low-Tc MCG system, many clinical studies on detection of abnormality have been performed. Furthermore, we have developed a portable MCG system using high-Tc SQUID. For detecting changes in kinetic impedance in the heart, an I-MCG system has been demonstrated. The I-MCG system could detect the mechanical movement of the heart. In this report, we review current clinical applications of magnetocardiography and impedance magnetocardiography.
Fluorescence Enhancement of a Microbial Rhodopsin via Electronic Reprogramming
Marí,n, Marí,a del Carmen,Agathangelou, Damianos,Orozco-Gonzalez, Yoelvis,Valentini, Alessio,Kato, Yoshitaka,Abe-Yoshizumi, Rei,Kandori, Hideki,Choi, Ahreum,Jung, Kwang-Hwan,Haacke, Stefan American Chemical Society 2019 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY - Vol.141 No.1
<P>The engineering of microbial rhodopsins with enhanced fluorescence is of great importance in the expanding field of optogenetics. Here we report the discovery of two mutants (W76S/Y179F and L83Q) of a sensory rhodopsin from the cyanobacterium <I>Anabaena</I> PCC7120 with opposite fluorescence behavior. In fact, while W76S/Y179F displays, with respect to the wild-type protein, a nearly 10-fold increase in red-light emission, the second is not emissive. Thus, the W76S/Y179F, L83Q pair offers an unprecedented opportunity for the investigation of fluorescence enhancement in microbial rhodopsins, which is pursued by combining transient absorption spectroscopy and multiconfigurational quantum chemistry. The results of such an investigation point to an isomerization-blocking electronic effect as the direct cause of instantaneous (subpicosecond) fluorescence enhancement.</P> [FIG OMISSION]</BR>
Literature Review on Recent Magnetocardiography and Impedance-MagnetocardiographyTechnologies
Y. Seki,A. Tsukamoto,K. Tsukada,Hitoshi Horigome,Miki Yokokawa,Yoshihide Chiba,Kimio Tanaka,A. Kandori,T. Miyashita,K. Ogata,D. Suzuki,K. Saito,K. Yokosawa,Satsuki Yamada,Shigeyuki Watanabe,Iwao Yamag 한국초전도학회 2006 Progress in superconductivity Vol.8 No.1