31 research outputs found
Proteome analysis of human metaphase chromosomes
Susumu Uchiyama, Shouhei Kobayashi, Hideaki Takata, Takeshi Ishihara, Naoto Hori, Tsunehito Higashi, Kayoko Hayashihara, Takefumi Sone, Daisuke Higo, Takashi Nirasawa, Toshifumi Takao, Sachihiro Matsunaga, Kiichi Fukui. Proteome Analysis of Human Metaphase Chromosomes. Journal of Biological Chemistry, Volume 280, Issue 17, 2005, Pages 16994-17004. https://doi.org/10.1074/jbc.M412774200
The middle region of an HP1-binding protein, HP1-BP74, associates with linker DNA at the entry/exit site of nucleosomal DNA
Kayoko Hayashihara, Susumu Uchiyama, Shigeru Shimamoto, Shouhei Kobayashi, Miroslav Tomschik, Hidekazu Wakamatsu, Daisuke No, Hiroki Sugahara, Naoto Hori, Masanori Noda, Tadayasu Ohkubo, Jordanka Zlatanova, Sachihiro Matsunaga, Kiichi Fukui. The Middle Region of an HP1-binding Protein, HP1-BP74, Associates with Linker DNA at the Entry/Exit Site of Nucleosomal DNA. Journal of Biological Chemistry, Volume 285, Issue 9, 2010, Pages 6498-6507. https://doi.org/10.1074/jbc.M109.092833
Influence of Individual Differences on the Calculation Method for FBG-Type Blood Pressure Sensors
In this paper, we propose a blood pressure calculation and associated measurement method that by using a fiber Bragg grating (FBG) sensor. There are several points at which the pulse can be measured on the surface of the human body, and when a FBG sensor located at any of these points, the pulse wave signal can be measured. The measured waveform is similar to the acceleration pulse wave. The pulse wave signal changes depending on several factors, including whether or not the individual is healthy and/or elderly. The measured pulse wave signal can be used to calculate the blood pressure using a calibration curve, which is constructed by a partial least squares (PLS) regression analysis using a reference blood pressure and the pulse wave signal. In this paper, we focus on the influence of individual differences from calculated blood pressure based on each calibration curve. In our study, the calculated blood pressure from both the individual and overall calibration curves were compared, and our results show that the calculated blood pressure based on the overall calibration curve had a lower measurement accuracy than that based on an individual calibration curve. We also found that the influence of the individual differences on the calculated blood pressure when using the FBG sensor method were very low. Therefore, the FBG sensor method that we developed for measuring the blood pressure was found to be suitable for use by many people
The molecular mechanism of photochemical internalization of cell penetrating peptide-cargo-photosensitizer conjugates.
In many drug delivery strategies, an inefficient transfer of macromolecules such as proteins and nucleic acids to the cytosol often occurs because of their endosomal entrapment. One of the methods to overcome this problem is photochemical internalization, which is achieved using a photosensitizer and light to facilitate the endosomal escape of the macromolecule. In this study, we examined the molecular mechanism of photochemical internalization of cell penetrating peptide-cargo (macromolecule)-photosensitizer conjugates. We measured the photophysical properties of eight dyes (photosensitizer candidates) and determined the respective endosomal escape efficiencies using these dyes. Correlation plots between these factors indicated that the photogenerated (1)O2 molecules from photosensitizers were highly related to the endosomal escape efficiencies. The contribution of (1)O2 was confirmed using (1)O2 quenchers. In addition, time-lapse fluorescence imaging showed that the photoinduced endosomal escape occurred at a few seconds to a few minutes after irradiation (much longer than (1)O2 lifetime), and that the pH increased in the endosome prior to the endosomal escape of the macromolecule