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Ryoji Sahara,Hiroshi Mizuseki,Kaoru Ohno,Yoshiyuki Kawazoe 한국물리학회 2008 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.52 No.4
Temperature dependence of the bulk modulus in five fcc metals are analyzed by using a fcc lattice-gas model. To treat actual systems as quantitatively as possible, we introduce two empirical potentials, which have been widely used for molecular dynamics (MD) simulations. The potentials are mapped onto the fcc lattice by using the potential renormalization technique, which gives a reasonable way to map interatomic potentials, such as MD potentials, onto lattice models, in order to overcome the shortcomings of lattice-gas models of neglecting the internal entropy of the system. By comparing the results with experimental, MD and first-principles data, the renormalized potential is found to reproduce the temperature dependence of the bulk modulus well. Temperature dependence of the bulk modulus in five fcc metals are analyzed by using a fcc lattice-gas model. To treat actual systems as quantitatively as possible, we introduce two empirical potentials, which have been widely used for molecular dynamics (MD) simulations. The potentials are mapped onto the fcc lattice by using the potential renormalization technique, which gives a reasonable way to map interatomic potentials, such as MD potentials, onto lattice models, in order to overcome the shortcomings of lattice-gas models of neglecting the internal entropy of the system. By comparing the results with experimental, MD and first-principles data, the renormalized potential is found to reproduce the temperature dependence of the bulk modulus well.
Iseki, Mineo,Matsunaga, Shigeru,Murakami, Akio,Ohno, Kaoru,Shiga, Kiyoshi,Yoshida, Kazuichi,Sugai, Michizo,Takahashi, Tetsuo,Hori, Terumitsu,Watanabe, Masakatsu Korean Society of Photoscience 2002 Journal of Photosciences Vol.9 No.2
Euglena gracilis abruptly changes its swimming direction after a sudden increase or decrease in incident light intensity, that is, step-up or step-down photophobic responses, resulting in photoavoidance or photoaccumulation, respectively. To identify the photoreceptor molecules for these UV-A/blue-light type photobehaviors, we purified a flavoprotein from isolated putative photosencory organelles (PFBs) of Euglena. The purified flavoprotein, which noncovalently bound flavin adenine dinucleotide (FAD), seemed to be a heterotetramer of alpha- and beta-subunits. Predicted amino acid sequences of each of the subunits were similar to each other and contained two FAD-binding domains each followed by an adenylyl cyclase catalytic domain. The purified flavoprotein actually showed adenylyl cyclase activity, being drastically elevated by blue-light irradiation. Suppression of gene expression of the flavoprotein (Photoactivated Adenylyl Cyclase, PAC) by RNA interference (RNAi) caused loss of the step-up photophobic response, demonstrating that PAC actually mediates photoavoidance of Euglena.