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Kumada, Yoichi,Sakan, Yoshinobu,Kajihara, Hideyuki,Kihara, Mana,Kikuchi, Yasufumi,Yamaji, Hideki,Seong, Gi Hun,Katoh, Shigeo Elsevier 2009 Journal of bioscience and bioengineering Vol.107 No.1
<P><B>Abstract</B></P><P>Single-chain Fv antibody (scFv) having 2 types of polypeptide linkers with or without rare codons, namely scFv (G<SUB>4</SUB>S)<SUB>3</SUB><SUP>R</SUP> and scFv No.10 (with rare codons) and scFv (G<SUB>4</SUB>S)<SUB>3</SUB> and scFv No.10<SUP>NR</SUP> (without rare codon), were expressed under controllable conditions in batch and fed-batch fermentation, in order to compare volumetric productivity and specific productivity levels of scFvs as a soluble form. In batch fermentation, volumetric productivity levels of scFv (G<SUB>4</SUB>S)<SUB>3</SUB><SUP>R</SUP> and scFv No.10, namely scFvs having the rare codon linkers were 3–5 times higher than those of scFvs that had linkers without the rare codon. In fed-batch fermentation controlled by an exponential feeding system, the cell concentrations of the transformants increased with similar specific growth rates (0.1 h<SUP>−1</SUP>), while the specific productivity levels of scFvs with the rare codon linkers were 1.6 times higher than those of scFvs without the rare codon linkers. These results indicate that the presence of several rare codons in the gene of a polypeptide linker increases soluble amount of scFvs. This might be caused by a temporary decrease in translation speed at the position of the polypeptide linker allowing time for the folding of the V<SUB>H</SUB> domain and avoiding unfavorable interactions between amino acid residues at the unfolded V<SUB>H</SUB> and V<SUB>L</SUB> domains. Higher specific productivity levels of both scFv No. 10 and scFv No. 10<SUP>NR</SUP> than those of scFv (G<SUB>4</SUB>S)<SUB>3</SUB><SUP>R</SUP> and (G<SUB>4</SUB>S)<SUB>3</SUB> might be caused by difference in stability of the polypeptide linkers on the basis of amino acid sequences. Thus, the rare codon linkers tested in this study will be considerably useful for large-scale production of soluble and active scFvs in fed-batch or continuous fermentations, in which high cell activity can be maintained.</P>
Katsuya Hirachi,Makoto Sakane,Takanori Mii,Mutsuo Nakaoka 전력전자학회 1995 ICPE(ISPE)논문집 Vol.1995 No.10
It is essential characteristics for uninterruptible power supply (UPS) to eliminate harmonic currents in its input current and to get unity power factor. Switched mode rectifier (SMR) with a high -frequency transformer link has promising characteristics as a AC/DC conversion circuit for UPS. It does not only eliminate harmonic currents but also provides an isolation between AC input and DC output with a small high frequency transformer. We applied the SMR for the development of UPS with capacity of 2kVA, 3kVA and 5kVA. This paper presents circuit configurations and control strategies of the SMR and the test results of the developed UPS.
Microstructural Study of Creep-Fatigue Crack Propagation for Sn-3.0Ag-0.5Cu Lead-Free Solder
Woo, Tae-Wuk,Sakane, Masao,Kobayashi, Kaoru,Park, Hyun-Chul,Kim, Kwang-Soo The Korean Microelectronics and Packaging Society 2010 마이크로전자 및 패키징학회지 Vol.17 No.3
Crack propagation mechanisms of Sn-3.0Ag-0.5Cu solder were studied in strain controlled push-pull creepfatigue conditions using the fast-fast (pp) and the slow-fast (cp) strain waveforms at 313 K. Transgranular cracking was found in the pp strain waveform which led to the cycle-dominant crack propagation and intergranular cracking in the cp strain waveform that led to the time-dominant crack propagation. The time-dominant crack propagation rate was faster than the cycle-dominant crack propagation rate when compared with J-integral range which resulted from the creep damage at the crack tip in the cp strain waveform. Clear recrystallization around the crack was found in the pp and the cp strain waveforms, but the recrystallized grain size in the cp strain waveform was smaller than that in the pp strain waveform. The cycle-dominant crack propagated in the normal direction to the specimen axis macroscopically, but the time-dominant crack propagated in the shear direction which was discussed in relation with shear micro cracks formed at the crack tip.
Arata Watanabe,Masataka Sakane,Toru Funayama,Masashi Iwasashi,Akihiro Kanamori,Naoyuki Ochiai 한국생체재료학회 2010 생체재료학회지 Vol.14 No.1
A microstructure of unidirectional porous hydroxyapatite (UDPHAp) has a diameter of 100-300 μm, which pene-trates through the material. In addition, it has a porosity of 75% and initial compression strength of approximately 14 MPa. The objective of the present study was to investigate the feasibility of UDPHAp for the tibial wedge osteot-omy in canines. We performed the operation on the right tibia of the dogs, and a wedge-shaped UDPHAp was implanted in the gap after the osteotomy. At 6 and 12 weeks after the operation, the specimens were solid and bony union could be macroscopically observed. Radiological examination revealed that complete consolidation between the osteotomy site and the UDPHAp was established at 12 weeks. Histological evaluation revealed fibrous tissues between the host bone and the UDPHAp at 6 weeks, although new bone formation was observed at the edges of the material. At 12 weeks, direct bonding and bone ingrowth was observed. This study indicates that UDPHAp has great potential for use as a bone substitute for open-wedge high tibail osteotomy in clinical condition.
Keita Nakayama,Masataka Sakane,Susumu Ejima,Daisuke Ito,Tomofumi Nishino,Sou Kitajima,Masashi Yamazaki 대한척추외과학회 2015 Asian Spine Journal Vol.9 No.6
Study Design: Prospective experimental study on humans. Purpose: To determine whether postural differences during a low-speed impact are observed in the sagittal and axial views, particularly in a relaxed state. Overview of Literature: Three-dimensional motion capture systems have been used to analyze posture and head-neck-torso kinematics in humans during a simulated low-speed impact, yet little research has focused on the axial view. Since a seatbelt asymmetrically stabilizes a driver’s right shoulder and left lower waist into the seat, it potentially creates movement in the axial view. Methods: Three healthy adult men participated in the experimental series, which used a low-speed sled system. The acceleration pulse created a full sine shape with a maximum acceleration of 8.0 m/s2 at 500 ms, during which the kinematics were evaluated in relaxed and tensed states. The three-dimensional motion capture system used eight markers to record and analyze body movement and head-neck-torso kinematics in the sagittal and axial views during the low-speed impact. Head and trunk rotation angles were also calculated. Results: Larger movements were observed in the relaxed than in the tensed state in the sagittal view. The cervical and thoracic spine flexed and extended, respectively, in the relaxed state. In the axial view, larger movements were also observed in the relaxed state than in the tensed state, and the left shoulder rotated. Conclusions: During simulated frontal impact, the rotation angle between the head and trunk was significantly larger in the relaxed state. Therefore, we recommend also observing movement in the axial view during impact tests.