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Pornthep Chivavibul Manabu Enoki Shigeru Konda Yasushi Inada Tamotsu Tomizawa Akira Toda 《Journal of magnetism and magnetic materials》2011,323(3-4):306-310
An important issue in development of electrical steels for core-laminated products is to reduce core loss to improve energy conversion efficiency. This is usually obtained by tailoring the composition, microstructure, and texture of electrical steels themselves. A new technique to reduce core loss in electrical steel has been investigated. This technique involves electroless plating of magnetic thin coating onto the surface of electrical steel. The material system was electroless Ni–Co–P coatings with different thicknesses (1, 5, and 10 μm) deposited onto the surface of commercially available Fe–3% Si electrical steel. Characterization of deposited Ni–Co–P coating was carried out using X-ray diffraction (XRD), scanning electron microscope (SEM), and energy dispersive X-ray (EDX) spectrometer. The deposited Ni–Co–P coatings were amorphous and composed of 56–59% Ni, 32–35% Co, and 8–10% P by mass. The effect of coatings on core loss of the electrical steel was determined using single sheet test. A core loss reduction of 4% maximum was achieved with the Ni–Co–P coating of 1 μm thickness at 400 Hz and 0.3 T. 相似文献
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Wittayanarakul K Aruksakunwong O Sompornpisut P Sanghiran-Lee V Parasuk V Pinitglang S Hannongbua S 《Journal of chemical information and modeling》2005,45(2):300-308
As it is known that the understanding of the basic properties of the enzyme/inhibitor complex leads directly to enhancing the capability in drug designing and drug discovery. Molecular dynamics simulations have been performed to examine detailed information on the structure and dynamical properties of the HIV-1 PR complexed with saquinavir in the three protonated states, monoprotonates at Asp25 (Mono-25) and Asp25'(Mono-25') and diprotonate (Di-Pro) at both Asp25 and Asp25'. The obtained results support clinical data which reveal that Ile84 and Gly48 are two of the most frequent residues where mutation toward a protease inhibitor takes place. In contrast to the Ile84 mutation due to high displacement of Ile84 in the presence of saquinavir, source of the Gly48 mutation was observed to be due to the limited space in the HIV-1 PR pocket. The Gly48 was, on one side, found to form strong hydrogen bonds with saquinavir, while on the other side this residue was repelled by the hydrophobic Phe53 residue. In terms of inhibitor/enzyme binding, interactions between saquinavir and a catalytic triad of the HIV-1 PR were calculated using the ab initio method. The results show an order of the binding energy of Mono25相似文献
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Pohmakotr M Numechai P Prateeptongkum S Tuchinda P Reutrakul V 《Organic & biomolecular chemistry》2003,1(20):3495-3497
The intramolecular nucleophilic addition of alpha-sulfinyl carbanions derived from the corresponding sufinyl lactams afforded 1-azabicyclo[m.n.0]alkenes in good yields. 相似文献
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Panita Kongsune Thanyada Rungrotmongkol Nadtanet Nunthaboot Pathumwadee Yotmanee Pornthep Sompornpisut Yong Poovorawan Peter Wolschann Supot Hannongbua 《Monatshefte für Chemie / Chemical Monthly》2012,35(2):853-860
Abstract
The furin (FR) complex with each of four different sequences of hemagglutinin from the highly pathogenic H5N1 strains (HPH5), which were identified during the 2004–2010 influenza outbreaks in Thailand, were evaluated by molecular dynamics simulations, so as to compare the specificity and recognition of the enzyme–substrate binding. Relative to the conventional HPH5 inserted (H5Sq1, RERRRKKR), the S5-R or S6-R arginine residue is replaced by the smaller lysine in the H5Sq2 (RERKRKKR) and H5Sq3 (REKRRKKR) strains, respectively, whereas the S3-K lysine residue is deleted in H5Sq4 (RERRR_KR). The molecular dynamics results of the intermolecular interactions, in terms of hydrogen bonds and per-residue decomposition energy, between the substrate and furin revealed that the deletion of the positively charged amino acid at the S3 position in H5Sq4 leads to a notably weaker binding and specificity with the furin active site compared with that of FR–H5Sq1. A slight change in the substrate binding was found in the FR–H5Sq2 and FR–H5Sq3 complexes as a result of the replacement of the arginine with the shorter side-chained lysine (same positive charge). Altogether, the predicted binding free energy of the enzyme–substrate complexes was found to be in the following order: FR–H5Sq1 < FR–H5Sq2 ~ FR–H5Sq3 ≪ FR–H5Sq4. 相似文献5.
Aruksakunwong O Wolschann P Hannongbua S Sompornpisut P 《Journal of chemical information and modeling》2006,46(5):2085-2092
To understand the basis of drug resistance of the HIV-1 protease, molecular dynamic (MD) and free energy calculations of the wild-type and three primary resistance mutants, V82F, I84V, and V82F/I84V, of HIV-1 protease complexed with ritonavir were carried out. Analysis of the MD trajectories revealed overall structures of the protein and the hydrogen bonding of the catalytic residues to ritonavir were similar in all four complexes. Substantial differences were also found near the catalytic binding domain, of which the double mutant complex has the greatest impact on conformational changes of the protein and the inhibitor. The tip of the HIV-1 protease flap of the double mutant has the greater degree of opening with respect to that of the others. Additionally, the phenyl ring of Phe82 moves away from the binding pocket S1', and the conformational change of ritonavir subsite P1' consequently affects the cavity size of the protein and the conformational energy of the inhibitor. Calculations of binding free energy using the solvent continuum model were able to reproduce the same trend of the experimental inhibition constant. The results show that the resistance mutants require hydrophobic residues to maintain the interactions in the binding pocket. Changes of the cavity volume correlate well with free energy penalties due to the mutation and are responsible for the loss of drug susceptibility. 相似文献
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