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61.
Rebamipide, a novel antipeptic ulcer drug, 2-(4-chlorobenzoylamino)-3-[2(1H)-quinolinone-4-yl]-propionic acid, was studied for its inhibitory effect on gastric xanthine oxidase activity and type conversion of the enzyme that has a profound role in free radical generation. Intraperitoneal administration of rebamipide at 60 mg/kg body weight reduced gastric mucosal hemorrhagic lesions and lipid peroxidation, which was proportional to the inhibitory effect of rebamipide on alcohol-induced xanthine oxidase-type conversion and enzyme activity. It was also observed that the activity of xanthine oxidase was significantly inhibited by administration of rebamipide at 60 mg/kg body weight, leading to a significant reduction of lipid peroxide content in alcohol-treated rats. The results suggest that alcohol-induced gastric mucosal lesions might be, in part, due to the increased activity of xanthine oxidase and type conversion rate of the enzyme and the protective effect of rebamipide on gastric mucosal lesions would result from its ability to protect against oxidative stress on gastric mucosal lesions of alcohol-treated rats. 相似文献
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63.
Leah Edelstein-Keshet 《Journal of mathematical biology》1994,32(4):303-328
Social insects such as ants use trial-marking and trail-following to organize the behaviour and movement patterns of a large population. Since behaviour has to meet needs of the population in a changing environment, the type of trail networks formed must be adaptable. Both solitary foraging as well as mass migration along a system of trunk trails are behaviours essential for survival of the colony, and the population must be able to switch from one behaviour to the other, depending on conditions. Using a mathematical model for trail following we show that subtle changes in individual behaviour can give rise to dramatic differences in the behaviour of the population, including the ability to switch from solitary movement to organized group traffic. The model incorporates biological parameters associated with the organism, the trail-marker, and the population. Ordinary differential equations are formulated for the density of the trails and for the number of individuals following trails or exploring randomly. It is assumed that the followers reinforce trails by pheromone marking, and that individuals respond to the strength of the trails by becoming more efficient followers. The model is analyzed by qualitative phase-plane methods. 相似文献
64.
The regulation of the interactions between the actin binding proteins and the actin filaments are known to affect the cytoskeletal
structure of F-actin. We develop a model depicting the formation of actin cytoskeleton, bundles and orthogonal networks, via
activation or inactivation of different types of actin binding proteins. It is found that as the actin filament density increases
in the cell, a spontaneous tendency to organize into bundles or networks occurs depending on the active actin binding protein
concentration. Also, a minute change in the relative binding affinity of the actin binding proteins in the cell may lead to
a major change in the actin cytoskeleton. Both the linear stability analysis and the numerical results indicate that the structures
formed are highly sensitive to changes in the parameters, in particular to changes in the parameter ϕ, denoting the relative
binding affinity and concentration of the actin binding proteins. 相似文献
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Summary Production of galacto-oligosaccharide (GO), including trisaccharide and tetrasaccharide, was performed using a -galactosidase in water-hydrophobic solvent mixtures. A maximum GO concentration of 45% (w/w) was attained in a 95% cyclohexane/5% water mixture from a 55% (w/w) of lactose at 60°C and pH 6.0, while a maximum of 38% GO in aqueous media. GO production decreased with an increase in surfactant concentration. The optimum water content for GO production showed a broad range from 2.5 to 10% (v/v). Solvent properties, such as log P and the dipole moment, had no relation to GO production. 相似文献
68.
Jan Hendrickx Paul Coucke Marie-Claude Hors-Cayla G. Peter A. Smit Yoon S. Shin Johann Deutsch Jan Smeitink Ruud Berger Philip Lee John Fernandes Patrick J. Willems 《Genomics》1994,21(3)
We describe here a new type of X-linked liver glycogen storage disease. The main symptoms include liver enlargement and growth retardation. The clinical and biochemical abnormalities of this glycogenosis are similar to those of classical X-linked liver glycogenosis due to phosphorylase kinase deficiency (XLG). However, in contrast to patients with XLG, the patients described here have no reduced phosphorylase kinase activity in erythrocytes and leukocytes, and no enzyme deficiency could be found. Linkage analysis of four families with this X-linked type of liver glycogenosis assigned the disease gene to Xp22. Lod scores obtained with the markers DXS987, DXS207, and DXS999 were 3.97, 2.71, and 2.40, respectively, all at 0% recombination. Multipoint linkage analysis localized the disease gene between DXS143 and DXS989 with a maximum lod score of 4.70 at θ = 0, relative to DXS987. As both the classical XLG gene and the liver α-subunit of PHK (PHKA2) are also located in Xp22, this variant type of XLG may be allelic to classical XLG, and both diseases may be caused by mutations in PHKA2. Therefore, we propose to classify XLG as XLG type I (the classical type of XLG) and XLG type II (the variant type of XLG). 相似文献
69.
Kimura Tetsuya; Takeda Shin; Kyozuka Junko; Asahi Tadashi; Shimamoto Ko; Nakamura Kenzo 《Plant & cell physiology》1993,34(2):345-355
A precursor to the 相似文献
70.
We analyse the helical motion of organisms, concentrating on the means by which organisms change the direction in space of
the axis of the helical trajectory, which is the net direction of motion. We demonstrate that the direction of the axis is
determined largely by the direction of the organism's rotational velocity. Changes in direction of the rotational velocity,
with respect to the organism's body, change the direction in space of the axis of the helical trajectory. Conversely, changes
in direction of the translational velocity, with respect to the body of the organism, have little effect on the direction
in space of the axis of the trajectory. Because the axis of helical motion is the net direction of motion, it is likely that
organisms that move in helices change direction by pointing their rotational velocity, not their translational velocity, in
a new direction. 相似文献