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111.
Stretch-induced enhancement of mechanical power output in human multijoint exercise with countermovement 总被引:1,自引:0,他引:1
Takarada Yudai; Hirano Yuichi; Ishige Yusuke; Ishii Naokata 《Journal of applied physiology》1997,83(5):1749-1755
Takarada, Yudai, Yuichi Hirano, Yusuke Ishige, and NaokataIshii. Stretch-induced enhancement of mechanical power output inhuman multijoint exercise with countermovement. J. Appl. Physiol. 83(5): 1749-1755, 1997.Therelation between the eccentric force developed during a countermovementand the mechanical power output was studied in squatting exercisesunder nominally isotonic load (50% of 1-repetition maximum). Thesubjects (n = 5) performed squattingexercises with a countermovement at varied deceleration rates beforelifting the load. The ground reaction force and video images wererecorded to obtain the power output of the body. Net muscle momentsacting at hip, knee, and ankle joints were calculated from videorecordings by using inverse dynamics. When an intense deceleration wastaken at the end of downward movement, large eccentric force wasdeveloped, and the mechanical power subsequently produced during thelifting movement was consistently larger than that produced without thecountermovement. Both maximal and mean power outputs during concentricactions increased initially with the eccentric force, whereas theybegan to decline when the eccentric force exceeded ~1.4 times the sumof load and body weight. Video-image analysis showed that thischaracteristic relation was predominantly determined by the torquearound the knee joint. Electromyographic analyses showed no consistentincrease in time-averaged integrated electromyograph from vastuslateralis with the power output, suggesting that the enhancement ofpower output is primarily caused by the prestretch-induced improvementof an intrinsic force-generating capability of the agonist muscle. 相似文献
112.
Motokuni Nakazawa Minoru Yamada Ryuichi Uchikawa Naoki Arizono 《Cell and tissue research》1995,280(1):59-64
Various parasitic nematodes secrete acetylcholinesterase (AChE). In this study, the localization of AChE in the nematode Nippostrongylus brasiliensis and the secretory forms of AChE in culture fluid were examined. A thiocholine method revealed that AChE activity was localized in the subventral glands, which have a secretory and excretory function via a duct connected to the excretory pore. By electron microscopy, AChE activity was found mainly in the matrix of secretory granules, and sometimes in the Golgi apparatus in the subventral gland cells. These results show that nematode AChE is produced and stored in the subventral glands. Monoclonal antibodies against AChE of human erythrocytes or electric rays also bound to the nematode subventral gland, suggesting immuno-cross-reactivity of AChE among these species. When AChE activity in the nematode excretory-secretory product was examined by SDS polyacrylamide gel electrophoresis combined with the thiocholine method, intense activity was demonstrated as a single band at 74kDa. Immunoblot analysis showed specific recognition of this molecule by IgE and IgG1 antibodies, but not by IgG2a antibody, in nematode-infected rat sera. These results indicate that the nematode AChE molecule produced in and secreted from the subventral glands is antigenic for the production of IgE/IgG1 in host animals. 相似文献
113.
Makoto Matsuoka Masanori Tamaoki Yuichi Tada Tatsuhito Fuyjimura Akemi Tagiri Naoki Yamamoto Yuriko Kano-Murakami 《Plant cell reports》1995,14(9):555-559
Transgenic rice plants (Oryza sativa cv. Nipponbare) carrying 1 or 2 copies of a rice homeobox gene, OSH1, under the control of the CaMV 35S promoter were generated. The transgene caused altered morphology of leaf, such as ligule-replacement and abnormal division of sclerenchyma cells. The phenotype of these leaves resembles that of maize leaf morphological mutant, Knotted 1, which is caused by duplication of the KN1 gene (Veit et al., 1990). The in situ hybridization analysis has revealed that the expression of endogenous OSH1 is mainly localized in developing vascular strands of stem. We have discussed the biological roles of OSH1 in rice based on these results. 相似文献
114.
Souichi Morikawa Kazuhiro Ogata Ai Sekikawa Akinori Sarai Shunsuke Ishii Yoshifumi Nishimura Haruki Nakamura 《Journal of biomolecular NMR》1995,6(3):294-305
Summary The solution structure of a specific DNA complex of the minimum DNA-binding domain of the mouse c-Myb protein was determined by distance geometry calculations using a set of 1732 nuclear Overhauser enhancement (NOE) distance restraints. In order to determine the complex structure independent of the initial guess, we have developed two different procedures for the docking calculation using simulated annealing in four-dimensional space (4D-SA). One is a multiple-step procedure, where the protein and the DNA were first constructed independently by 4D-SA using only the individual intramolecular NOE distance restraints. Here, the initial structure of the protein was a random coil and that of the DNA was a typical B-form duplex. Then, as the starting structure for the next docking procedure, the converged protein and DNA structures were placed in random molecular orientations, separated by 50 Å. The two molecules were docked by 4D-SA utilizing all the restraints, including the additional 66 intermolecular distance restraints. The second procedure comprised a single step, in which a random-coil protein and a typical B-form DNA duplex were first placed 70 Å from each other. Then, using all the intramolecular and intermolecular NOE distance restraints, the complex structure was constructed by 4D-SA. Both procedures yielded the converged complex structures with similar quality and structural divergence, but the multiple-step procedure has much better convergence power than the single-step procedure. A model study of the two procedures was performed to confirm the structural quality, depending upon the number of intermolecular distance restraints, using the X-ray structure of the engrailed homeodomain-DNA complex.Abbreviations rmsd
root-mean-square deviation
- NOE
nuclear Overhauser enhancement
- 4D-SA
simulated annealing in four-dimensional space
- Myb-R2R3
repeats 2 and 3 of the DNA-binding domain of the c-Myb protein
- DNA 16
Myb-specific binding DNA duplex with 16 base pairs
- IHDD-C
residues 3 to 59 of the C-chain of the engrailed homeodomain-DNA complex
- DNA11
DNA duplex with base pairs 9 to 19 of the engrailed homeodomain-DNA complex 相似文献
115.
In order to get an insight into the cellular mechanisms for the integration of the effects of gravity, we investigated the gravitactic behaviour in Paramecium. There are two main categories for the model of the mechanism of gravitaxis; one is derived on the basis of the mechanistic properties of the cell (physical model) and the other of the physiological properties including cellular gravireception (physiological model). In this review article, we criticized the physical models and introduced a new physiological model. Physical models postulated so far can be divided into two; one explaining the negative gravitactic orientation of the cell in terms of the static torque generated by the structural properties of the cell (gravity-buoyancy model by Verworn, 1889 and drag-gravity model by Roberts, 1970), and the other explaining it in terms of the dynamic torque generated by the helical swimming of the cell (propulsion-gravity model by Winet and Jahn, 1974 and lifting-force model by Nowakowska and Grebecki, 1977). Among those we excluded the possibility of dynamic-torque models because of their incorrect theoretical assumptions. According to the passive orientation of Ni(2+)-immobilized cells, the physical effect of the static torque should be inevitable for the gravitactic orientation. Downward orientation of the immobilized cells in the course of floating up in the hyper-density medium demonstrated the gravitactic orientation is not resulted by the nonuniform distribution of cellular mass (gravity-buoyancy model) but by the fore-aft asymmetry of the cell (drag-gravity model). A new model explaining the gravitactic behaviour is derived on the basis of the cellular gravity sensation through mechanoreceptor channels of the cell membrane. Paramecium is known to have depolarizing receptor channels in the anterior and hyperpolarizing receptors in the posterior of the cell. The uneven distribution of the receptor may lead to the bidirectional changes of the membrane potential by the selective deformation of the anterior and posterior cell membrane responding to the orientation of the cell in the gravity field; i.e. negative- and positive-going shift of the potential due to the upward and downward orientation, respectively. The orientation dependent changes in membrane potential with respect to gravity, in combination with the close coupling of the membrane potential and the ciliary locomotor activity, may allow the changes in swimming direction along with those in the helical nature of the swimming path; upward shift of axis of helix by decreasing the pitch angle due to hyperpolarization in the upward-orienting cell, and also the upward shift by increasing the pitch angle due to depolarization in the downward-orienting cell. Computer simulation of the model demonstrated that the cell can swim upward along the "super-helical" trajectory consisting of a small helix winding helically an axis parallel to the gravity vector, after which the model was named as "Super-helix model". Three-dimensional recording of the trajectories of the swimming cells demonstrated that about a quarter of the cell population drew super-helical trajectory under the unbounded, thermal convection-free conditions. In addition, quantitative analysis of the orientation rate of the swimming cell indicated that gravity-dependent orientation of the swimming trajectory could not be explained solely by the physical static torque but complementarily by the physiological mechanism as proposed in the super-helix model. 相似文献
116.
Hiroshi Tanabe Naoki Kamo Yonosuke Kobatake 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》1984,805(4):345-353
For the quantitative estimation of surface potential change in intact cells a method was devised with the use of fluorescent probes, 8-anilino-1-naphthalenesulfonate (ANS) and N-phenyl-1-naphthylamine (NPN). Estimated values in liposomes were compared with changes in the zeta potential determined from electrophoresis. Both values agreed within the experimental variation, showing the usefulness of the method. The method was also applied to Tetrahymena pyriformis, which exhibits chemotaxis to various chemical stimuli. The surface potential change was observed when the cell was stimulated not only by inorganic salts but also by electrically neutral, hydrophobic compounds. The surface potential started to change in accordance with the depolarization of the membrane potential, except for the case of K+. Changes in the surface potential of T. pyriformis in response to Ca2+ and K+ were compared with those in the membrane potential. The quantitative contribution of the surface potential to cell depolarization associated with chemoreception is discussed. 相似文献
117.
The sugar compositions and intrinsic viscosities of the hemicellulosicpolysaccharides of the coleoptile cell wall were determinedin a normal type barley and a semi-brachytic type which producedless IAA than the normal type. The major sugar components ofhemicelluloses for both strains were arabinose (Ara), xylose(Xyl) and glucose (Glc). The Ara and Xyl content per unit lengthin the normal type did not change during growth, while thosein the semi-brachytic type decreased during growth. The Glccontents per unit length and per coleoptile decreased duringgrowth in both types of barley. The intrinsic viscosity of hemicellulosesfrom the coleoptile of the normal type was lower than that ofthe semi-brachytic type. These results suggested that the synthesis of arabinoxylan keptpace with the growth of the coleoptile in the normal type butnot in the semi-brachytic type, and that the average mol wtof the hemicelluloses in the normal type was lower than thatin the semibrachytic type. These chemical and physical changesin the hemicellulosic polysaccharides may account for the stuntedcoleoptile of the semi-brachytic barley with its less amountof endogenous IAA. (Received March 14, 1984; Accepted June 8, 1984) 相似文献
118.
Takanobu Anai Jiro Yamamoto Ichiro Matsuda Naoki Taniguchi Takahito Kondo Bunsaku Nagai 《Human genetics》1984,66(2-3):282-285
Summary Two siblings with renal tubular acidosis (RTA) and nerve deafness were examined. It was found by ammonium chloride and bicarbonate loading tests that the 6-year-old brother had a hybrid type of RTA and his 4-year-old sister, a distal type of RTA. Enzyme activity and amount of enzyme protein of carbonic anhydrase isoenzyme I and II in red blood cells, measured using an immunoadsorbent method, were normal in both cases. Although this indicated that the RTAs of these patients are not generated by the carbonic anhydrase deficiency, an investigation with renal tissue is necessary to arrive at a final conclusion. 相似文献
119.
Growth Regulation of Dark-grown Dwarf Barley Coleoptile by the Endogenous IAA Content 总被引:1,自引:0,他引:1
Growth curves of dark-grown coleoptiles of 11 isogenic coleoptilardwarf strains of barley (Hordeum vulagare L. cv. Akashinriki:uzu, 5, 77, 97, 105, 125, 131, 133, 136, 145 and 148) were simulatedwith a logistic equation and the endogenous IAA contents ofthe barley strains were determined. Growth analysis of the dwarfbarley coleoptiles revealed that the final coleoptile lengthwas correlated with the growth rate on the 2nd day after germination(r=0.897), when the growth rate was about maximum. The endogenousIAA Content of the barley strains, measured fluorometrically,indicated that on the 2nd day, the dwarf strains contained lessendogenous IAA than the normal Strain. The IAA content on the2nd day was correlated to the growth rate on the 2nd day (r=0.907,except for Strain 145) and the final coleoptile length (r=0.933,except for strains 77 and 145). The correlation, however, wasnot significant on the 3rd day. These results suggested thatthe dwarfism of the dark-grown coleoptiles of the barley Strainsexamined is primarily controlled by the endogenous IAA content.
1 Present address: Department of Biology, Faculty of Science,Osaka City University, Osaka 558, Japan. (Received February 1, 1982; Accepted April 13, 1982) 相似文献
120.