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31.
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Cells must exert traction forces onto the substratum for continuous migration. Molecular dynamics such as actin polymerization at the front of the cell and myosin II accumulation at the rear should play important roles in the exertion of forces required for migration. Therefore, it is important to reveal the relationships between the traction forces and molecular dynamics. Traction forces can be calculated from the deformation of the elastic substratum under a migrating cell. A transparent and colorless elastic substratum with a high refractive index (1.40) and a low Young's modulus (1.0 kPa) were made from a pair of platinum-catalyzed silicones. We used this substratum to develop a new method for simultaneous recording of molecular dynamics and traction forces under a migrating cell in which total internal refractive fluorescence (TIRF) and force microscopies were combined. This new method allows the detection of the spatiotemporal distribution of traction forces produced by individual filopodia in migrating Dictyostelium cells, as well as simultaneous visualization of these traction forces and the dynamics of filamentous myosin II. 相似文献
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For use in genetic stock identification, we developed an oligonucleotide (DNA) microarray hybridization method for rapid and accurate detection of nucleotide sequence variations in 20 previously identified variable nucleotide sites in about 500 bp within the 5 half of the control region of mitochondrial DNA of chum salmon (Oncorhynchus keta). The method includes immobilization of synthesized oligonucleotides containing respective polymorphic sites on a glass slide precoated with polycarbodiimide resin, a 2-hour hybridization with DNA microarray of biotinylated polymerase chain reaction fragments spanning the 5 variable portion followed by short washing, and visualization of hybridization signals by conventional ABC method and scanner-assisted computation of signal intensity on a computer. The entire process of hybridization and detection was completed within 4 hours. The resulting DNA microarray could detect all of the single nucleotide mutations and therefore could be used to identity the sequence variations defining 30 mtDNA haplotypes of chum salmon as revealed previously by nucleotide sequence analysis. 相似文献
35.
Dalsgaard MK Ogoh S Dawson EA Yoshiga CC Quistorff B Secher NH 《American journal of physiology. Regulatory, integrative and comparative physiology》2004,287(3):R534-R540
Above a certain level of cerebral activation the brain increases its uptake of glucose more than that of O(2), i.e., the cerebral metabolic ratio of O(2)/(glucose + 12 lactate) decreases. This study quantified such surplus brain uptake of carbohydrate relative to O(2) in eight healthy males who performed exhaustive exercise. The arterial-venous differences over the brain for O(2), glucose, and lactate were integrated to calculate the surplus cerebral uptake of glucose equivalents. To evaluate whether the amount of glucose equivalents depends on the time to exhaustion, exercise was also performed with beta(1)-adrenergic blockade by metoprolol. Exhaustive exercise (24.8 +/- 6.1 min; mean +/- SE) decreased the cerebral metabolic ratio from a resting value of 5.6 +/- 0.2 to 3.0 +/- 0.4 (P < 0.05) and led to a surplus uptake of glucose equivalents of 9 +/- 2 mmol. beta(1)-blockade reduced the time to exhaustion (15.8 +/- 1.7 min; P < 0.05), whereas the cerebral metabolic ratio decreased to an equally low level (3.2 +/- 0.3) and the surplus uptake of glucose equivalents was not significantly different (7 +/- 1 mmol; P = 0.08). A time-dependent cerebral surplus uptake of carbohydrate was not substantiated and, consequently, exhaustive exercise involves a brain surplus carbohydrate uptake of a magnitude comparable with its glycogen content. 相似文献
36.
Ito N Nomura S Iwase A Ito T Kikkawa F Tsujimoto M Ishiura S Mizutani S 《Biochemical and biophysical research communications》2004,314(4):1008-1013
Placental leucine aminopeptidase (P-LAP), a type-II transmembrane protease responsible for oxytocin degradation during pregnancy, is converted to a soluble form through proteolytic cleavage. The goal of this study was to determine the nature of the P-LAP secretase activity. The hydroxamic acid-based metalloprotease inhibitors GM6001 and ONO-4817 as well as the TNF-alpha protease inhibitor-2 (TAPI-2) reduced P-LAP release, while tissue inhibitors of metalloproteinase (TIMP)-1 and TIMP-2, which are matrix metalloproteinase inhibitors, had no effect on P-LAP release in Chinese hamster ovary (CHO) cells stably overexpressing P-LAP, thus indicating possible involvement of ADAM (a disintegrin and metalloproteinase) members in P-LAP shedding. Furthermore, overexpression of ADAM9 and ADAM12 increased P-LAP release in P-LAP-CHO transfectants. Immunohistochemical analysis in human placenta demonstrated strong expression of ADAM12 in syncytiotrophoblasts, while little expression of ADAM9 was detected throughout the placenta. Our results suggest ADAM members, at least including ADAM12, are involved in P-LAP shedding in human placenta. 相似文献
37.
Shigehiko Yumura 《Protoplasma》1996,192(3-4):217-227
Summary Fluorescently labeled myosin II fromDictyostelium and fluorescently labeled antibody Fab fragments against myosin II fromDictyostellium were introduced into livingDictyostelium amoebae by electroporation. Fluorescent labeling of myosin II impairs neither actin-activated ATPase activity nor the ability to form filaments in vitro. Fluorescently labeled Fab also did not interfere with the functions of myosin II in vitro. After electroporation, introduced fluorescently labeled myosin II was distributed diffusely in the endoplasm but some of it accumulated at the tail cortical region of migrating cells. During the course of observations, intense fluorescence due to myosin II disappeared and then it appeared again instantaneously in the cortical regions during amoeboid movement. Fluorescently labeled Fab, after electroporation, bound to endogenous myosin II in amoebae and the dynamic changes in its distribution were similar to those of fluorescently labeled myosin II. The fluorescence due to myosin II also underwent dynamic redistribution during the division of cells and chemotactic stimulation. The introduction of labeled Fab and labeled myosin II did not impair the motility ofDictyostelium. During changes in direction associated with cell locomotion, myosin II accumulated at the original front region of the cell and, thereafter, the accumulation was observed at the new tail region of the cell. These results are consistent with the hypothesis that myosin II has two possible roles for cell locomotion. One is that myosin II accumulates at tail regions to produce the power required for contraction. The other is that it hinders the extension of pseudopods in directions other than the frontal direction. 相似文献
38.
Shigehiko Yumura 《Journal of plant research》1997,110(4):501-510
Myosin II plays important roles in cell division, cell migration, and morphogenesis. It is not evenly distributed within a
cel but localized in restricted regions such as at the furrow region of dividing cells and at the rear region of migrating
cells. At these regions, myosin produces power for cells to divide to produce two daughter cells and power to promote the
rear contraction of cells that propels cell migration on the basis of a mechanochemical energy transduction. In this review,
I will focus on the mechanisms used to localize myosin II molecules in specific subcellular regions.
Recipient of the Botanical Society Award of Young Scientists, 1995 相似文献
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Regulation of middle cerebral artery blood velocity during recovery from dynamic exercise in humans.
Shigehiko Ogoh James P Fisher Sushmita Purkayastha Ellen A Dawson Paul J Fadel Michael J White Rong Zhang Niels H Secher Peter B Raven 《Journal of applied physiology》2007,102(2):713-721
We sought to examine the regulation of cerebral blood flow during 10 min of recovery from mild, moderate, and heavy cycling exercise by measuring middle cerebral artery blood velocity (MCA V). Transfer function analyses between changes in arterial blood pressure and MCA V were used to assess the frequency components of dynamic cerebral autoregulation (CA). After mild and moderate exercise, the decreases in mean arterial pressure (MAP) and mean MCA V (MCA Vm) were small. However, following heavy exercise, MAP was rapidly and markedly reduced, whereas MCA Vm decreased slowly (-23 +/- 4 mmHg and -4 +/- 1 cm/s after 1 min for MAP and MCA Vm, respectively; means +/- SE). Importantly, for each workload, the normalized low-frequency transfer function gain between MAP and MCA Vm remained unchanged from rest to exercise and during recovery, indicating a maintained dynamic CA. Similar results were found for the systolic blood pressure and systolic MCA V relationship. In contrast, the normalized low-frequency transfer function gain between diastolic blood pressure and diastolic MCA V (MCA Vd) increased from rest to exercise and remained elevated in the recovery period (P < 0.05). However, MCA Vd was quite stable on the cessation of exercise. These findings suggest that MCA V is well maintained following mild to heavy dynamic exercise. However, the increased transfer function gain between diastolic blood pressure and MCA Vd suggests that dynamic CA becomes less effective in response to rapid decreases in blood pressure during the initial 10 min of recovery from dynamic exercise. 相似文献