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骨骼肌毫秒级功能变化时的结构研究 被引量:5

Research on ultrastructural morphology of skeletal muscle during its function change in millisecond
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摘要 本文报道了采用两对透射型红外传感器及数字脉冲输出电路组成的双向红外线探测器,与计算机连接,以自研的软件控制超低温快速冷冻固定仪,从超微结构的水平研究生物组织、细胞在毫秒级功能变化时的同步形态变化。 This paper reports the ultrastructural morphological changes with the millisecond time course in skeletal muscle during excitation\|contraction coupling. A new technology that is two\|way infrared detectors with computer has been used in this test. The principle of the two\|way infrared detector is that first pulse signal controls to produce the signal of electrical stimulation to stimulate the skeletal muscle and to start the freezing (spring speciment to frozen copper). At the same time, the first pulse signal can be delivered to computer to set the start point of electrical stimulation\|quick freezing by the special software. The second pulse signal of the infrared detector is delivered to computer while the stimulated skeletal muscle impacts the surface of copper\|mirror rapidly. This pulse signal is processed and recorded by the computer. The time courses of skeletal muscle stimulated are the time differences. The time differences can be calculated.\;The one result shows that the gaps have became narrow between the T\|tubule and endosac when skeletal muscle is stimulated. The another result is that the material of electronic density can appear in the sarcoplasmic reticulum as a core and face to T\|tubule in less than 10 ms. 
作者 杨勇骥 郑尊 邵晓良 夏金辉 余宏宇 吴越 姜永良
机构地区 第二军医大学基础部生物物理研究所
出处 《电子显微学报》 CAS CSCD 1999年第5期517-521,共5页 Journal of Chinese Electron Microscopy Society
基金 国家自然科学基金
关键词 红外线探测器 骨髓肌 毫秒级 功能变化 结构 two\|way infrared detector computer quick freezing fixation skeletal muscle
分类号 R322.74 [医药卫生—人体解剖和组织胚胎学]
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参考文献3

  • 1杨勇骥,电子显微学报,1996年,15卷,476页
  • 2杨勇骥,Manual The 14th Int Congress X-ray Optics and Microanalysis,1995年,49页
  • 3杨勇骥,电子显微学报,1994年,13卷,387页

同被引文献18

  • 1杨勇骥,郑尊,邵晓良,吴越,夏愿耀,夏金辉.无冷冻防护剂保护时的心、肾组织快速冷冻研究[J].电子显微学报,1996,15(5):476-476. 被引量:3
  • 2杨勇骥.红外探测及计算机控制冷冻固定对骨骼肌兴奋-收缩偶联时的超微结构变化研究[J].电子显微学报,1999,18(5):517-517.
  • 3杨勇骥.毫秒级实时处理细胞超微结构形态变化研究[J].中国学术期刊文摘,1998,4(2):212-212.
  • 4Kort A A, Capogrossi M C, Lakatta E G. Frequency,amplitude and propagation velocity of spontaneous Ca2+ dependent contractile waves in intact adult rat cardiac muscle and isolated myocytes [ J ] . Circ Res, 1985,57: 844-855.
  • 5Fabiato A. Calcium-induced release of calcium from the cardiac sarcoplasmic reticulum. Am J Physiol, 1983,245:C1 - C14.
  • 6Pizarro G, Fitts R, Rios E. Selectivity of a cation binding membrane site essential for EC coupling in skeletal muscle [J]. Biophys J,1988,53(3) :645a.
  • 7Rios E, Pizarro G. Voltage seneor of excitation-contraction coupling in skeletal muscle[J] . Physiol Rev, 1991,71 (4):849.
  • 8Endo M. Calcium release from sarcoplasmic reticulum[ J].Curr Top Memb Trans, 1985,25: 181 - 230.
  • 9Scummy J R. Comparative anatomy: in praise of a powerful approach to elucidate mechanisms translating cardiac excitation into purposeful contraction [ J ]. J Mol Cell Cardiol, 1995,27( 1 ): 19.
  • 10Kort A A,Capogross M,Cand L, Katta E G. Frequency and propagation velocity of spontaneous Ca2+ dependent contractilewaves in intact adult rat cardiac muscles and isolated myocytes[ J]. Circ Res, 1985,57: 844-855.

引证文献5

二级引证文献7

电子显微学报
1999年 第5期

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