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断氧、再给氧对萌发绿豆超弱发光的影响 被引量:1

EFFECT OF OXYGEN ON ULTRAWEAK PHOTON EMISSION OF GENERATING MUNGBEAN SEEDS
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摘要 无论是用氮气法还是用水浸法造成萌发绿豆断绝氧气时其超弱发光(PE)都会大幅度下降,接近本底.当重新给氧时.萌发绿豆的PE立即上升,超过正常时的PE强度,随后才逐渐下降,最后接近正常时的发光水平,形成PE峰.PE峰值随着断氧时间的增加而增大,断氧半小时,已出现明显的峰值;断氧20小时后,PE峰值不再增大、出现饱合. The intensity of Ultraweak Photon Emission ( PE ) from generating mungbean seeds decreases greatly when samples are isolated from oxygen, bening soaked in water or put in N2 ambience. But it increases very fast when the samples are given oxygen again, then gradually decreases to nornal level. The longer the isolation from oxygen is, the higher the PE peak will reach. When isolation lasts half an hour or more, the PE peak will be obvious. While isolation goes beyond 20 hours, the PE peak will not rise any more but tends to stability.
作者 张有 盂耀勇 罗金梅 刘颂豪
机构地区 华南师范大学量子电子学研究所
出处 《华南师范大学学报(自然科学版)》 CAS 1991年第2期41-44,共4页 Journal of South China Normal University(Natural Science Edition)
关键词 超弱发光 断氧 活性氧 绿豆 ultraweak photon emission isolated from oxygen activated oxygen
分类号 Q63 [生物学—生物物理学]
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参考文献2

  • 1沈恂,傅世樒,张月敬,李新愿,代军,于明珠.生物系统超弱发光的探测:绿豆、大鼠血液和3T3细胞的发光[J]生物物理学报,1988(02).
  • 2毛大璋,沈恂,张月敬,李新愿,戴军,周佩珍.代谢抑制剂对萌发绿豆超弱发光的影响[J]生物物理学报,1988(02).

同被引文献39

  • 1Vogel R, Sussmuth R. Weak light emission patterns from lactic acid bacteria. Luminescence, 1999,14:99-105.
  • 2Quiekenden T I, Tilbury R N. Luminescence spectra of exponential and stationary phase cultures of respiratory deficient Saccharomyces cerevisiae. J Photochem Photohiol B, 1991,8:169-174.
  • 3Bertogna E, Bezerra J, Conforti E, et al. Acute stress in seedlings detected by ultra-weak photon emission. J Photochem Photobiol B, 2013,118:74-76.
  • 4Rastogi A, Pospisil P. Ultra-weak photon emission as a non-invasive tool for the measurement of oxidative stress induced by UVA radiation in Arahidopsis thaliana. J Photochem Photobiol B, 2013,123:59-64.
  • 5Kobayashi M, Takeda M, Ito K, et al. Two-dimensional photon counting imaging and spafiotemporal characterization of ultraweak photon emission from a rat's brain in vivo. J Neurosci Methods, 1999,93:163-168.
  • 6Kobayashi M, Kikuehi D, Okamura H. Imaging of ulaweak spontaneous photon emission from human body d/splaying diurnal rhythm. PLoS One, 2009,4:e6256.
  • 7Van Wijk R, Van Wijk E P, Wiegant g A, et al. Free radicals and low-level photon emission in human pathogenesis: state of the art. Indian J Exp Bid, 2008,46:273-309.
  • 8Cadenas E, Wefers H, Sies H. Low-level chemiluminescence of isolated hepatocytes. Eur J Biochem, 1981,119:531-536.
  • 9Havaux M, Triantaphylides C, Genty B. Autoluminescenee imaging: a non-invasive tool for mapping oxidative stress. Trends Plant Sci, 2006,11:480-484.
  • 10Prasad A, Pospisil P. Towards the two-dimensional imaging of spontaneous ultra-weak photon emission from microbial, plant and animal ceils. Sci Rep, 2013,3:1211.

引证文献1

华南师范大学学报(自然科学版)
1991年 第2期

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