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0.23T稳恒磁场对不同温度离体过氧化氢酶的磁效应研究 总被引:4,自引:1,他引:3
研究了 0 .2 3T稳恒磁场对不同温度下的离体牛肝过氧化氢酶 (CAT)构象及活力的影响 ,并从分子水平讨论了磁场对不同温度的过氧化氢酶产生不同生物学效应的可能机制。将不同温度的天然酶液置于磁感应强度为0 .2 3T的磁场中分别处理一定的时间 ,处理过程中保持环境温度与酶液温度一致 ,撤离磁场后立即在相同实验条件下对其进行光谱分析及量热分析 ,并用Beers&Sizers法 (改良型 )测定酶活力。结果表明 ,磁场使 2 5℃过氧化氢酶的构象发生明显变化 ,表现为荧光偏振度增加、出现明显的差示扫描量热曲线、产生λ2 10nm~ 310nm的紫外差光谱以及λ330nm荧光发射峰的荧光强度改变 (荧光发射峰的峰位未移动 ) ,构象变化的同时酶活力增加 ;15℃过氧化氢酶的构象及活力变化规律与 2 5℃过氧化氢酶类似 ,但强度均弱于 2 5℃酶 ;而 4℃过氧化氢酶的构象及活力没有发生变化 ,表现出未受磁场处理的影响。相同实验条件下 ,磁场对不同温度的酶分子影响不同 ,随温度的增加 ,影响效应趋于显著。由于不同温度的酶分子之间的差异在于构象状态的不同 ,这表明酶分子自身的构象状态对磁场处理效果有极其重要的影响。不同温度的过氧化氢酶磁效应差异显著可能是由磁致酶构象变化的特殊机制所引起。磁场对酶分子构象的影响可能是通� 相似文献
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外磁场对小麦过氧化物酶酶促反应动力学的影响 总被引:12,自引:1,他引:11
采用初速度法研究了外磁场对小麦过氧化物酶(POD)酶促反应动力学的影响。发现外磁场可使POD酶促反应体系时间进程加快,反应速度提高。进一步研究表明,外磁场使反应体系的动力学参数发生了变化。 相似文献
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外磁场对小麦萌发期过氧化物酶合成的影响及其激活效应 总被引:2,自引:0,他引:2
外磁场处理小麦种子可以提高萌发期过氧化物酶(POD)的活性;电泳图谱中,磁场透发出两条(POD)同工酶新带。在萌发初期(12h),亚胺环己酮(CHM)对外磁场提高POD活性的作用影响很小,外磁场可使POD酶蛋白的比活力增长,表明在萌发初期,磁场对种胚内的POD可能具有活化作用。萌发1d后,CHM逐渐削弱外磁场对POD活性的提高作用,而放线菌素D(AMD)则无影响。 相似文献
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目的:探讨恒定磁场对日本三角涡虫(Dugesia japonica)无性横裂生殖及抗氧化酶活力的影响.方法:应用种群累积培养法,观察了恒定磁场对日本三角涡虫的种群增长、无性横裂生殖及涡虫体内超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活力的影响.结果:场强大小在200mT-500mT范围的恒定磁场能促进涡虫的无性横裂生殖,但恒定磁场显著抑制涡虫的SOD及CAT活力.结论:日本三角涡虫对恒定磁场的生理学响应较为敏感,可作为生物磁学研究适宜的实验材料. 相似文献
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磁场对质粒pBR322DNA的影响 总被引:6,自引:1,他引:5
讨论了经500mT、900mT、1200mT、1500mT恒磁场作用后的质粒pBR322DNA与Ⅱ型限制性内切酶EcoRⅠ、HindⅢ、BamHⅠSalⅠ、PstⅠ、PuvⅡ、TaqⅠ、BglⅠ、RsaⅠ、HinfⅠ、APaⅠ、KpnⅠ等的单酶解、双酶解及多酶解反应。从琼脂糖电泳分离酶解片段的结果,发现经磁场作用过的pBR322DNA在3361—631bp的区段内产生了一个被HinfⅠ识别的新序列GANTC,证明了磁场作用能引起DNA点突变。 相似文献
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作物细胞耐旱保护酶系统对外磁场的反应 总被引:12,自引:0,他引:12
作物细胞的耐旱保护酶由过氧化物酶(POD) 、过氧化氢酶(CAT) 和超氧化物歧化酶(SOD) 组成。对小麦种子施加0.1T 的磁场处理使其萌发时细胞中POD 活性提高,幼苗根系和叶片细胞中的POD 活性也发生了变化,叶片的POD 同工酶谱中多出了两个酶带。使用蛋白质合成抑制剂和转录抑制剂发现,POD 活性提高的原因是磁场处理促进了POD 合成的翻译过程。干旱胁迫下,经磁场处理的幼苗叶片细胞中的POD、CAT 和SOD 活性均比对照高,膜脂过氧化产物丙二醛( MDA) 含量比对照低,表明保护酶系统的功能有所增强。 相似文献
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用快中子法选育细菌脂肪酶高产菌株 总被引:4,自引:0,他引:4
研究了从土壤中筛选产脂肪酶的菌株,利用紫外线,快中子,快中子和磁场复合,γ射线,γ射线和磁场复合诱变,以酶活为筛子进行诱变育种,结果,出发菌酶活较低的一株得到了一株酶活为396.22U/mL的诱变株,此酶活比出发菌株高92倍,并发现比菌对紫外线和快中子比较敏感,而出发菌酶活较高的一株得到了酶活为424.60U/mL发酵液的诱变株,此酶活为出发菌株3.0倍,在此基础上,初步探讨了快中子,γ射线及磁场复合处理在产脂肪酶菌种诱变中的作用,并认为,在产脂肪酶菌株的诱变中快中子诱变更为有效。 相似文献
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Hore PJ 《Progress in biophysics and molecular biology》2005,87(2-3):205-212
This, the first session of the Workshop, focussed on sources of exposure to and interaction mechanisms of intense static magnetic fields. The four presentations dealt with (1) the magnetic fields produced by diagnostic magnetic resonance imaging systems; (2) the ways in which static magnetic fields can interact with matter, in particular human tissue; (3) the effects of magnetic fields on enzyme reaction rates; and (4) working practices for high-field magnet development. 相似文献
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《Electromagnetic biology and medicine》2013,32(3):235-241
The exposure from low-frequency electric and magnetic fields to sleeping subjects was analyzed at 343 sites. To establish the exposure due to electric fields, a new method was used to measure the current density on the body surface of the test subjects lying in their beds. The exposure due to magnetic fields was determined by short-term measurements of the magnetic flux density using induction coils. The exposures from the electric and magnetic fields were compared. The result was that, in general, the electric fields contribute much more to the total exposure than the magnetic fields. 相似文献
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The literature on biological effects of magnetic and electromagnetic fields commonly utilized in magnetic resonance imaging systems is surveyed here. After an introduction on the basic principles of magnetic resonance imaging and the electric and magnetic properties of biological tissues, the basic phenomena to understand the bio-effects are described in classical terms. Values of field strengths and frequencies commonly utilized in these diagnostic systems are reported in order to allow the integration of the specific literature on the bio-effects produced by magnetic resonance systems with the vast literature concerning the bio-effects produced by electromagnetic fields. This work gives an overview of the findings about the safety concerns of exposure to static magnetic fields, radio-frequency fields, and time varying magnetic field gradients, focusing primarily on the physics of the interactions between these electromagnetic fields and biological matter. The scientific literature is summarized, integrated, and critically analyzed with the help of authoritative reviews by recognized experts, international safety guidelines are also cited. 相似文献
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The influence of Earth magnetic field shielded down to 0.3 microT and static magnetic field (60-160 microT) on the proliferation and differentiation of satellite muscle cells in the primary culture has been investigated. A stimulatory effect of static magnetic fields on the rate of the formation of massive multinucleated myotubes and an increase in the intracellular calcium concentration ([Ca2+]i) have been detected for magnetic fields of the microtesla range. On the other hand, it was shown that the reduction of earth magnetic fields to 0.3 microT leads to the inhibition of proliferation and differentiation of skeletal muscle cells in the primary culture. Since the formation of contractile myotubes during in vitro experiments is similar to the regeneration of skeletal muscle fibers under muscle damage in vivo, it may be concluded that weak magnetic fields have a strong effect on intracellular processes by influencing all phases of muscle fiber formation. It is necessary to take this fact into consideration when forecasting probable complications of skeletal muscle regeneration during long-term exposure of man to low-intensity magnetic fields and also for the potential use of low static magnetic fields as a tool to recover the affected myogenesis. 相似文献
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Magnetoreception is the ability of organisms to perceive magnetic fields in the surrounding environment and changes in its properties such as field direction, intensity and gradient, where the effect on organisms can manifest as an array of reactions. As the magnetic sense is found in many taxa, both evolutionarily young and old, it can be assumed that magnetoreception came into existence as one of the first sensory systems. Many studies on the effect of magnetic fields on fishes have considered both fishes that migrate for long distances and those that are more or less sedentary. Research has focused on tracing the perception of the geomagnetic field by fishes and understanding magnetic fields that are smaller and larger than the ambient Earth's geomagnetic field. The question of the effect of magnetic fields of values higher than the Earth's is gaining importance with the increasing effect of anthropogenic magnetic and electromagnetic fields in aquatic ecosystems. This review draws together the results of studies on the effect and reception of natural and human-generated magnetic fields on fishes at various stages of ontogeny, chronologically arranged from gametes, through embryonic development, embryonic and larval motor function, directional reactions of embryos and larvae, orientation of fishes, to the mechanisms of magnetic field reception. The present state of knowledge indicates a common nature of effect on various ontogenetic stages of fishes. However, understanding of the mechanisms of magnetic sense in fishes and its relevance for ecological outcomes highlights that further progress requires more detailed research. 相似文献
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The biological effects of extremely low frequency magnetic fields (ELF MFs) on living organisms have been explored in many studies. Most of them demonstrate the biological effects caused by 50/60 Hz magnetic fields or pulsed magnetic fields. However, as the development of power electronics flourishes, the magnetic fields induced are usually in other different waveforms. This study aims to assess the effects of magnetic fields generated by inverter systems on the early growth of plants using mung beans as an example. In the experiment, an inverter which can produce sinusoidal pulsed width modulation (SPWM) voltages was used to drive 3 specially made circular coils and an AC motor. Six SPWM voltages with different fundamental frequencies (10, 20, 30, 40, 50, and 60 Hz) set on the inverter drive the circuit to produce the specific kinds of MFs. The results indicate that the magnetic field induced by a 20 or 60 Hz SPWM voltage has an enhancing effect on the early growth of mung beans, but the magnetic fields induced by SPWM voltages of other frequencies (30, 40, and 50 Hz) have an inhibitory effect, especially at 50 Hz. 相似文献
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Recent laboratory and epidemiological results have stimulated interest in the hypothesis that human beings may exhibit biological responses to magnetic and/or electric field transients with frequencies in the range between 100 Hz and 100 kHz. Much can be learned about the response of a system to a transient stimulation by understanding its response to sinusoidal disturbances over the entire frequency range of interest. Thus, the main effort of this paper was to compare the strengths of the electric fields induced in homogeneous ellipsoidal models by uniform 100 Hz through 100 kHz electric and magnetic fields. Over this frequency range, external electric fields of about 25–2000 V/m (depending primarily on the orientation of the body relative to the field) are required to induce electric fields inside models of adults and children that are similar in strength to those induced by an external 1 μT magnetic field. Additional analysis indicates that electric fields induced by uniform external electric and magnetic fields and by the nonuniform electric and magnetic fields produced by idealized point sources will not differ by more than a factor of two until the sources are brought close to the body. Published data on electric and magnetic field transients in residential environments indicate that, for most field orientations, the magnetic component will induce stronger electric fields inside adults and children than the electric component. This conclusion is also true for the currents induced in humans by typical levels of 60 Hz electric and magnetic fields in U.S. residences. Bioelectromagnetics 18:67–76, 1997. © 1997 Wiley-Liss, Inc. 相似文献
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王佳欢 《现代生物医学进展》2008,8(12)
本文综述了从近年来国内外的各类关于磁场抑制肿瘤的实验研究以及临床工作,包括肿瘤细胞实验、动物接种肿瘤实验、临床治疗探索、各类模型以及机理研究、相关物理机制的分析以及磁场治疗癌症的展望。 相似文献