排序方式: 共有28条查询结果,搜索用时 15 毫秒
1.
一氧化氮与运动疲劳关系的研究进展 总被引:5,自引:0,他引:5
一氧化氮(NO)是一种自由基,也是一种重要的细胞内信使分子,其参与许多生理过程,具有广泛的生物学效应。本文主要从NO对肌肉的外周机制和大脑的中枢机制两方面对运动性疲劳进行阐述,探讨了NO与运动性中枢疲劳的关系,并展望了其在消除运动性疲劳的意义。 相似文献
2.
不同负荷训练对男子皮艇运动员血清—氧化氮合酶的影响 总被引:1,自引:0,他引:1
探讨不同负荷训练对男子皮艇运动员一氧化氮合酶NOS、一氧化氮NO的影响 ,并结合其他血清指标CK、CK -MB、LDH、BUN的变化 ,探索血清NOS、NO在实际训练中的作用。 相似文献
3.
本文定义了稀土元素与其它元素之间的加权平均电负性差P和加权平均原子赝势半径差Q.发现具有较好磁性能的稀土永磁材料的P,Q值点基本上分布在一个特定的狭带区范围内,而高Tc氧化物超导体的P,Q值点基本上也分布在另一个特定的区域范围内,而且这两个区域的走向基本平行.上述结果将有助于人们探索新的高Tc氧化物超导体. 相似文献
4.
以Tb4O7、Fe(NO3)3.9H2O、硝酸(1:1)为原料,在柠檬酸体系中用溶胶凝胶法合成了具有钙钛矿结构的稀土复合氧化物TbFeO3;用XRD、TEM对产物的组成、颗粒、大小、形貌进行了表征;结果表明,产物为纳米颗粒,平均粒径为21 nm左右,且颗粒均匀。另外以TbFeO3为光催化剂,对多种水溶性染料进行了光催化降解,发现TbFeO3有较好的光催化效果。实验表明,在无光照条件下,TbFeO3的脱色效果初期较明显,但效果达到一定程度后不再明显,并且随时间的推移,甚至有所下降。在光照条件下,TbFeO3的脱色效果初期短时间内就特别明显,最后接近100%. 相似文献
5.
锂离子电池近年来引起了越来越多研究者的浓厚兴趣,科学家对此进行了大量的研究.本文主要综述锂离子电池正极材料的研究现状,阐述与评价有关用金属氧化物和有机多硫聚合物作为锂离子电池正极材料的合成和电化学性能,并对其应用前景进行分析. 相似文献
6.
通过实验比较了新鲜菠菜、上海青菜叶、苦荬菜、桑叶四种绿叶类生物催化剂催化H2O2分解的反应速率,并考查了催化剂的催化性能、用量、H2O2的浓度、操作情况对反应的影响。得出了催化H2O2分解的最佳生物催化剂以及反应条件,结果表明:在同等条件下,桑叶的催化效果最好,催化剂的用量以3.0g为宜,H2O2的浓度10%即可。 相似文献
7.
M. Smita K. Naidu A. N. Suryakar Sanjay C. Swami R. V. Katkam K. M. Kumbar 《Indian journal of clinical biochemistry : IJCB》2007,22(2):140-144
Cervical cancer (CaCx) is a global public health problem as it is the second most common cancer leading to the death of women
worldwide. Many references revealed that the low levels of antioxidants induce the generation of free radicals leading to
DNA damage and further mutations. In the present study attempt have been made to evaluate the levels of serum Lipid peroxide,
Nitric Oxide (NO.) Erythrocytic—Superoxide Dismutase (RBC-SOD), Vitamin-C, serum Copper (Cu) and serum Zinc (Zn). 120 patients were divided
in 4 groups according to the increasing CaCx stages i.e. stage I, II, III & IV respectively. All the patients were around
the age group of 25–65 years. 30 healthy women between the same age group were treated as controls. Highly significant increased
values of MDA, NO. and Cu were observed (p<0.001) whereas the activity of RBC-SOD, levels of Vitamin-C and Zn were significantly decreased in
CaCx patients as compared with healthy controls (p<0.001). Cu/Zn ratio was found to be altered in CaCx patients. From our
findings it can be concluded that the oxidative stress is induced among CaCx patients, which inturn increases the risk of
CaCx. 相似文献
8.
Vasavidevi V. Bet Kishor H. Deshpande Adinath N. Suryakar Rajesh D. Ankush Raghavendra V. Katkam 《Indian journal of clinical biochemistry : IJCB》2006,21(2):177-180
Crystal aggregation and retention are critical events for the formation of kidney stones. There is a close association between
crystal development and free radical activity in vivo. In the present study 30 subjects presenting with urolithiasis were
included. Serum levels of total lipid peroxides, nitric oxide (as nitrite), α-tocopherol, plasma ascorbic acid (vitamin C)
and erythrocyte superoxide dismutase activity were measured. These findings were compared with 30 age matched control subjects
irrespective of sex. Student's ‘t’ test was applied for statistical analysis. There was a significant increase in lipid peroxides
(p<0.001), where as significant decrease in nitrite (p<0.01) and α-tocopherol (p<0.001) levels were observed. Plasma ascorbate
(p>0.05) and erythrocyte superoxide dismutase activity (p>0.05) was also found to be decreased but the difference was not
statistically significant which suggests that oxidative stress is evident in urolithiasis with depletion in antioxidant status
where as decrease in nitric oxide may be less abetting in disease condition. 相似文献
9.
目的:探讨补充刺五加提取物对大强度耐力运动大鼠不同组织中NO、NOS含量的影响。方法:采用大强度耐力运动训练,通过补充刺五加提取物对比实验,观察大强度耐力运动后大鼠不同组织中NO、NOS含量的变化。结果:运动服药组心肌组织和肝脏组织中NO含量高于运动组,有显著性差异。运动服药组心肌组织中总NOS酶活性高于运动组,有显著性差异;运动服药组脑组织和肝脏组织中总NOS酶活性明显低于运动组,有显著性差异;运动组和运动服药组肾组织中总NOS酶活性无明显差异。结论:补充刺五加提取物可以使运动大鼠体内心肌组织和肝脏组织中一氧化氮(NO)的含量升高,改善运动大鼠心脏和肝脏中血管收缩状态,使血管舒张,血供增加。 相似文献
10.
智能材料与界面材料有机结合,赋予界面材料智能特性将是研究智能材料的一个新领域. 通过水溶液以及低温水热合成方法,我们分别制备了氧化锌以及氧化钛一维无机半导体纳米棒薄膜。结合它们特殊的微观/宏观表面几何结构以及表面紫外光敏感性,在紫外光以及暗处保存的交替作用下,我们实现了表面超疏水以及超亲水的可逆转变性能。在这里,我们还讨论了一维纳米材料表面浸润性可逆转变的机理。这一原理可以拓展到其它具有类似纳米结构和外场相应性的纳米表面中。这些具有智能相应性的材料具有极其重要和广泛的工业用前景。 相似文献