低功率He-Ne激光照射下细胞内活性氧自由基的产生和游离Ca^2＋浓度的研究

在临床应用中,低功率He-Ne激光(632.8 nm)能促进骨骼肌修复,加速创伤愈合,降低牙齿的超敏感性,减缓疼痛等.大量研究表明:低功率He-Ne激光能调节细胞的众多行为,如细胞增殖、分泌、迁移、粘附、蛋白质合成和基因表达等.但低功率He-Ne激光调节细胞行为的分子机制并未阐明,考察低功率He-Ne激光照射后细胞内活性氧自由基的产生水平和游离ca2 浓度是否会发生变化,通过激光扫描共聚焦显微镜,分别利用H:DCFDA和Fluo-3/AM这两种荧光探针,检测到经He-Ne激光照射后,肺腺癌细胞内活性氧自由基的水平上调以及游离Ca2 浓度增加.该研究为低功率He-Ne激光的生物光刺激效应提供了可能的分子机理.     

增强UV-B辐射和He-Ne激光对小麦原生质体微管骨架的影响

以小麦叶片原生质体为材料,采用间接免疫荧光定位法标记其微管系统,并利用激光共聚焦扫描显微系统进行观察。研究了低剂量He-Ne激光(5mW.mm-2)、增强UV-B辐射(10.08kJ.m-2.d-1)及二者的复合处理对小麦幼苗叶肉细胞中微管骨架的影响。结果表明,增强UV-B辐射后,小麦叶片细胞中微管骨架发生解聚,呈短棒状或点状分布,微管束弥散且荧光强度减弱;而增强UV-B辐射后再施以He-Ne激光处理,小麦叶肉细胞微管骨架有部分断裂,但较单独UV-B处理组的损伤程度轻,说明低剂量的He-Ne激光可以部分修复增强UV-B辐射对微管骨架的损伤,且对微管的聚合有促进作用。     

He—Ne激光辐照与UV-B辐射对小麦幼苗细胞器中Na^＋／K^＋-ATP酶活性的影响

分别采用5mJ·s^-1·mm^-2He-Ne激光辐照、10．08kJ·m·^-2,d^-1增强UV-B辐射及二者组合对小麦（Triticum aestivum）晋麦8号（Triticum aestivum‘Jinmai8’）幼苗进行处理。第5天开始测定各处理小麦幼苗叶片中线粒体、叶绿体及细胞溶质中Na^＋／K^＋-ATP酶活性的变化。结果表明,随着处理天数的增加,小麦幼苗叶片线粒体、叶绿体及细胞溶质中Na^＋／K^＋-ATP酶活性均在第6天下降,第7天升高,而后又逐渐下降。在处理的第7天,仅He—Ne激光辐照可使小麦幼苗叶片线粒体、叶绿体及细胞溶质中Na^＋／K^＋-ATP酶活性升高：增强UV-B辐射使各细胞器中Na^＋／K^＋-ATP酶活性下降：复合处理后小麦各细胞器中Na^＋／K^＋-ATP酶活性均高于UV-B单独辐射处理。实验结果表明,一定剂量的He-Ne激光辐照能够部分修复UV-B辐射对小麦幼苗细胞器中Na^＋／K^＋-ATP酶造成的损伤。     

He-Ne激光对增强UV-B辐射下小麦幼苗膜脂过氧化的缓解作用

采用He-Ne激光(5 mW/mm2)辐照增强UV-B辐射(10.08 kJ/m2.d)的晋麦8号小麦幼苗,通过测定小麦幼苗叶片细胞质膜透性、丙二醛(MDA)的含量以及脂氧合酶(LOX)、过氧化氢酶(CAT)、抗坏血酸过氧化物酶(APX)和谷光苷肽过氧化物酶(GPX)的活性变化,研究He-Ne激光对增强UV-B辐射的小麦幼苗膜脂过氧化的影响。结果显示,He-Ne激光辐照可使经UV-B辐射后小麦幼苗叶片质膜相对透性、MDA含量、LOX活性降低,而使CAT、APX和GPX的活性均升高。分析表明UV-B辐射增强可导致膜脂过氧化加剧,而一定剂量的He-Ne激光能够通过促进酶促抗氧化系统酶的活性来缓解紫外线辐射下小麦幼苗的膜脂过氧化作用。     

He-Ne激光和增强UV-B辐射对小麦幼苗微管结合蛋白MAP65s的影响

分别采用5 mW/mm2 He-Ne激光辐照、10.08 kJ/m2·d 增强UV-B辐射及二者组合对"临优2018"小麦幼苗进行处理,通过紫外吸收法测定各处理组幼苗中微管结合蛋白MAP65s的含量,并且采用SDS-聚丙烯酰胺凝胶电泳对MAP65s蛋白进行鉴定,进一步分析He-Ne激光对增强UV-B辐射引起的小麦幼苗微管骨架损伤的修复效应.结果显示:经UV-B处理(B)后,小麦幼苗中的MAP65s蛋白含量低于对照组(CK)(P<0.01);单独激光(L)处理,MAP65s蛋白含量高于对照组(CK)(P<0.05);经He-Ne激光和UV-B复合处理(BL)后,MAP65s蛋白含量高于UV-B处理组,低于CK组.该结果表明:一定剂量的He-Ne激光辐照能够促进小麦幼苗微管结合蛋白MAP65s的合成,并且可能在一定程度上修复增强UV-B辐射对小麦幼苗微管骨架系统造成的损伤.     

He-Ne激光照射对血液及其组分荧光光谱影响的实验研究

为研究弱激光照射对人血液携氧能力的影响及机制,我们用荧光仪分别测量了He-Ne激光照射前后正常血液及其组分（血浆、红细胞）的荧光光谱,研究了激光照射导致的光谱变化,并分析了光谱变化与血液携氧能力改变的关系。实验结果显示：全血液标本在490nm及614nm附近有荧光峰值;血浆的荧光则主要分布在420－500nm之间;红细胞在500nm及614nm附近有荧光。He-Ne激光照射后,全血液及红细胞在614nm处的荧光谱都有较明显的变化,且较相似。由此可得出结论,He-Ne激光照射可影响血液的携氧能力。     

The effect of He-Ne laser radiation on the survival of HeLa cells subjected to ionizing radiation]

A monolayer of HeLa cells, at the stationary phase of growth, exposed to He-Ne laser radiation (632.8 nm; 100 J/m2) either 5 min or 60 min prior to gamma irradiation (0.1-10 Gy; 6.75 Gy/min), or 5 min after irradiation has been investigated. With a 5-min interval between irradiation sessions (both sequences) the survival curves are virtually the same as those for gamma-irradiated cells only. With He-Ne laser radiation delivered 60 min before gamma irradiation with doses exceeding 5 Gy, a fraction of radioresistant cells is identified whose D0 is almost twice as high as D0 of basic cell mass (3.6 and 1.7 Gy respectively. The survival curve becomes a two-component one. A hypothesis is proposed that He-Ne laser radiation activates, in some cells, the processes that promote the repair of radiation damages.     

Effect of Microwave and He-Ne Laser on Enzyme Activity and Biophoton Emission of Isatis indigotica Fort

The seed embryos of Isatis indigotica Fort were exposed to He-Ne laser (5.23 mW/mm2, radiated for 5 min) and microwave (1.26 mW/mm2, radiated for 8 s) irradiation to determine the effects of microwave and He-Ne laser pretreatment on enzyme activities, and biophoton emission of cotyledon. Then: (i) changes in the activities of enzymes in I. indigotica cotyledon (such as amylase, transaminase, and proteinase) were measured to investigate the effects of He-Ne laser and microwave pretreatment; and (ii) biophoton emission was measured to determine the speed of cell division and metabolism. Results from these experiments indicated that: (i) the activities of amylase, transaminase, and proteinase of the cotyledon pretreated by HeNe laser and microwave were significantly increased; and (ii) the intensity of biophoton emission was enhanced significantly by He-Ne laser and microwave irradiation. These changes suggest that He-Ne laser and microwave pretreatment can improve the inner energy of seeds, lead to an enhancement of cotyledon enzymes, and speed up the metabolism of the cell, resulting in significantly increased biophoton emission.Moreover, the mechanism of action of the effects of laser and microwave radiation on the microcalorimetric parameters, enzyme activities, and biophoton emission of seeds is discussed on the basis of the results obtained.     

Effect of Microwave and He-Ne Laser on Enzyme Activity and Biophoton Emission of Isatis indigotica Fort

The seed embryos of lsatis indigotica Fort were exposed to He-Ne laser (5.23 mW/mm^2, radiated for 5 min) and microwave ( 1.26 mW/mm^2, radiated for 8 s) irradiation to determine the effects of microwave and He-Ne laser pretreatment on enzyme activities, and biophoton emission of cotyledon. Then: (i) changes in the activities of enzymes in L indigotica cotyledon (such as amylase, transaminase, and proteinase) were measured to investigate the effects of He-Ne laser and microwave pretreatment; and (ii) biophoton emission was measured to determine the speed of cell division and metabolism. Results from these experiments indicated that: (i) the activities of amylase, transaminase, and proteinase of the cotyledon pretreated by HeNe laser and microwave were significantly increased; and (ii) the intensity of biophoton emission was enhanced significantly by He-Ne laser and microwave irradiation. These changes suggest that He-Ne laser and microwave pretreatment can improve the inner energy of seeds, lead to an enhancement of cotyledon enzymes, and speed up the metabolism of the cell, resulting in significantly increased biophoton emission. Moreover, the mechanism of action of the effects of laser and microwave radiation on the microcalorimetric parameters, enzyme activities, and biophoton emission of seeds is discussed on the basis of the results obtained.     

He-Ne 激光辐照与UV-B 辐射对小麦幼苗细胞器中Na+/K+-ATP 酶活性的影响

分别采用5 mJ.s^-1.mm^-2 He-Ne激光辐照、10.08 kJ.m^-2.d^-1增强UV-B辐射及二者组合对小麦(Triticum aestivum)晋麦8号(Triticum aestivum ‘Jinmai8’)幼苗进行处理。第5 天开始测定各处理小麦幼苗叶片中线粒体、叶绿体及细胞溶质中Na⁺/K⁺-ATP酶活性的变化。结果表明, 随着处理天数的增加, 小麦幼苗叶片线粒体、叶绿体及细胞溶质中Na⁺/K⁺-ATP酶活性均在第6天下降, 第7天升高, 而后又逐渐下降。在处理的第7天, 仅He-Ne激光辐照可使小麦幼苗叶片线粒体、叶绿体及细胞溶质中Na⁺/K⁺-ATP酶活性升高; 增强UV-B辐射使各细胞器中Na⁺/K⁺-ATP酶活性下降; 复合处理后小麦各细胞器中Na⁺/K⁺-ATP酶活性均高于UV-B单独辐射处理。实验结果表明 , 一定剂量的He-Ne激光辐照能够部分修复UV-B辐射对小麦幼苗细胞器中Na^+/K⁺-ATP酶造成的损伤。     

低强度激光对人红细胞生物物理特性的影响

研究不同功率的低强度He-Ne激光对正常人体红细胞流变学特性影响。以正常人体红细胞为研究对象,测量了低强度He-Ne激光在不同照射时间、不同功率条件下红细胞的变形、取向、膜流动性、膜的微粘度和渗透脆性的变化情况。结果表明:照射后红细胞的变形性和膜流动性增强、渗透脆性下降。照射对红细胞流变学特性影响显著,其中激光能量为0.24 J、照射血样为2 mL时取得的照射效果最佳。     

低强度He-Ne激光对红细胞胞浆内游离钙离子浓度的影响

低强度He-Ne激光对红细胞变形性的影响已得到广泛的认可和应用,但其具体调节机制尚不明确,通过研究低强度He-Ne激光对红细胞胞浆内钙离子浓度的影响,探讨其对红细胞变形性影响的机制。采用A23187处理过的红细胞,分别用5 mW和9 mW激光照射后,观察红细胞胞浆内钙离子浓度变化。结果显示:低强度He-Ne激光照射后的红细胞与无照射组的红细胞相比,红细胞胞浆内钙离子浓度显著降低,但在本实验中钙离子浓度的降低与激光照射剂量无显著相关。由此得出结论:降低红细胞胞浆内钙离子浓度可能是低强度He-Ne激光调节红细胞变形性的重要机制。     

Responses of He-Ne laser on agronomic traits and the crosstalk between UVR8 signaling and phytochrome B signaling pathway in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> subjected to supplementary ultraviolet-B (UV-B) stress

UV-B acclimation effects and UV-B damage repair induced by a 632.8-nm He-Ne laser were investigated in Arabidopsis thaliana plants in response to supplementary UV-B stress. There was an increasing trend in growth parameters in the combination-treated plants with He-Ne laser and UV-B light compared to those stressed with enhanced UV-B light alone during different developmental stages of plants. The photosynthetic efficiency (Pn) and survival rates of seedlings were significantly higher in the combination treatments than UV-B stress alone. The expression of UVR8, phytochrome B (PhyB), and their mediated signal responsive genes such as COP1, HY5, and CHS were also significantly upregulated in plants with the laser irradiation compared with other groups without the laser. Levels of flavonol accumulation in leaves and capsule yield of He-Ne laser-treated plants were increased. The phyB-9 mutants were more sensitive to enhanced UV-B stress and had no obvious improvements in plant phenotypic development and physiological damage caused by enhanced UV-B stress after He-Ne laser irradiation. Our results suggested that UVR8 and its mediated signaling pathway via interaction with COP1 can be induced by He-Ne laser, and these processes were dependent on cytoplasmic PhyB levels in plant cells, which might be one of the most important mechanisms of He-Ne laser on UV-B protection and UV-B damage repair. These current data have also elucidated that the biostimulatory effects of He-Ne laser on Arabidopsis thaliana plants would happen not only during the early growth stage but also during the entire late developmental stage.     

He-Ne激光和增强UV-B辐射对小麦幼苗类囊体捕光色素的影响

采用5mW.mm-2He-Ne激光辐照、10.08kJ.m-2d-1UV-B辐射及二者组合对冬小麦幼苗进行处理。通过测定叶绿体捕光色素含量和色素蛋白组成的变化,进一步探讨He-Ne激光对增强UV-B辐射后小麦幼苗类囊体捕光色素损伤的修复效应。循环处理小麦幼苗4d,利用90%乙醇和80%丙酮分别提取各处理组小麦幼苗叶片中的叶绿素,通过纸层析和分光光度法检测捕光色素含量的变化,并探讨不同处理对叶绿素与蛋白质结合牢固性的影响。利用柱层析法测定色素蛋白的主要成分。研究表明:与对照组相比,增强UV-B辐照后小麦幼苗捕光色素总含量降低了17.76%,叶绿素和蛋白质结合牢固度显著降低,色素蛋白的组成也发生变化,D1和D2蛋白质条带消失;而一定剂量He-Ne激光辐照可使增强UV-B辐射后的叶绿体色素含量增加约10.64%,但仍低于ck组约8.12%,叶绿素和蛋白质结合牢固度也显著高于B组,色素蛋白的组成与对照组相似。因此,低剂量的He-Ne激光辐照对增强UV-B辐射后小麦幼苗类囊体捕光色素的损伤具有促进修复效应。     

He-Ne激光对水分胁迫下小麦幼苗生理特性的影响

用He-Ne激光(5.23×10-3W.mm-2)处理经不同浓度PEG6000胁迫的小麦幼苗,研究水分胁迫条件下激光辐照对小麦幼苗生理特性的影响。结果表明,He-Ne激光辐照可显著提高水分胁迫下小麦幼苗的根系活力以及抗坏血酸过氧化物酶(APX)和谷胱甘肽还原酶(GR)活性(P<0.05),并使其脯氨酸含量显著增加(P<0.05),而对其超氧化物歧化酶(SOD)的活性没有显著影响。可见,He-Ne激光可通过提高根系活力、抗氧化酶活性和脯氨酸含量来显著增强小麦幼苗的抗旱性。     

He-Ne激光对增强UV-B辐射小麦幼苗多胺氧化酶和过氧化物酶活性的研究

采用He-Ne激光辐照对增强UV-B辐射后小麦幼苗的损伤修复作用进行了研究。小麦种子在盛有湿滤纸的培养皿内25℃下进行萌发。萌发后小麦幼苗在经10.08 kJ·m^-2·d^-1的增强UV-B辐射,然后再用5 mW·mm^-2的He-Ne激光进行辐照。通过小麦幼苗叶片游离脯氨酸含量、多胺氧化酶和过氧化物酶的活性变化,测定了He-Ne激光对小麦UV-B损伤的修复情况。结果表明,游离脯氨酸、多胺氧化酶、过氧化物酶的变化同小麦幼苗损伤的修复的能力相关联。He-Ne激光辐照可使由增强UV-B辐射后诱导叶片升高的游离脯氨酸含量降低。增强UV-B辐射对多胺氧化酶（PAO）活性和过氧化物酶（POD）活性呈促进的作用。辐射6 d后PAO和POD总的活性呈正相关性,PAO和POD活性都呈现B组最高,L组最低,且差异显著。显示He-Ne激光对两种酶由于增强UV-B辐照造成的伤害有一定的修复。     

Influence of He-Ne laser irradiation and local anesthetics on potassium channels in the snail neurons

Using clamp method it had been shown that He-Ne laser irradiation of the snail neurons increases the amplitude of voltage-gated slow potassium currents in dose of 0.7 x 10(-4) (fluence 1.5 x 10(2) Wt/m2) and decreases it in dose 0.7 x 10(-3). Bupivacaine and lidocaine suppressed potassium currents. Laser irradiation in dose 0.7 x 10(-3) enhanced the inhibitory effect of bupivacaine (10 mcM) and in dose 0.7 x 10(-4) it decreased the inhibitory effect of bupivacaine. The results of the study suggest mechanisms of the He-Ne laser irradiation effect in combination with pharmacological substances on ion channels of electrically excitable cells.     

氦氖激光对种公牛精子生物学效应的研究

本文采用氦氖激光辐射种公牛的精液,发现低剂量的氖氦激光可以提高精子的活力,存活时间和呼吸强度,降低精子的畸形率,并对其机理作了探讨。     

NO对He-Ne激光和增强UV-B辐射小麦幼苗气孔运动的作用机理研究

为探讨NO对He-Ne激光和增强UV-B辐射小麦（Triticum aestivuml）气孔运动的作用机理,采用低剂量（5 mW.mm-2）He-Ne激光和增强（10.08 kJ.m-2.d-1）UV-B辐射并结合药理学实验和激光共聚焦显微技术,对ML7113小麦的叶片及表皮条进行不同的处理,结果显示：（1）UV-B辐射既可诱导小麦叶片气孔关闭,又能够明显增加气孔保卫细胞和叶片的NO水平,且NO清除剂明显抑制了UV-B辐射诱导的小麦叶片气孔关闭,同时气孔保卫细胞和叶片内的NO含量明显减少。（2）一氧化氮合酶（NOS）抑制剂L-NAME对经UV-B辐射诱导的小麦幼苗气孔开度及保卫细胞和叶片内NO含量的抑制程度明显大于硝酸还原酶（NR）抑制剂NaN3对其的抑制程度,说明一氧化氮合酶（NOS）合成途径是小麦叶片经UV-B辐射后NO的主要产生途径。（3）就气孔开度而言,L〉CK〉BL〉B。就小麦叶片及保卫细胞内NO含量而言,B〉BL〉CK〉L。就硝酸还原酶（NR）和一氧化氮合酶（NOS）的活性而言,B组NR活性最低,NOS活性最高,L组NR活性最高,NOS活性最低。表明经He-Ne激光和增强UV-B辐射诱导的小麦气孔开度的变化确实与保卫细胞及叶片中NO含量的多少有关,气孔开度的减小及增大对应于NO含量的增多或减少,同时进一步证实了小麦叶片经He-Ne激光单独辐照后,NO的主要合成途径也来源于NOS途径。