【摘 要】
:
Two-photon excited fluorescence (TPEF) spectroscopy and imaging were used to investigate the effects of gamma-irradiation on neural stem and precursor cells (NSPCs). While the observed signal from reduced nicotinamide adenine dinucleotide (NADH) was local
【机 构】
:
LaserMicrobeamandMedicalProgramBeckmanLaserInstitute,UniversityofCaliforniaIrvine,1002HealthSciences
【出 处】
:
JournalofInnovativeOpticalHealthSciences
论文部分内容阅读
Two-photon excited fluorescence (TPEF) spectroscopy and imaging were used to investigate the effects of gamma-irradiation on neural stem and precursor cells (NSPCs). While the observed signal from reduced nicotinamide adenine dinucleotide (NADH) was localized to the mitochondria, the signal typically associated with oxidized flavoproteins (Fp) was distributed diffusely throughout the cell. The measured TPEF emission and excitation spectra were similar to the established spectra of NAD(P)H and Fp. Fp fluorescence intensity was markedly increased by addition of the electron transport chain (ETC) modulator menadione to the medium, along with a concomitant decrease in the NAD(P)H signal. Three-dimensional (3D) neurospheres were imaged to obtain the cellular metabolic index (CMI), calculated as the ratio of Fp to NAD(P)H fluorescence intensity. Radiation effects were found to differ between low-dose (≤ 50 cGy) and high-dose (≥ 50 cGy) exposures. Low-dose irradiation caused a marked drop in CMI values accompanied by increased cellular proliferation. At higher doses, both NAD(P)H and Fp signals increased, leading to an overall elevation in CMI values. These findings underscore the complex relationship between radiation dose, metabolic state, and proliferation status in NSPCs and highlight the ability of TPEF spectroscopy and imaging to characterize metabolism in 3D spheroids.
其他文献
描述了在330毛压力下CO2横向激励大气压脉沖激光放大器增益的测在能流密度1.2焦耳·厘米-2时,通过一小段放大区后,能量增益降低到小信号值的一半。
利用大口径高通量实验平台,同时使用科学光电耦合器件(CCD)和哈特曼测量了大口径片状放大器增益均匀性,并针对这两种测量方法提出了几种相应的处理方法,通过数值计算和分析,详细比较了不同测量方法和后期处理方法对增益均匀性产生的影响,确定了两种测量方法及其后期处理方法的有效性。结果表明,使用科学CCD测量增益均匀性,数据处理时采用多发次求平均再匀滑的方法既可规避测量产生的随机性,又进一步减小了增益分布的空间噪音;使用哈特曼测量增益均匀性,尽量使用点阵超过50×50的哈特曼,微透镜阵列点阵数量过少会降低增益塌边程
在351.1和353.3亳微米处观察到氟化氙(XeF)的高功率激光反射。在总压力为1.7大气压下,比率为250:25:1的Ar、Xe和NF3的混合物获得了0.5兆瓦的峰值激光功率。激光气体由脉冲持续时间为20亳微秒、1兆电子伏、20千安的电子束激励。由电子束储存在气体中的能量估计为1焦耳,它提供的激光效率为0.5%。用一共轴电子枪,获得了80亳焦耳、100亳微秒的脉冲,其效率为3%。
采用磁光旋转测量装置与1/4波片组合而成的实验装置测量了(BiTm)3(FeGa)5O(12)单晶薄膜样品的磁圆二向色性(椭圆率tanhθ″),以及θ″与磁场强度H、样品厚度2h的关系。测量密度达0.01°。实验证明了磁光旋转的虚部θ″与实部θ′一样,是与磁化强度M相联系的,且随样品厚度线性增加。
A novel composite ultraviolet (UV)/blue photodetector is proposed in this paper. Lateral ring-shaped PN junction is used to separate photogenerated carriers and inject the non-equilibrium excess carriers to the bulk, changing the bulk potential and shifti
A method is proposed to realize accurate spatial complex modulation based on the spatial cross-modulation method (SCMM) via a phase-only spatial light modulator. The conventional SCMM cannot achieve high quality reconstruction, especially when the diffusi
本文报道了使用由同一氮分子激光器泵浦的一台宽带染料激光器和一台窄带染料激光器,在钠蒸气中通过不等频两步混合共振机理,获得一系列受激辐射的新成果.文中对上述机理也进行了讨沦.
目前正以越来越快的速度寻找新型激光器。事实上,这种过程似乎是交替出现的:当新波段开辟之后,新出现的应用就需要更多的波长及其它等等要求。
二能级量子体系的相干操控对于精密测量和量子信息处理非常重要,如原子钟、原子干涉仪和量子计算等。在实验上观察到相干微波-射频(MW-RF)场驱动下的铷原子超精细基态的双光子Rabi振荡现象。基于塞曼子能级之间热弛豫过程的标定和微波跃迁的测量,清晰地分辨出叠加有热弛豫过程的原子态布居相干振荡。实验测得并详细讨论了广义Rabi频率与中间态失谐和微波/射频功率的关系。当中间态失谐较大时,实验结果与等效二能级理论模型非常吻合;但当中间态失谐较小时,少量原子占据中间态造成实测的Rabi频率偏离理论值。这些结果为二能级