Photobleaching characteristics of traditional Japanese paper in a museum environment

Photobleaching of aged traditional Japanese paper that has been thermally yellowed during storage for 200 years was examined from the standpoint of accumulated light radiation dosage in a museum environment. The light intensity was evaluated using a blue wool reference of the Japan Industrial Standards (JIS) as a dosimeter. The wavelength sensitivity of the photobleaching was compiled under monochromatic light radiation. Color changes in the specimens were measured in tristimuli values in color. by using a color analyzer. The aged pieces of paper were monitored continuously as they were photobleached under three different lighting conditions in a museum environment for 8000 h. The combination of the yellowness index changes of the aged pieces of paper and the color changes of a blue wool reference was interpreted as follows. Photobleaching was governed by accumulated light intensities and was independant upon daily lighting conditions. The wavelength sensitivity of the photobleaching of aged paper showed that the maximum effect occurred at 420 nm in the visible light range. The blue wool reference was confirmed to perform well as a dosimeter.

QUANTITATIVE FRET MEASUREMENT BASED ON CONFOCAL MICROSCOPY IMAGING AND PARTIAL ACCEPTOR PHOTOBLEACHING

Fluorescence resonance energy transfer(FRET)technology had been widely used to study protein
protein interactions in living cells.In this study,we developed a ROI-PbFRET method to real-time quantitate the FRET efficiency of FRET construct in living cells by combining the region of interest(ROI)function of confocal microscope and partial acceptor photobleaching.We validated the ROI-PbFRET method using GFPs-based FRET constructs including 18AA and SCAT3,and used it to quantitatively monitor the dynamics of caspase-3 activation in single live cells stably expressing SCAT3 during staurosporine(STS)-induced apoptosis.Our results for thefirst demonstrate that ROI-PbFRET method is a powerful potential tool for detecting the dynamics of molecular interactions in live cells.

Protoporphyrin IX photobleaching of subcellular distributed sites of leukemic HL60 cells based on ALA-PDT <i>in vitro</i>

The leukaemia cells HL60, incubated in 10 mM/ml ALA (5-aminolevulinic) for 4 hours, were carried an experimental research with fluorescent probes in photodynamic therapy (PDT) based on ALA by using PDT reaction room (The average fluence rate of the 412 nm source was 5 mW/cm2). Cells viability were determined using a Cell Counting Kit-8 (CCK-8) assay, and PpIX Photobleaching of subcellular distributed sites of HL60 cells in vitro were investigated by fluorescence spectra acquired during treatment. The results showed that the fluorescence intensity of mitochondria, lysosomes, endoplasmic reticulum had decreased by 81.5%, 52.3% and 21.0%, respectively, compared with their initial values after a 45-minute light treatment. The rate of PpIX photobleaching in mitochondria was significantly higher than others. Addi-tionally, the change of the activity of HL60 cells was basically characterized by the change fluorescence intensity in mitochondria, which suggest that mitochondria is one of main therapeutic targets of photodynamic therapy.

Determination of diffusion coefficient by image-based fluorescence recovery after photobleaching and single particle tracking system implemented in a single platform

Fluorescence recovery after photobleaching(FRAP)and single particle tracking(SPT)techni-ques determine the diffusion coefficient from average diffusive motion of high-concentration molecules and from trajectories of low-concentration single molecules,respectively.Lateral dif-fusion coefficients measured by FRAP and SPT techniques for the same biomolecule on cell membrane have exhibited inconsistent values across laboratories and platforms with larger dif-fusion coefficient determined by FRAP,but the sources of the inconsistency have not been investigated thoroughly.Here,we designed an image-based FRAP-SPT system and made a direct comparison between FRAP and SPT for diffusion coefficient of submicron particles with known theoretical values derived from Stokes-Einstein equation in aqueous solution.The combined iFRAP-SPT technique allowed us to measure the diffusion coefficient of the same fluorescent particle by utilizing both techniques in a single platform and to scrutinize inherent errors and artifacts of FRAP.Our results reveal that diffusion coefficient overestimated by FRAP is caused by inaccurate estimation of the bleaching spot size and can be corrected by simple image analysis.Our iFRAP-SPT technique can be potentially used for not only cellular membrane dynamics but also for quantitative analysis of the spatiotemporal distribution of the solutes in small scale analytical devices.

PhotobleaChing Influence in Different Phases for Coumarin 307 and Acriflavine Laser Dyes

Under high-excitation irradiance conditions to induce fluorescence, the dependence of photobleaching of Coumarin 307 （C307） and acriflavine （ACF） laser dyes in liquid and solid phases have been studied. A cw LD laser source of 1 mW and 407 nm wavelength was used as an exciting source. For one hour exposure time, it was found that the solid dye samples suffer photobleaching more than the liquid dye samples. This is because in liquid solutions the dye molecules can circulate during the irradiation, while the photobleaching is a serious problem when the dye is incorporated into solid matrix and cannot circulate.

H_(2)O_(2)辅助污泥水热过程水DOM的光化学行为研究

采用水热炭化和添加4%H_(2)O_(2)辅助水热炭化两种工艺处理脱水污泥,在测定两种过程水DOM基本理化性质的基础上,重点比较了两种DOM的光漂白行为和光生活性物种的产生情况.结果表明,与水热炭化工艺相比,H_(2)O_(2)辅助水热炭化工艺中伴生的过程水DOM的pH值较低,电导率、TOC、腐殖质类物质含量、芳香性官能团、分子量及腐殖化程度均较高,并表现出更强的光敏感性.在模拟自然光照射条件下,其芳香性和腐殖化程度随光照时间延长而降低,荧光组分含量显著下降,其中腐殖质类组分降低最为明显.光照过程中产生更多的单线态氧(1O2)和三重激发态(^(3)DOM^(*)),可显著促进四环素的光降解(93.22%),且^(3)DOM^(*)起主导作用.本研究明确了H_(2)O_(2)辅助水热炭化过程水DOM的光化学行为,可为水热炭化处理污泥产生的过程水的进一步处理及利用提供理论依据.

壳聚糖荧光防伪印花涂料的制备及其应用性能

为解决纺织品印染中常用有机荧光防伪印花涂料发光强度低、耐光漂白性弱等问题,以壳聚糖(CS)为生物基高分子涂料代表,采用不同物质的量的聚集诱导发光(AIE)分子四苯基乙烯(TPE)对CS进行荧光标记,制备出一系列具有不同标记率的TPE-CS荧光涂料。测定了TPE-CS防伪涂料的荧光强度、耐光漂白性、热稳定性等,并对棉织物进行防伪印花。结果表明:与目前较常用的聚集诱导荧光猝灭(ACQ)分子标记CS荧光涂料相比,TPE-CS显示出优异的荧光发射性能和耐光漂白性能;当TPE-CS的标记率仅为1.43%(摩尔分数)时,该防伪涂料溶液(1 000 mg/L)的相对荧光强度超过1 090;溶液在强紫外光下曝露1 h后,相对荧光强度仍能达到光漂白前的94.9%。

Biocompatible carbon dots with low-saturation-intensity and highphotobleaching-resistance for STED nanoscopy imaging of the nucleolus and tunneling nanotubes in living cells

Many kinds of nano particles and organic dyes as fluorescent probes have been used in the stimulated emission depletion(STED)nanoscopy.Due to high toxicity,photobleaching and non-water solubility,these fluorescent probes are hard to apply in living cell imaging.Here,we reporta new fluorescence carbon dots(FNCDs)with high photoluminescence quantum yield(56%),low toxicity,anti-photobleaching and goodwater-solubility that suitable for live-cell imaging can be obtained by doping fluorine element.Moreover,the FNCDs can stain the nucleolusand tunneling nanotubes(TNTs)in the living cell.More importantly,for STED nanoscopy imaging,the FNCDs effectively depleted backgroundsignals and improved imaging resolution.Furthermore,the lateral resolution of single FNCDs size under the STED nanoscopy is up to 22.1 nm for FNCDs deposited on a glass slide was obtained.And because of their good water dispersibility,the higher resolution of single FNCDs sizein the nucleolus of a living cell can be up to 19.7 nm.After the image optimizati on steps,the fine fluoresce nee images of TNTs diameter with ca.75 nm resolution is obtained living cell,yielding a threefold enhancement compared with that in confocal imaging.Additionally,the FNCDs show excellent photobleaching resistance after 1,000 scan cycles in the STED model.All results show that FNCDs have significant potentialfor application in STED nanoscopy.

Can DyeCycling break the photobleaching limit in single-molecule FRET?

Biomolecular systems,such as proteins,crucially rely on dynamic processes at the nanoscale.Detecting biomolecular nanodynamics is therefore key to obtaining a mechanistic understanding of the energies and molecular driving forces that controlbiomolecular systems.Single-molecule fluorescence resonance energy transfer(smFRET)is a powerful technique to observe inreal-time how a single biomolecule proceeds through its functional cycle involving a sequence of distinct structural states.Currently,this technique is fundamentally limited by irreversible photobleaching,causing the untimely end of the experiment andthus,a narrow temporal bandwidth of≤3 orders of magnitude.Here,we introduce“DyeCycling”,a measurement scheme withwhich we aim to break the photobleaching limit in smFRET.We introduce the concept of spontaneous dye replacement bysimulations,and as an experimental proof-of-concept,we demonstrate the intermittent observation of a single biomolecule forone hour with a time resolution of milliseconds.Theoretically,DyeCycling can provide>100-fold more information per singlemolecule than conventional smFRET.We discuss the experimental implementation of DyeCycling,its current and fundamentallimitations,and specific biological use cases.Given its general simplicity and versatility,DyeCycling has the potential torevolutionize the field of time-resolved smFRET,where it may serve to unravel a wealth of biomolecular dynamics by bridgingfrom milliseconds to the hour range.

Fluorescence recovery after photobleaching:analyses of cyanobacterial phycobilisomes reveal intrinsic fluorescence recovery

Fluorescence recovery after photobleaching(FRAP)has been used to study the dynamics of the cyanobacterial photosynthesis apparatus since 1997.Fluorescence recovery of cyanobacteria during FRAP was conventionally interpreted as a result of phycobilisome(PBS)diffusion on the surface of the thylakoid membrane.The mechanism of state transition in cyanobacteria has been widely attributed to PBS diffusion.However,in red algae,another PBS-containing group,the intrinsic photoprocess was found to contribute greatly to the fluorescence recovery of PBS,which raises questions concerning the role of FRAP in red algal PBS.Therefore,it is important to re-evaluate the nature of PBS fluorescence recovery in cyanobacteria.In the present study,four cyanobacterial strains with different phenotypes and PBS compositions were used to investigate their FRAP characteristics.Fluorescence recovery of PBS was observed in wholly photobleached cells in all four cyanobacterial strains,in which the contribution of PBS diffusion to the fluorescence recovery was not possible.Moreover,the fluorescence recovered in isolated PBSs and PBS-thylakoid membranes after photobleaching further demonstrated the intrinsic photoprocess nature of fluorescence recovery.These findings suggest that the intrinsic photoprocess contributed to the fluorescence recovery following photobleaching when measured by the FRAP method.

一种新型香豆素酮可见光敏化染料的合成及其光引发性质的研究

高效的可见光光敏引发体系是目前光聚合研究中的重要领域 .3 ,3′ 二 ( 7 二乙胺基 )香豆素酮 (R)已被公认为一种高效的可见光聚合敏化染料 ,并可以与Ar+ 激光 488nm波长匹配 .本文新合成了一种染料 3 ( 4 二乙胺基 -苯丙烯酰基 ) 7 二乙胺基香豆素 (S) .实验发现在普通碘钨灯照射下 ,S/邻氯六芳基双咪唑 (HABI)体系具有比已有高效染料R/HABI体系更快的光漂白速度和更高的引发聚合效率 ,是一种新型高效的可见光光敏聚合引发体系 .而且S在不同溶剂中的最大吸收波长在 45 2～ 489nm之间 ,比R红移 16～ 3 0nm ,因此该体系可以更好地与Ar+ ( 4 88nm)激光器匹配 .

核/壳型CdTe@SiO_2荧光纳米复合粒子的制备与表征

利用反相微乳法,以巯基乙酸修饰的水溶性CdTe量子点为核,包覆SiO2,制备得到核壳型CdTe@SiO2荧光纳米复合粒子.用紫外-可见(UV-vis)分光光度计,荧光(PL)分光光度计,红外(FT-IR)光谱仪,透射电子显微镜(TEM)等分析测试手段,对得到的荧光纳米复合粒子的性能进行表征,结果表明:得到的CdTe@SiO2纳米复合粒子是核壳型结构,由SiO2壳层包覆多个量子点,其大小均匀,水溶性好,有效地提高了量子点的稳定性,大大增强了其抗光漂白性能,为该材料的进一步生物应用打下了良好的基础.

光敏剂漂白特性在鲜红斑痣光动力治疗中的作用

目的 监测光动力治疗过程中鲜红斑痣组织内光敏剂含量的动态变化 ,探讨光敏剂漂白特性在光动力疗法微血管选择机制中的作用。方法 鲜红斑痣病人 34例 ,男性 15例 ,女性 19例 ,静脉注射血啉甲醚和血卟啉衍生物 5mg/kg后给予铜蒸气激光照射。使用三倍频Nd∶YAG激光和光学多通道分析仪 (OMA)在治疗前和治疗中的多个时间点对治疗区皮肤组织进行荧光光谱检测 ,绘制成时间 -荧光强度曲线。结果 治疗区皮肤组织中光敏剂荧光强度在激光照射开始后迅速下降 ,血啉甲醚荧光强度的下降速率和下降幅度均显著大于血卟啉衍生物。结论 治疗区皮肤组织中光敏剂的漂白速度明显大于光敏剂的补充扩散速度 ,光敏剂漂白可能是光动力疗法微血管选择效应的主要机制。

海洋有色溶解有机物的光化学研究进展

近20a来的研究表明,海洋有色溶解有机物(CDOM)具有显著的光化学活性,其光化学反应不仅在碳、氮等生源要素的生物地球化学过程中扮演重要角色,而且还可通过改变水体的光辐射影响海洋生态系统的结构与功能。在介绍CDOM光化学基本概念、反应原理和研究方法的基础上,综述了影响光降解的因素、CDOM光化学反应的生物地球化学以及生态环境意义,指出了研究中存在的主要问题,并对今后的研究进行了展望。

活体细胞内双光子激发的光漂白特性

长波长光的强穿透能力和对活体细胞和生物组织光毒性很小的特性 ,使得双光子激发荧光显微术已经成为无损伤成像的重要工具 .可是双光子激发的高光子密度可能会产生高次光子相互作用 ,从而产生更快的光漂白 .从实验上研究了离体和活体细胞内的若丹明 12 3和若丹明B分别在单光子激发和双光子激发时的光漂白特性 .在体的实验结果与离体的实验结果一致 .正如期望的一样 ,单光子激发时光漂白速率非常近似地随着激发功率的增加而线性增加 .可是 ,双光子激发时的光漂白速率并不是正比于激发功率的平方 ,而是正比于激发功率的高次方 (>3 5 ) .对绿色荧光蛋白 (GFP)变异体CFP和YFP的实验也得到同样的结果 ,这就表明高次光漂白可能是双 (多 )光子激发中的普遍现象 .因此多光子的应用可能会受到强光漂白的限制 .

光动力治疗用酞菁类光敏剂的合成研究进展

本文介绍了光动力治疗原理、酞菁类光敏剂的合成方法及其近年来得到的研究进展,并介绍了酞菁在光动力治疗中的光化学生物过程和光漂白现象,还对其存在的缺点和今后的研究方向进行了讨论.

藻红蛋白介导光动力治疗的光化学机制研究

为探讨藻红蛋白介导的光动力治疗的光化学机制 ,观察藻红蛋白浓度和活性氧抑制剂对藻红蛋白光漂白作用的影响 ,研究藻红蛋白介导的光敏反应产生活性氧分子的途径和影响因素。结果表明 :藻红蛋白浓度太高会降低光动力的效率 ,其活性氧产生的机制为Ⅰ和Ⅱ型 ,用Ⅰ型反应抑制剂可使反应向Ⅱ型方向转变 ,产生更多的单线态氧 ,可显著提高光动力效率。

红曲色素的光褪色研究进展

红曲色素是我国特有的一种传统发酵产品,它主要用于食品工业的着色剂。然而在红曲色素的应用中存在光照褪色问题,在一定程度上限制了红曲色素产业的发展。对红曲色素光褪色问题的研究进展进行了综述,重点介绍了回生淀粉晶体对红曲红色素的护色机理,指出回生淀粉晶体"镶嵌"色素可能是解决红曲色素光褪色问题的有效途径。

光动力学疗法剂量学的研究进展

随着光动力学疗法(photodynamic therapy,PDT)基础研究的不断深入和临床应用的广泛开展,如何精确量化光动力剂量,并根据患者的个体差异进行剂量的实时调整和优化已成为亟待解决的挑战性难题,属PDT研究的前沿热点.综述了现有PDT剂量学研究方法及其相应检测技术的研究进展,其中包括:a.测定光通量密度、光敏剂浓度和氧分压;b.测量光敏剂的光漂白速率和光致产物;c.监测PDT前后组织的光生物学响应;d.检测单态氧在1270nm的近红外发光.同时,还分析了这些PDT剂量学方法的优点和局限性.最后,讨论了PDT剂量学研究中所面临的挑战.