双阳离子咔唑衍生物与DNA相互作用的光谱研究

合成了一种新型的双阳离子咔唑衍生物3,6-双(1-羟乙基-4-烯基吡啶)咔唑碘盐(3,6-BHVC), 并对其进行了表征. 利用紫外-可见吸收光谱、圆二色谱、单光子和双光子荧光发射光谱探讨了该化合物与DNA的结合方式. 所有光谱测试结果表明, 该化合物在[磷酸根]/[染料]比值较低的条件下主要以插入方式与DNA结合, 在该比值较高的条件下主要以沟槽结合方式为主. 表明咔唑衍生物可以成为一种探索具有高结合能力双光子DNA探针的基本结构.     

3,6-和2,7-咔唑衍生物单光子和双光子吸收性质的理论研究

采用密度泛函理论B3LYP方法以及ZINDO/SDCI方法计算3,6-和2,7-咔唑衍生物的分子平衡几何结构、电子结构及单光子和双光子吸收性质.乙烯基吡啶取代基的位置影响分子的单光子和双光子吸收性质.与3,6-咔唑衍生物相比,2,7-咔唑衍生物的单光子吸收波长红移,振子强度增大;双光子吸收波长红移,双光子吸收截面增加.结果表明,2,7-咔唑衍生物是更好的双光子吸收材料.     

一种基于三苯胺类共轭聚合物荧光信号开启的汞离子检测方法

通过Suzuki反应合成出主链中含9,9-二(4-二苯胺基苯基)-3,6-芴的蓝光共轭聚合物—聚[2,7-(9,9-二辛基芴)-co-3,6-(9,9-二三苯胺基芴)] (36PFT).36PFT可特异地与I-相互作用,并淬灭36PFT的荧光.当I-的浓度为0.24 mmol/L时,36PFT的荧光淬灭程度可达95％,...     

2,7-二甲氧基-3,6-二苯氧基萘的合成

以3,6-二溴-2,7-二羟基萘为起始原料,与硫酸二甲酯经甲醚化反应得3,6-二溴-2,7-二甲氧基萘(2);2与苯酚在碘化亚铜催化下经取代反应合成了新化合物——2,7-二甲氧基-3,6-二苯氧基萘,总收率82.5%,其结构经1H NMR,13C NMR,ESI-MS和元素分析表征。     

用于细胞成像的双氰基二苯代乙烯衍生物双光子荧光银离子探针

双光子荧光显微成像兼具诸如近红外激发、暗场成像、避免荧光漂白和光致毒、定靶激发、高横向分辨率与纵向分辨率、降低生物组织吸光系数及降低组织自发荧光干扰等特点,显著地优于单光子荧光显微成像,为生命科学研究提供了更为便利的工具.因此双光子荧光探针适合于生物检测与成像.制备了衍生于二苯代乙烯的双光子荧光银离子探针,此探针以拥有异常大的双光子吸收截面(6TPA)的4-甲基-2,5-二氰基-4'-氨基二苯乙烯(DCS)作为双光子荧光母体,以6-芳基-3,9-二硫-6-氮杂癸烷(TAU)为Ag+配体.探针显示了大的δTPA(在MeCN中,950 GM)、对银离子有高的灵敏性与选择性、强的双光子荧光(790 nm激光激发时).探针的络合常数为IgK=5.76±0.05.探针能选择性地检测和成像活细胞中的游离Ag+,可用于细胞中微量Ag+的分析检测与成像.此探针为开发理想的双光子荧光探针提供了可供借鉴的平台.     

双光子荧光探针

双光子吸收是指在强光激发下,介质分子同时吸收两个光子,从基态跃迁到两倍光子能量的激发态的过程。荧光显微成像是研究活体生物的重要工具,而最通常的细胞成像方法则是使用单光子激发荧光团的单光子显微成像。近红外光源激发的双光子荧光探针克服了单光子荧光探针的光漂白与光致毒而更适于生物检测与成像,为生命科学研究提供了更为锐利的工具。双光子荧光探针的作用机理包括分子内电荷迁移(ICT)、荧光共振能量迁移(FRET)、光诱导电子迁移(PET)与基团转换(GC) 4种方式。该文综述了双光子阳离子探针(Mg²⁺, Ca²⁺, Pb²⁺, Hg²⁺, Ag⁺, Fe³⁺, Zn²⁺, Na⁺, Cr³⁺)、双光子阴离子探针(F^-)、pH探针、双光子葡萄糖示踪器、双光子脂筏探针、双光子巯基探针、双光子半胱氨酸探针和双光子生物标记探针,以及双光子荧光探针在生物成像方面的应用,展望了双光子荧光探针的发展趋势与应用前景。     

多枝[1,3,4]-噁二唑衍生物的双光子吸收和光功率限幅特性

采用非线性透过率法测定了多枝[1,3,4]-噁二唑衍生物的双光子吸收性质. 测定了化合物的单光子荧光光谱和双光子荧光光谱, 在800 nm波长的激光激发下, 9-乙基-3,6-双{5-(4-叔丁基苯基)-[1,3,4] 噁二唑-2-苯乙烯基}-咔唑(3)和三-{5-(4-叔丁基苯基)-[1,3,4] 噁二唑-2-苯乙烯基-4-苯基}-胺(4)能够发出很强的蓝色和黄绿色双光子上转换荧光, 荧光峰分别位于485和547 nm. 这些多枝结构化合物的双光子吸收截面较大(数值超过104 GM), 并具有很强的光限幅效应. 多枝分子中重复单元的推拉电子结构和协同效应有效地增强了分子的双光子吸收性质.     

铕三元配合物-聚氨酯丙烯酸酯发光材料的合成与荧光性能研究

以1,10-邻菲啰啉和2,7-二羟基萘-3,6-二磺酸钠为配体,合成了铕-2,7-二羟基萘-3,6-二磺酸-邻菲啰啉三元配合物{[Eu(HL)(phen)(H2O)](H2O)3}∞;利用配合物中未参与配位的-OH作为活性基团,以二月桂酸二丁基锡为催化剂,与具有活性基团-NCO的异佛尔酮-二异氰酸酯反应制备铕三元配合物-聚氨酯丙烯酸酯发光材料。通过X射线单晶衍射、红外、热分析和荧光光谱分析,测定了配合物及发光材料的组成、结构、热稳定性和发光性能。结果表明,在496 nm波长激发下,配合物及发光材料在610 nm处能发出较强的特征荧光,且随着配合物含量的增加,荧光性能增强,同时在测试范围内没有发生荧光淬灭现象,是一种极具潜在应用的新型发光材料。     

荧光标记豇豆花叶病毒的制备及细胞成像

利用与氨基选择性反应的荧光染料5-羧基荧光素琥珀酰亚胺酯(5-FAMSE)对豇豆花叶病毒(CPMV)表面的氨基进行修饰,制备了荧光功能化CPMV纳米粒(5-FAM/CPMV)。对其结构形态和单、双光子荧光进行了测试,用毛细管电泳对其表面特性进行了考察,并将其用于Hela细胞的双光子荧光成像。研究表明,目标纳米粒粒径均匀,仍具有天然CPMV的特性,能进入Hela细胞,在波长800nm激光激发下可以成功地用于肿瘤细胞的成像分析,可望用于肿瘤靶向双光子荧光细胞成像方面的研究。     

含硫甲基的芴-苯结构化合物的合成、结构和性能

通过双Suzuki偶联反应一步合成了2种含硫甲基的芴-苯结构化合物2,7-二(4-硫甲基苯基)-9,9-二己基-芴(a)和2,7-二(2,6-二甲基-4-硫甲基苯基)-9,9-二己基-芴(b).紫外-可见和荧光光谱以及分子轨道理论计算表明,位阻较小的化合物a具有更好的共轭性能,其最大紫外-可见吸收波长达到351nm,比两端苯基含4个邻位取代基的化合物b红移了38nm;化合物a的最大荧光发射波长达到410nm,为典型的蓝光化合物,比化合物b红移了43nm.化合物a和b都具有较高的荧光量子产率,分别为59%和65%,在光电材料方面具有潜在的应用前景.     

A 2,7-carbazole-based dicationic salt for fluorescence detection of nucleic acids and two-photon fluorescence imaging of RNA in nucleoli and cytoplasm

A new carbazole-derived dicationic compound, namely 2,7-bis(1-hydroxyethyl-4-vinylpyridinium iodine)-N-ethylcarbazole (2,7-9E-BHVC), with a large two-photon action absorption cross section in nucleic acids has been obtained. Moreover, it possesses the potential of imaging RNA in nucleoli and cytoplasm in two-photon fluorescence microscopy and exhibits good counterstain compatibility with the commercial fluorescent nucleic dye DAPI.     

Photophysical properties of octupolar chromophore based on triazine core and fluorene divinylene conjugated bridge

A novel octupolar chromophore with 1,3,5-triazine as core,2,7-divinylene-9,9-dimethylfluorene as extendedπ-conjugated bridge,triarylamine as the electron-donating end-groups was successfully synthesized and characterized.Their linear photophysical and two-photon absorption(TPA) properties were investigated by UV absorption,excited fluorescence(SPEF) spectra and nonlinear transmission method,respectively.The absorption cut-off of the chromophore is below 520 nm and it has stronger fluorescence emission in a nonpolar solvent.In addition,the chromophore exhibits larger TPA cross-section(226.0 GM) in the femtosecond regime at 800 nm.     

Transient excited-state absorption and gain spectroscopy of a two-photon absorbing probe with efficient superfluorescent properties

The synthesis, linear photophysical properties, two-photon absorption (2PA), excited-state transient absorption, and gain spectroscopy of a new fluorene derivative tert-butyl 4,4'-(4,4' (1E,1'E)-2,2'-(9,9-bis(2- (2-ethoxyethoxy)ethyl)-9H-fluorene-2,7-diyl)bis(ethene-2,1-diyl)bis(4,1 phenylene)]dipiperazine-1-carboxylate (1) are reported. The steady-state linear absorption and fluorescence spectra, along with excitation anisotropy, fluorescence lifetimes, and photochemical stability of 1 were investigated in a number of organic solvents at room temperature. The 2PA spectra of 1 with a maximum cross-section of ~ 300 GM were obtained with a 1 kHz femtosecond laser system using open-aperture Z-scan and two-photon-induced fluorescence methods. The transient excited-state absorption (ESA) and gain kinetics of 1 were investigated by a femtosecond pump-probe methodology. Fast relaxation processes (~1-2 ps) in the gain and ESA spectra of 1 were revealed in ACN solution, attributable to symmetry-breaking effects in the first excited state. Efficient superfluorescence properties of 1 were observed in a nonpolar solvent under femtosecond excitation. One- and two-photon fluorescence microscopy imaging of HCT 116 cells incubated with probe 1 was accomplished, suggesting the potential of this new probe in two-photon fluorescence microscopy bioimaging.     

Two-photon excitation induced fluorescence of a trifluorophore-labeled DNA

Two-photon excitation of a trifluorophore (6-carboxyfluorescein, N,N,N',N'-tetramethyl-6-carboxyrhodamine and cyanine-5 monofunctional dye) labeled DNA, which has a scaffold of 26 nucleotides, was achieved using focused laser light of a Q-switched Nd-YAG laser (1064 nm). The observed fluorescence signature (emission ratio from the three fluorophores) of the labeled DNA after two-photon excitation is very different from the fluorescence signatures produced by one-photon excitation at different wavelength. The additional fluorescence signatures produced by two-photon excitation of the fluorescent oligonucleotides will facilitate their use as combinatorial fluorescence energy transfer tags for multiplex genetic analysis.     

一种用于细胞核成像的新型双光子荧光探针

本文报道了具有大双光子活性吸收截面的DNA探针BMVEC, 同时首次利用双光子显微镜完成了与DAPI的复染实验, 实验结果证实了BMVEC对细胞核的选择性标记能力.     

Fluorescence spectral properties of the anticancer drug topotecan by steady-state and frequency domain fluorometry with one-photon and multi-photon excitation

Topotecan is an antitumor agent with activity against a variety of cancers. We examined the steady-state and time-resolved fluorescence spectral properties of topotecan with one- and two-photon excitation. Topotecan was found to display a high two-photon cross section near 20 GM for wavelengths within the fundamental output of a Ti:sapphire laser, 800-880 nm. In frozen solution the anisotropies of topotecan are near the theoretical maxima for one-photon and two-photon excitation with colinear electronic transitions. The intensity and anisotropy decays of topotecan fluorescence were found to be homogeneous (single exponentials) in phosphate-buffered saline and propylene glycol. The steady-state and time-resolved data indicate that topotecan binds to a double-helical DNA oligomer d(AT)10 resulting in increased anisotropies and multiexponential intensity and anisotropy decays. Subnanosecond components in the anisotropy decay of the DNA-topotecan complex suggest loose binding of the drug to DNA. Loose binding of topotecan to DNA is also revealed by accessibility of topotecan to collisional quenching by iodide.     

The two-photon excitation cross section of 6MAP, a fluorescent adenine analogue

6MAP is a fluorescent analogue of adenine that undergoes Watson-Crick base pairing and base stacking in double-stranded DNA. The one-photon absorption spectrum of 6MAP is characterized by a maximum around 330 nm with moderate quantum yield fluorescence centered at about 420 nm. To take advantage of this probe for confocal and single-molecule microscopy, it would be advantageous to be able to excite the analogue via two photons. We report the first determination of the two-photon excitation cross section and spectrum for 6MAP from 614 to 700 nm. The power dependence of the fluorescence indicates that emission results from the absorption of two photons. The one-photon and two-photon emission line shapes are identical within experimental error. A study of the concentration dependence of the fluorescence yield for one-photon excitation shows no measurable quenching up to about 5 microM. The maximum in the two-photon excitation spectrum gives a two-photon cross section, delta(TPE), of 3.4 +/- 0.1 Goeppert-Mayer (G.M.) at 659 nm, which correlates well with the one-photon absorption maximum. This compares quite favorably with cross sections of various naturally fluorescent biological molecules such as flavins and nicotiamide. In addition, we have also obtained the two-photon-induced fluorescence emission spectrum of quinine sulfate. It is approximately the same as that for one-photon excitation, suggesting that two-photon excitation of quinine sulfate may be used for calibration purposes.     

一种新型发光探针与DNA相互作用的研究

本文以稳态荧光光谱、紫外-可见吸收光谱、荧光偏振、热变性、阴离子猝灭等手段,研究了一种具有强电荷转移能力的化合物2,7-二[(N-乙基咔唑-3-基)丙烯-1-酮基]芴与DNA的相互作用。研究结果表明,2,7-二[(N-乙基咔唑-3-基)丙烯-1-酮基)芴与DNA的作用方式是混合模式,以嵌插作用为主,同时存在沟槽相互作用,其咔唑基团可能插入到DNA的碱基对之间,结合常数K为8 123.48mol/L,结合位点n为0.71。该发光探针灵敏度高,结合稳定。