四磺化铁酞菁-阿尔新蓝8GX-对-羟基苯乙酸-H2O2催化荧光反应体系在核酸定量中的应用

阳离子荧光染料阿尔新蓝8GX与阴离子荧光染料四磺化铁酞菁发生缔合作用，使四磺化铁酞菁的荧光猝灭，当核酸存在时，削弱了离子缔合作用使四磺化铁酞菁的荧光恢复。荧光增强的程度与核酸的量成线性关系，据此实现了对核酸的定量测定。     

四磺基铝酞菁与爱尔新蓝的缔合作用在核酸定量中的应用

阴离子荧光染料四磺基铝酞菁与阳离子荧光染料爱尔新蓝的缔合作用 ,使四磺基铝酞菁发生荧光猝灭 ,而当核酸存在时 ,染料缔合平衡受到影响而导致四磺基铝酞菁的荧光恢复。根据这一原理 ,建立了核酸定量测定的新方法。方法具有很高的灵敏度和较好的选择性 ,其线性范围为 0～ 2 0 0 μg/L ;检测限分别为 1.8μg/L(SMDNA)、2 .0 μg/L(CTDNA)、5 .4μg/L(酵母RNA)。将方法用于实际样品金黄色葡萄球菌中DNA含量的测定 ,获得满意结果     

DNA与苯胺红T的相互作用与荧光定量检测

荧光染料作为分子探针用于核酸的定量测定和构象分析一直备受关注 [1] .已有数十种荧光染料被应用[2 ,3 ] ,如溴化乙锭早期常用作 DNA探针[4 ,5] ,因其有很强的致癌性 ,目前已很少采用 ,而那些无毒性或含有可被衍生的活性基团的探针分子越来越受到青睐 [6～ 8] .苯胺红 T(ST)是一种阳离子型荧光染料 ,它既可很容易地与 DNA双螺旋结构发生插入作用 ,又可由带正电的吩嗪环与 DNA上带负电的磷酸基发生强烈的静电吸附作用 ,还可利用其氨基与 DNA或其它生物分子进行交联 .He等 [9] 曾研究了它与小牛胸腺 DNA之间的作用 ,得到的结合位点数…     

基于G-四分体结构的DNA酶传感器电化学检测凝血酶

1990年以来,通过体外筛选和selex技术发现了具有催化性能的DNA酶.其中被广泛研究的一种特定的DNA酶为富含G碱基的DNA序列与卟啉铁(hemin)结合形成的具有G-四分体结构的酶.由于该酶表现的催化能力远比游离的Hemin强~([1]),因此,这种新型的DNA酶被广泛作为生物传感器应用于DNA,重金属离子的比色和化学发光检测中~([2]).     

中性红荧光探针法测定生物大分子核酸

中性红 (NR)是一种吩嗪染料 ,至今已有许多关于 NR与 DNA相互作用的报道[1～ 5] .李克安[4 ] 和黄承志等 [5]利用共振光散射技术分别在酸性 (p H=2 .3 )和中性 (p H=7.6～ 7.8)条件下 ,建立了以 NR为探针测定痕量 DNA的方法 .我们 [2 ,3]曾利用荧光光谱方法研究了在 p H=7.4条件下 NR与 DNA之间的相互作用 ,发现利用吖啶橙和 NR之间的能量转移现象可以测定 DNA,但检出限偏高 ,且由于使用两种染料试剂 ,操作较繁琐 .为了克服吖啶橙、NR能量转移分析法的不足 ,本文建立了在 p H=4.5的条件下以单一染料 NR为荧光探针测定痕量核酸的…     

甲磺基铝酞菁与爱尔新蓝的缔合作用在核酸定量中的应用

阴离子荧光染料四磺基铝酞菁与阳离子荧光染料爱尔新蓝的缔合作用，使四磺基铝酞菁发生荧光猝灭，而当核酸存在时，染料缔合平衡受到影响而导致四磺基铝酞菁的荧光恢复。根据这一原理，建立了核酸定量测定的新方法。方法具有很高的灵敏度和较好的选择性，其线性范围为0-200цg/L；检测限分别为1.8цg/L(SMDNA)、2.0цg/L(CTDNA)、5.4цg/L（酵母RNA）。将方法用于实际样品金黄色葡萄球菌中DNA含量的测定，获得满意结果。     

G-四链体-氯化血红素DNA酶在传感器设计中的应用

G-四链体-氯化血红素(hemin)DNA酶是一种由特定的核酸G-四链体与hemin结合后形成的具有过氧化物酶活性的人工模拟酶。作为一类重要的DNA酶,G-四链体-hemin DNA酶近年来在分析化学领域受到了越来越多的关注。目前这类DNA酶已被用在了多种传感器,包括金属离子传感器、适配体传感器、酶传感器、DNA传感器及药物传感器的设计当中。本文对G-四链体-hemin DNA酶在传感器设计中的应用进行了系统的介绍和评述,并对其未来的发展进行了初步的展望。     

哒嗪并[6,1-b]喹唑啉酮类化合物的合成及其生物活性

通过将两个优势结构单元的组合设计了一个含氮杂环新骨架哒嗪并[6,1-b]喹唑啉酮,并发展了一条以2-氨基苯甲酸酯等为原料,以分子内酰腙跟酯基的分子内缩合反应为关键步骤,经4步反应来合成哒嗪并[6,1-b]喹唑啉酮衍生物的路线. 14个目标化合物4a～4n被合成,其结构经~1H NMR, ~(13)C NMR和HRMS表征和确认.采用噻唑蓝(MTT)法测试了目标化合物对人肿瘤细胞SK-OV-3, CNE-2, MGC-803, NCI-H460和人正常肝细胞LO2的体外细胞毒活性,发现2个化合物具有很强的抗肿瘤活性,其中2-(4-溴苯基)-4-羟基-10H-哒嗪并[6,1-b]喹唑啉-10-酮(4b)对人鼻咽癌细胞CNE-2和2-(3-氯苯基)-4-羟基-10H-哒嗪并[6,1-b]喹唑啉-10-酮(4d)对人肺癌细胞NCI-H460的IC_(50)值分别为2.31和0.85μmol/L,远强于阳性对照药顺铂,与抗肿瘤天然药物喜树碱相当.用紫外光谱法、荧光滴定法进一步研究了化合物与DNA的相互作用,证实化合物可通过嵌入DNA的方式与DNA相互作用.活性强而且毒性低的化合物4d还可以剂量依赖性关系将人肺癌细胞NCI-H460的细胞周期阻滞在G1期,并显著诱导细胞发生凋亡,而毒性高的化合物4b则可诱导细胞的双链DNA发生断裂.     

CO_2-甲醇和CO_2-乙醇体系的交叉缔合模型

在统计缔合流体理论(statistical associating fluid theory,SAFT)的基础上,将二氧化碳(CO2)处理为似缔合分子,考虑醇羟基之间的自缔合作用,以及CO2分子与醇羟基之间的交叉缔合作用,提出了适用于CO2-醇类体系的交叉缔合模型.应用该模型研究了CO2-甲醇和CO2-乙醇体系从低温低压到高温高压的相平衡性质.p-x和p-ρ相图的计算值与实验值吻合良好.研究表明,考虑CO2与甲醇和乙醇分子之间的交叉缔合对Helmholtz自由能的贡献,可显著改善相平衡性质的计算结果,并避免模型对低温区间中三相平衡和三相点的错误预测.     

新多环特特拉姆酸大环内酰胺3-Hydroxycombamide Ⅰ的发现

从链霉菌S001的重组菌株S001-cbm-OX4-ikaD中分离获得1个新多环特特拉姆酸大环内酰胺(Po TeMs)类化合物3-hydroxycombamide Ⅰ (2),通过一维、二维核磁共振波谱(NMR)和高分辨质谱(HRMS)数据分析确定其化学结构.化合物2的C-3位羟基推测为宿主链霉菌S001所含羟基化酶催化形成.分别采用滤纸片法和噻唑蓝(MTT)比色法测定了化合物2的抗菌和细胞毒活性,结果显示化合物2无明显活性.此外,化合物2在100μmol/L时对鼠伤寒沙门菌Ⅲ型分泌系统(T3SS)无抑制活性.结果显示Po TeMs的C-3位羟基化修饰可能发生在多环体系氧化修饰之后.     

A kinetic fluorometric method for the determination of nucleic acids using a ternary equilibrium system of nucleic acids—iron (III) tetracarboxy phthalocyanine-poly-lysine coupled with the oxidation reaction between hydrogen peroxide and dl-tyrosine

Using the oxidation reaction between hydrogen peroxide and dl-tyrosine as fluorescence indication, the evident tuning effect of nucleic acids on catalytic activity of mimetic enzyme iron (III) tetracarboxy phthalocyanine (FeC₄Pc) in the presence of poly-lysine was observed and studied. The oxidation reaction between hydrogen peroxide and dl-tyrosine with FeC₄Pc as catalyst gave an intensively fluorescent compound, which has an excitation wavelength of 325 nm and an emission wavelength of 418 nm. The fluorescence was quenched by a proper concentration of poly-lysine due to its association with FeC₄Pc and consequently the descent of the catalytic activity of FeC₄Pc, but recovered by addition of nucleic acids. Under optimal conditions, the recovered fluorescence is proportional to the concentration of nucleic acids. Based on the fact, a kinetic fluorescent method was developed for the determination of nucleic acids. The calibration graphs are linear over the range 10-2000 ng/mL both for fish sperm DNA (FS DNA) and calf thymus DNA (CT DNA). The corresponding detection limits are 1.04 ng/mL for FS DNA and 1.18 ng/mL for CT DNA, respectively. Four synthetic and three real nucleic acid samples were determined with satisfactory results.     

Cationic cyanine as a near-infrared fluorescent probe for the determination of nucleic acids

A new method with a cationic near-IR cyanine as fluorescent probe was developed for the determination of nucleic acids. The near-IR cyanine shows maximum excitation and emission wavelengths at 765 and 790 nm, respectively, in aqueous solution. The method is based on the fluorescence decrease of near-IR cyanine in the presence of nucleic acids. Under optimal conditions, the ratio of fluorescence intensity in the absence and presence of nucleic acids was proportional to the concentration of nucleic acids over the range 0.10-1.2 microg/mL for CT (calf thymus) DNA or SM (salmon sperm) DNA, and 0.10-1.6 microg/mL for yeast RNA. The detection limits were 30 ng/mL for CT DNA, 25 ng/mL for SM DNA and 70 ng/mL for yeast RNA. The relative standard deviation (n = 6) was 2.1% for 500 ng/mL CT DNA, 2.4% for 500 ng/mL SM DNA and 2.7% for 500 ng/mL yeast RNA, respectively.     

Cationic cyanine as a near-infrared fluorescent probe for the determination of nucleic acids

A new method with a cationic near-IR cyanine as fluorescent probe was developed for the determination of nucleic acids. The near-IR cyanine shows maximum excitation and emission wavelengths at 765 and 790 nm, respectively, in aqueous solution. The method is based on the fluorescence decrease of near-IR cyanine in the presence of nucleic acids. Under optimal conditions, the ratio of fluorescence intensity in the absence and presence of nucleic acids was proportional to the concentration of ¶nucleic acids over the range 0.10–1.2 μg/mL for CT (calf thymus) DNA or SM (salmon sperm) DNA, and 0.10–¶1.6 μg/mL for yeast RNA. The detection limits were ¶30 ng/mL for CT DNA, 25 ng/mL for SM DNA and ¶70 ng/mL for yeast RNA. The relative standard deviation (n = 6) was 2.1% for 500 ng/mL CT DNA, 2.4% for ¶500 ng/mL SM DNA and 2.7% for 500 ng/mL yeast RNA, respectively.     

Determination of nucleic acids based on shifting the association equilibrium between tetracarboxy aluminum phthalocyanine and poly-lysine

A new method based on near-infrared (near-IR) fluorescence recovery was presented for the determination of nucleic acids. This method employed a two-reagent system composed of anionic tetracarboxy aluminum phthalocyanine (AlC4Pc) and polycationic poly-lysine. The fluorescence of AlC4Pc, with the maximum excitation and emission wavelengths at 620 and 701 nm, respectively, was quenched by poly-lysine with a proper concentration, but recovered by adding nucleic acids. Under optimal conditions, the recovered fluorescence was in proportional to the concentration of nucleic acids. The linear ranges of the calibration curves were 5-200 ng mL(-1) for both calf thymus DNA (ctDNA) and fish sperm DNA (fsDNA) with the detection limit of 2.6 ng mL(-1) for ctDNA and 2.1 ng mL(-1) for fsDNA. The relative standard deviation (n = 6) was 1.9 and 1.3% for 50 ng mL(-1) ctDNA and fsDNA, respectively. The proposed method was applied to the determination of nucleic acids in synthetic samples with satisfactory results.     

Resonance Rayleigh scattering study of the interaction of bleomycinA_5 with nucleic acids and its analytical application

The interaction of bleomycinA5 with nucleic acids has been investigated by using resonance Rayleigh scattering (RRS), molecular absorption and fluorescence spectra. The result shows that in near pH 2.2 buffer medium and absence of any metal ions, nucleic acids are capable of binding with bleomycinA5 (BLMA5) to form complexes which can remarkably enhance the RRS intensity and result in batho- chromic and hyperchromic molecular absorption of nucleic acids and fluorescence quenching of bleomycinA5. The RRS spectral characteristics for the binding products of bleomycinA5 with various DNA and RNA are similar, and the maximum RRS peaks are at 301 nm for ctDNA and sDNA, 370 nm for hsDNA, 310 nm for RNAtypeVI and RNAtypeIII, respectively. The increments of RRS intensity are greatly different in which DNA enhances greatly and RNA enhances lightly. In this work, the optimum condi- tions of the interaction and some influencing factors have been investigated. The reaction mechanism and a binding model for the interaction of BLMA5 with the nucleic acids are discussed. In addition, a highly sensitive, simple and rapid new method for the determination of DNA has been developed. The detection limits (3σ) are 5.7 ng/mL for ctDNA, 7.4 ng/mL for sDNA and 9.2 ng/mL for hsDNA, respectively. The method can be applied to determination of trace amounts of DNA.     

Resonance Rayleigh scattering study of the interaction of bleomycinA<Subscript>5</Subscript> with nucleic acids and its analytical application

The interaction of bleomycinA5 with nucleic acids has been investigated by using resonance Rayleigh scattering (RRS), molecular absorption and fluorescence spectra. The result shows that in near pH 2.2 buffer medium and absence of any metal ions, nucleic acids are capable of binding with bleomycinA5 (BLMA5) to form complexes which can remarkably enhance the RRS intensity and result in bathochromic and hyperchromic molecular absorption of nucleic acids and fluorescence quenching of bleomycinA5. The RRS spectral characteristics for the binding products of bleomycinA5 with various DNA and RNA are similar, and the maximum RRS peaks are at 301 nm for ctDNA and sDNA, 370 nm for hsDNA, 310 nm for RNAtypeVI and RNAtypeIII, respectively. The increments of RRS intensity are greatly different in which DNA enhances greatly and RNA enhances lightly. In this work, the optimum conditions of the interaction and some influencing factors have been investigated. The reaction mechanism and a binding model for the interaction of BLMA5 with the nucleic acids are discussed. In addition, a highly sensitive, simple and rapid new method for the determination of DNA has been developed. The detection limits (3σ) are 5.7 ng/mL for ctDNA, 7.4 ng/mL for sDNA and 9.2 ng/mL for hsDNA, respectively. The method can be applied to determination of trace amounts of DNA.     

Cationic conjugated polymers as signal reporter for label-free assay based on targets-mediated aggregation of perylene diimide quencher

Herein, we reported a cationic conjugated polymers-based new biosensor with label-free and fluorescence turn-on strategy by virtue of targets regulated aggregation and quenching ability of perylene diimide derivatives.     

Determination of nucleic acids using fluorescence probe sensitized by microemulsion

Because the fluorescence of azur A can be quenched by adding nucleic acid, a sensitive fluorometric method for determination of nucleic acids at nanogram levels was established. Using optimal conditions, the calibration curves were linear in the range of 0-6.0 microg/mL for calf thymus deoxyribonucleic acid (ct DNA) and 0-7.0 microg/mL for herring sperm DNA (hs DNA). The limits of determination were 3.5 and 3.8 ng/mL, respectively, which shows the high sensitivity of this method. Triton X-100 microemulsion was applied as a sensitive media to enhance the sensitivity. The binding mode concerning the interactions of azur A with nucleic acids was also studied and the association constant with different binding numbers was obtained. The method has been applied to the determination of nucleic acid in both synthetic and real samples, such as cauliflower and pork liver, with satisfactory results.     

A novel spectrofluorimetric method for the determination of DNA

A new simple, selective and sensitive fluorescence quenching method was developed to determine nucleic acids (DNA) with the 9-anthracenecarboxylic acid (ACA)-cetyl trimethyl-ammonium bromide (CTAB) system. The fluorescence intensity of ACA was decreased by the addition (CTAB). However, the fluorescence intensity of the system increased dramatically when DNA was added to the solution. The fluorescence enhancement is probably based on the DNA interaction with CTAB. Under the optimum conditions, the changes of fluorescence intensity in the absence and presence of nucleic acids was proportional to the concentration of nucleic acids over the range 0.08-1.0 microg mL(-1) for CT (calf thymus) DNA or FS (fish sperm) DNA. Its detection limits are 0.02 microg mL(-1) for CT DNA and 0.019 microg mL(-1) for FS DNA. Based on this approach, a new quantitative method for DNA assay is presented in this paper.     

Determination of nucleic acids by near-infrared fluorescence quenching of hydrophobic thiacyanine dye in the presence of Triton X-100.

A near-infrared (near-IR) fluorescence quenching method was developed for the determination of nucleic acids in aqueous solution by using a cationic heptamethylene thiacyanine as a probe. The near-IR cationic cyanine showed maximum excitation and emission wavelengths at 800 and 825 nm, respectively, in the presence of Triton X-100; the fluorescence of the cyanine could be greatly quenched by DNA. The calibration graphs were linear over the range of 10-400 ng/mL for CT (calf thymus) DNA and over the range 5-400 ng/mL for FS (fish sperm) DNA under optimal conditions. The corresponding detection limits were 5.2 ng/mL for CT DNA and 2.5 ng/mL for FS DNA. The relative standard deviation (n = 8) was 3.1% for 75 ng/mL CT DNA and 2.2% for 75 ng/mL FS DNA, respectively. Preliminary research showed that the fluorescence quenching might be ascribed to the formation of dye aggregate facilitated by DNA.