基于杂交链式反应辅助多重信号放大的端粒酶灵敏检测

端粒酶是真核细胞维持端粒长度的关键逆转录酶,其生物活性的高低可以为多种癌症的临床诊断和预后治疗提供有价值的信息.本研究以人宫颈癌细胞(HeLa细胞)裂解液中的端粒酶为研究对象,通过借助杂交链式反应辅助多重信号放大策略,提出了一种新颖、灵敏的检测端粒酶电化学方法.首先将端粒酶的延伸引物自组装在金电极表面,当端粒酶存在时,端粒酶能够催化引物的延伸,产生与发卡环探针H1部分互补的序列,进而引发杂交链式反应,形成由两个发卡环探针(H1和H2)交替杂交而形成的DNA长链.由于H1和H2末端均修饰有生物素,加入链霉亲和素修饰辣根过氧化物酶后,辣根过氧化物酶被被连接到电极表面,催化邻苯二胺氧化生成2,3-二氨基吩嗪,产生显著的电化学信号.实验结果表明,本研究建立的端粒酶电化学检测方法高效、可行,线性范围宽,灵敏度高,可以检测每毫升10个HeLa细胞裂解液中的端粒酶.本方法具有较好的选择性,能有效区分端粒酶和对照蛋白.     

Detection of telomerase activity by combination of telomeric repeat amplification protocol and electrochemiluminescence assay

A highly sensitive telomerase detection method that combines telomeric repeat amplification protocol （TRAP） and magnetic beads based electrochemiluminescence （ECL） assay has been developed. Briefly, telomerase recognizes biotinylated telomerase synthesis primer （B-TS） and synthesizes extension products, which then serve as the templates for PCR amplification using B-TS as the forward primer and tris-（2′2′-bipyridyl） ruthenium （TBR） labeled ACX （TBR-ACX） as the reversed primer. The amplified product is captured on streptavidin-coated paramagnetic beads and detected by ECL. Telomerase positive HeLa cells were used to validate the feasibility of the method. The experimental results showed down to 10 cancer cells can be detected easily. The method is a useful tool for telomerase activity analysis due to its sensitivity, rapidity, safety, high throughput, and low cost. It can be used for screening a large amount of clinical samples.     

基于链置换循环无标记检测端立酶RNA的荧光法

以氧化石墨烯(GO)作为DNA载体和荧光猝灭剂,SYBRGreen Ⅰ(SGⅠ)为荧光信号探针,发夹核酸探针为分子识别探针,基于目标物启动的发夹核酸探针链置换循环反应,建立了一种利用荧光共振能量转移和链置换循环放大技术检测端粒酶RNA (hTR)的荧光新方法.发夹核酸探针hpDNA1和hpDNA2吸附在GO表面,嵌插在发夹DNA探针茎部的SG Ⅰ的荧光信号被GO猝灭.当人工合成的目标物(T1)存在时,T1与hpDNA1杂交打开hpDNA1的茎-环结构而引发hpDNA2与T1之间的链置换循环反应,由此累积产生大量的hpDNA1/hpDNA2杂交双链.刚性的双链DNA脱离GO表面,导致所嵌插的SG Ⅰ产生较强的荧光信号.基于荧光信号的变化,可定量检测0.2～50 nmoL/L的T1,检出限为90 pmol/L.该方法为端粒酶RNA检测提供了一种高灵敏、高特异性且无需标记的荧光新途径.     

用结晶紫为荧光指示剂筛选G-四链体的小分子配体

基于结晶紫(CV)与G-四链体的特异性结合以及结晶紫和端粒DNA(G-DNA)、G-四链体作用后荧光强度的差异,以天然抗肿瘤中药槲皮素为研究对象,建立了一种简单、快速、无标记筛选G-四链体配体的方法。研究了槲皮素与G-DNA的相互作用,并考察了G-DNA在K+存在下形成G-四链体后与槲皮素的作用情况。该方法已用于筛选G-四链体的小分子配体。     

New hydrosoluble perylene and coronene derivatives

Several lipophilic perylene and coronene derivatives, employed mainly as liquid crystalline dyes are known and their synthesis has been widely studied. We have applied an analogue strategy using hydrophilic substituents to obtain highly water soluble perylene diimides (4) and a new hydrosoluble coronene derivative (CORON, 6), whose molecular features appear particularly suitable for inducing G-quadruplex DNA structures and inhibiting human telomerase.     

钌配合物与G-四链体DNA的相互作用研究进展

人体端粒由富含鸟嘌呤(G)的DNA重复序列组成,该序列在一定条件下可以形成G-四链体DNA结构。小分子化合物诱导该结构的形成并使之稳定,可以抑制端粒酶活性而达到抗肿瘤的目的。因此,G-四链体DNA稳定剂的设计和筛选是近年来生物无机化学的重要前沿研究领域之一。在金属配合物中,钌配合物由于具有丰富的光化学、光物理特性以及生物活性,其作为G-四链体DNA稳定剂引起人们的高度关注。本文以近年一些代表性的研究工作为例,对钌配合物与G-四链体DNA相互作用方面的研究进展进行了综述。     

Combination of chromatographic and chemometric methods to study the interactions between DNA strands

This work describes the combination of size-exclusion chromatography and chemometric resolution methods to study the formation of complex DNA structures from individual strands. This combined procedure has been applied to two different experimental data. Firstly, the formation of an intermolecular Watson–Crick duplex structure formed by the individual unstructured strands. Secondly, the competition between the intermolecular Watson–Crick duplex and intramolecular quadruplex structures formed by two sequences found in the hTERT gene has been studied.     

Sulfated liposaccharides inspired by telomerase inhibitor axinelloside A

Sulfated liposaccharides are known inhibitors of telomerase and here we describe the synthesis of a series of sulfated liposaccharides inspired by the natural product axinelloside A, reported to act as an inhibitor of human telomerase. We established a robust and scalable synthetic route to galactosyl liposaccharides capitalizing on a series of regioselective acylation reactions with 2-decenoic acid and imidazolium sulfate esters.