水溶性高分子金属卟啉络合物的合成及其与DNA作用的研究

利用荧光探针技术和圆二色谱等分析手段对两种水溶性高分子金属卟啉络合物同DNA的作用进行了初步研究．实验表明,所合成的高分子金属卟啉络合物在同DNA作用时存在有嵌入模式,金属卟啉络合物大的平面环疏水结构和亲水性基团的引入促进了这种作用．     

Polarity modified triplex DNA by bromide

Conclusion A py-pu-py triplex DNA containing the polarity modification by replacing the atom H5 of cytosine with Br was examined, mainly for the stability of the formation of the triplex DNA. Our computational results show that the conformation of the strand that contained a replaced H5 by cytosine to Br was destabilized, but the Hoogsteen base pairs were stabilized. Although this approach of modifying the polarity of DNA base has not been tried before, it shows the possibility to improve the stability by the polarity modification.     

一种适合芽孢杆菌质粒DNA提取的改良碱裂解法

以Birnboim和Doly的质粒提取方法为基础,通过缩短菌体培养时间,增加菌体收集量,并对提取过程中所用的三种主要溶液的用量进行适当调整等,摸索出质粒提取的一种改良碱法.用改良后的碱法对浸麻芽孢杆菌、地衣芽孢杆菌和枯草芽孢杆菌进行质粒提取,均获成功.     

DNA Coding Based Knowledge Discovery Algorithm

A novel DNA coding based knowledge discovery algorithm was proposed, an example which verified its validity was given. It is proved that this algorithm can discover new simplified rules from the original rule set efficiently.     

Improving the thermal stability of lactate oxidase by directed evolution

Lactate oxidase is used in biosensors to measure the concentration of lactate in the blood and other body fluids. Increasing the thermostability of lactate oxidase can significantly prolong the lifetime of these biosensors. We have previously obtained a variant of lactate oxidase from Aerococcus viridans with two mutations (E160G/V198I) that is significantly more thermostable than the wild-type enzyme. Here we have attempted to further improve the thermostability of E160G/V198I lactate oxidase using directed evolution. We made a mutant lactate oxidase gene library by applying error-prone PCR and DNA shuffling, and screened for thermostable mutant lactate oxidase using a plate-based assay. After three rounds of screening we obtained a thermostable mutant lactate oxidase, which has six mutations (E160G/V198I/G36S/T103S/A232S/F277Y). The half-life of this lactate oxidase at 70 °C was about 2 times that of E160G/V198I and about 36 times that of the wild-type enzyme. The amino acid mutation process suggests that the combined neutral mutations are important in protein evolution. Received 15 September 2006; received after revision 21 October 2006; accepted 2 November 2006     

An important functional group,benzo[1,3]dioxole,of alkaloids induces the formation of the human telomeric DNA G-quadruplex

Over the past few decades, numerous molecules have been discovered or designed to interact efficiently and selectively with a peculiar DNA structure named G-quadruplex. Some of these molecules have been developed as anticancer agents. To aid the design of anticancer agents, the ability of alkaloids possessing Protoberberine and Benzophenanthridine groups to induce the formation of G-quadruplexes were studied using CD spectroscopy. By careful examination of their structures, we found that a benzo[1,3]dioxole group plays an important role in influencing their inductive properties. The more functional groups the alkaloids have, the stronger their G-quadruplex inductive ability.     

Serine/threonine protein phosphatases in DNA damage response

DNA damage response (DDR) is among the most important of the mechanisms that maintain genome stability which, when destabilized, predisposes organs to cancer. Reversible phosphorylation mediated by protein kinases and protein phosphatases regulates most, if not all, cellular activities, including DDR. Protein kinase inhibitors have become the main focus of targeted therapy and anticancer drug development. However, our limited knowledge of protein phosphatase function is compromising our capacity to develop therapeutic agents against phosphatases. In this review, we summarize the roles of serine/threonine protein phosphatases involved in DDR and propose that in situ dephosphorylation of phosphoproteins by protein phosphatases, instead of proteasome-mediated degradation of phosphoproteins, is mainly employed by cells.     

Role of Tip60 tumor suppressor in DNA repair pathway

To prevent the damage caused by DNA strand breaks, eukaryotic cells have evolved a series of highly conserved DNA repair mechanisms. The ubiquitously expressed acetyltransferase, Tip60, plays a central role in ATM (ataxia-telangiectasia mutated) activation which is involved in DNA repair. Recent work uncovered a new mechanism of ATM activation mediated by Tip60 and demonstrated that histone methylation, specifically, trimethylation of histone H3, is a key factor in the process. Here, we review the current understanding of how Tip60 is activated and how it activates ATM in response to DNA damage.     

抗癌药物8-氮鸟嘌呤与DNA相互作用的电化学研究

研究了抗癌药物8-氮鸟嘌呤(8-AG)与DNA在pH=3.6条件下相互作用的电化学行为.DNA的存在能导致8-AG氧化峰电流降低,通过测定DNA加入前后的一些电化学参数,推测8-AG与DNA在该条件下通过静电作用结合生成了一种1∶2非电活性的超分子化合物,其结合常数是1.38×1010.同时,根据加入DNA前后8-AG峰电流的降低,测定了模拟样品中的DNA,效果令人满意.