A micro cell lysis device

A new micromachined cell lysis device is developed. It is designed for miniature bio-analysis systems where cell lysing is needed to obtain intracellular materials for further analysis such as DNA identification. It consists of muti-electrode pairs to apply electric fields to cells. We adopt the means of using electric field lysing because it can greatly simplify purification steps for preparation of biological samples, when compared to conventional chemical methods. Yeast, Chinese cabbage, radish cells and E. coli are tested with the device. The lysis of yeast, Chinese cabbage, radish cells is observed by a microscope. The experimental observation suggests E. coli are also lysed by the pulsed electric field. The range of electric field for the lysis is on the order of 1 kV/cm to 10 kV/cm. In addition, for practical reasons, we reduce the voltage required for lysing to less than 10 V by making the electrode gap on the order of microns

Uridine-Conjugated Ferrocene DNA Oligonucleotides: Unexpected Cyclization Reaction of the Uridine Base

The study of energy and electron-transfer processes through DNA duplexes and the development of DNA hybridization probes and electrochemical sensors have resulted in the incorporation of numerous transition-metal complexes into DNA oliognucleotides. These include ruthenium, osmium, iron, rhodium, and copper complexes. Ferrocene (Fc) and its derivatives are attractive electrochemical probes because of their stability and convenient synthetic chemistry. Fc-containing DNA oligonucleotides have been prepared by attaching ferrocenyl moieties to the 5‘ termini through either solid-phase synthesis using phosphoramidites or by reacting suitable ferrocenyl derivatives with end-functionalized oligonucleotides