Add to ORKGThe study of interaction between human Topoisomerase I (hTopo I) and the appropriate sequences of DNA is shown, with the aim to realize a biosensor for malaria diagnosis. Topoisomerases alter the topological state of DNA by catalysing the breaking and rejoining of DNA strands1. The ligase activity is fundamental for our biosensing strategy, revealing the pathology. hTopo I was chosen as a model system for the Plasmodium analogous. The biosensor is a new flexible and easy to degrade biochip printed on nylon by dip-pen lithography (DPL). It is realized exploiting the high specificity of complementary ssDNA2 and hTopo I ligase activity. DPL operation needs ultra-low amounts of DNA (0.5 µL) to print thousands of spots with a tremendous reductio...
Abstract Background The topoisomerase I (TopI) reaction intermediate consists of an enzyme covalentl...
We present an attractive new system for the specific and sensitive detection of the malaria-causing ...
Topological enzymes, both type I and type II topoisomerases, are not only essential for the processe...
The study of interaction between human Topoisomerase I (hTopo I) and the appropriate sequences of DN...
Dip-pen lithography (DPL) technique has been employed to develop a new flexible biosensor realized o...
The first step for prevention and treatment of diseases is the accurate diagnosis. However, proper d...
The so-called Rolling Circle Amplification allows for amplification of circular DNA structures in a ...
DNA topoisomerases are essential enzymes in the control and in the maintenance of the topological st...
Sensors capable of quantitative real-time measurements may present the easiest and most accurate way...
Rapid and reliable diagnosis is essential in the fight against malaria, which remains one of the mos...
Most activity-based molecular probes are designed to target enzymes that catalyze the breaking of ch...
Background: Eukaryotic topoisomerase 1 is a potential target of anti-parasitic and anti-cancer drugs...
Il Plasmodium falciparum è l’agente eziologico della malaria umana. La diffusione di ceppi multi- re...
We present a Rolling-Circle-Enhance-Enzyme-Activity-Detection (REEAD) system with potential use for ...
Human topoisomerase I is a group of enzyme that is responsible for the interconversions of different...
Abstract Background The topoisomerase I (TopI) reaction intermediate consists of an enzyme covalentl...
We present an attractive new system for the specific and sensitive detection of the malaria-causing ...
Topological enzymes, both type I and type II topoisomerases, are not only essential for the processe...
The study of interaction between human Topoisomerase I (hTopo I) and the appropriate sequences of DN...
Dip-pen lithography (DPL) technique has been employed to develop a new flexible biosensor realized o...
The first step for prevention and treatment of diseases is the accurate diagnosis. However, proper d...
The so-called Rolling Circle Amplification allows for amplification of circular DNA structures in a ...
DNA topoisomerases are essential enzymes in the control and in the maintenance of the topological st...
Sensors capable of quantitative real-time measurements may present the easiest and most accurate way...
Rapid and reliable diagnosis is essential in the fight against malaria, which remains one of the mos...
Most activity-based molecular probes are designed to target enzymes that catalyze the breaking of ch...
Background: Eukaryotic topoisomerase 1 is a potential target of anti-parasitic and anti-cancer drugs...
Il Plasmodium falciparum è l’agente eziologico della malaria umana. La diffusione di ceppi multi- re...
We present a Rolling-Circle-Enhance-Enzyme-Activity-Detection (REEAD) system with potential use for ...
Human topoisomerase I is a group of enzyme that is responsible for the interconversions of different...
Abstract Background The topoisomerase I (TopI) reaction intermediate consists of an enzyme covalentl...
We present an attractive new system for the specific and sensitive detection of the malaria-causing ...
Topological enzymes, both type I and type II topoisomerases, are not only essential for the processe...