Abstract: The present invention relates to a detection method for detecting a target RNA contained in a sample with high sensitivity by using nicking/extension chain reaction system-based isothermal nucleic acid amplification (NESBA) that uses activity of a cleavage enzyme and a DNA polymerase. The NESBA of the present invention is a new concept isothermal target RNA detection method that realizes higher amplification efficiency than the existing NASBA technology and is deemed to be utilizable as a new concept diagnosis technology that can replace conventional target RNA detection technologies.

Abstract: The present invention relates to a detection method for detecting a target RNA contained in a sample with high sensitivity by using nicking/extension chain reaction system-based isothermal nucleic acid amplification (NESBA) that uses activity of a cleavage enzyme and a DNA polymerase. The NESBA of the present invention is a new concept isothermal target RNA detection method that realizes higher amplification efficiency than the existing NASBA technology and is deemed to be utilizable as a new concept diagnosis technology that can replace conventional target RNA detection technologies.

Abstract: A biosensor with improved detection sensitivity of a target substance, a method for preparing a biosensor with improved detection sensitivity, and a method for detecting a target substance using the biosensor.

Abstract: The present invention relates to a detection method for detecting a target RNA contained in a sample with high sensitivity by using nicking/extension chain reaction system-based isothermal nucleic acid amplification (NESBA) that uses activity of a cleavage enzyme and a DNA polymerase. The NESBA of the present invention is a new concept isothermal target RNA detection method that realizes higher amplification efficiency than the existing NASBA technology and is deemed to be utilizable as a new concept diagnosis technology that can replace conventional target RNA detection technologies.

Abstract: The present invention relates to a target nucleic acid-detecting method using hairpin probe-assisted isothermal probe amplification (HIPAmp). According to the present invention, the method has the advantage of being able to conduct detection with respect to general-use target nucleic acids by solving the problem with the conventional isothermal nucleic acid amplification technique EXPAR with regard to limited uses of target nucleic acids.

Abstract: The present invention relates to a method for detecting or quantifying ATP in a sample by using a blood glucose meter, the method including adding a sample to be detected to an ATP detection composition containing glucose and an enzyme involved in ATP regeneration so as to convert glucose into glucose-6-phosphate, and then measuring the glucose concentration by using a glucose meter, thereby detecting or quantifying ATP.