An Integrated Micro‐Heating System for On‐Chip Isothermal Amplification of African Swine Fever Virus Genes

Abstract

AbstractThe loop‐mediated isothermal amplification (LAMP) is widely used in the laboratory to facilitate rapid DNA or RNA detection with a streamlined operational process, whose properties are greatly dependent on the uniformity and rise rate of temperature in the reaction chambers and the design of the primers. This paper introduces a planar micro‐heater equipped with an embedded micro‐temperature sensor to realize temperature tunability at a low energy cost. Moreover, a control system, based on the Wheatstone bridge and proportional, integral, and derivative (PID) control, is designed to measure and adjust the temperature of the micro‐heater. The maximum temperature rise rate of the designed micro‐heater is ≈8 °C s−1, and it only takes ≈60 s to reach the target temperature. Furthermore, a designed plasmid, containing the B646L gene of African Swine Fever Virus (ASFV), and a set of specific primers, are used to combine with the designed micro‐heating system to implement the LAMP reaction. Finally, the lateral flow assay is used to interpret the amplification results visually. This method can achieve highly sensitive and efficient detection of ASFV within 40 min. The sensitivity of this on‐chip gene detection method is 8.4 copies per reaction, holding great potential for applications in DNA and RNA amplification.