Hyun Young Heo scite author profile

Recent improvements in the multiplex ligation-dependent probe amplification (MLPA) method promise successful multiplex analysis of various genetic markers. In particular, it has been demonstrated that elimination of the stuffer sequence included in MLPA probes for length-dependent analysis substantially simplifies the probe design process and improves the accuracy of the analysis. As is the case for other CE-based methods, MLPA could be further developed on a microchip platform. However, high-resolution analysis of short MLPA probes requires careful microchip operation. In this study, we developed a microchip device for the multiplex analysis of five food-borne pathogens using a stuffer-free probe set. Microchip channel design and electrophoresis operating conditions were first optimized for reproducible analysis, after which two sieving matrices were tested. Finally, the method was validated using DNA samples isolated from intentionally infected milk.

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A valveless rotary microfluidic device for multiplex point mutation identification based on ligation-rolling circle amplification

Heo

Chung

Kim

et al. 2016

Biosensors and Bioelectronics

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An integrated slidable and valveless microdevice with solid phase extraction, polymerase chain reaction, and immunochromatographic strip parts for multiplex colorimetric pathogen detection

et al. 2015

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A total integrated genetic analysis microsystem was developed, which consisted of solid phase extraction (SPE), polymerase chain reaction (PCR), and immunochromatographic strip (ICS) parts for multiplex colorimetric detection of pathogenic Staphylococcus aureus (S. aureus) and Escherichia coli O157:H7 (E. coli O157:H7) on a portable genetic analyzer. Utilizing a slidable chamber, which is a movable glass wafer, complex microvalves could be eliminated for fluidic control in the microchannel, which could simplify the chip design and chip operation. The integrated slidable microdevice was composed of 4 layers: a 4-point Pt/Ti resistance temperature detector (RTD) wafer, a micro-patterned channel wafer, a 2 μL volume slidable chamber, and an ICS. The entire process from the DNA extraction in the SPE chamber to the detection of the target gene expression by the ICS was serially performed by simply sliding the slidable chamber from one part to another functional part. The total process for multiplex pathogenic S. aureus and E. coli O157:H7 detection on the integrated slidable microdevice was accomplished within 55 min with a detection limit of 5 cells. Furthermore, spiked bacteria samples in milk were also successfully analysed on the portable genetic analysis microsystem with sample-in-answer-out capability. The proposed total integrated microsystem is adequate for point-of-care DNA testing in that no microvalves and complex tubing systems are required due to the use of the slidable chamber and the bulky and expensive fluorescence or electrochemical detectors are not necessary due to the ICS based colorimetric detection.

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Hyun Young Heo

Simplifying biodiesel production from microalgae via wet in situ transesterification: A review in current research and future prospects

Total integrated slidable and valveless solid phase extraction-polymerase chain reaction-capillary electrophoresis microdevice for mini Y chromosome short tandem repeat genotyping

Triblock copolymer‐based microchip device for rapid analysis of stuffer‐free multiplex ligation‐dependent probe amplification products

A valveless rotary microfluidic device for multiplex point mutation identification based on ligation-rolling circle amplification

An integrated slidable and valveless microdevice with solid phase extraction, polymerase chain reaction, and immunochromatographic strip parts for multiplex colorimetric pathogen detection

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