Author: Fang, Xueen; Liu, Yingyi; Kong, Jilie; Jiang, Xingyu
Title: Loop-mediated isothermal amplification integrated on microfluidic chips for point-of-care quantitative detection of pathogens. Cord-id: 9bwr1xzl Document date: 2010_1_1
ID: 9bwr1xzl
Snippet: This work shows that loop-mediated isothermal amplification (LAMP) of nucleic acid can be integrated in an eight-channel microfluidic chip for readout either by the naked eye (as a result of the insoluble byproduct pyrophosphate generating during LAMP amplification) or via absorbance measured by an optic sensor; we call this system microLAMP (microLAMP). It is capable of analyzing target nucleic acids quantitatively with high sensitivity and specificity. The assay is straightforward in manipulat
Document: This work shows that loop-mediated isothermal amplification (LAMP) of nucleic acid can be integrated in an eight-channel microfluidic chip for readout either by the naked eye (as a result of the insoluble byproduct pyrophosphate generating during LAMP amplification) or via absorbance measured by an optic sensor; we call this system microLAMP (microLAMP). It is capable of analyzing target nucleic acids quantitatively with high sensitivity and specificity. The assay is straightforward in manipulation. It requires a sample volume of 0.4 microL and is complete within 1 h. The sensitivity of the assay is comparable to standard methods, where 10 fg of DNA sample could be detected under isothermal conditions (63 degrees C). A real time quantitative microLAMP assay using absorbance detection is possible by integration of optical fibers within the chip.
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