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Literature DB >> 15307448

Surface effects on PCR reactions in multichip microfluidic platforms.

Nicholas J Panaro¹, Xing Jian Lou, Paolo Fortina, Larry J Kricka, Peter Wilding.

Abstract

We evaluated the compatibility of several common plastics, commercially available plastic tubing and disposable syringes which might be useful in the construction of microfluidic platforms with respect to the polymerase chain reaction (PCR). A simple and inexpensive plastic test module was constructed in order to evaluate some of the construction plastics. We also investigated the effect of addition of PEG 8000 to PCR reaction mixtures on the compatibility of materials. These studies identified several common plastics, plastic tubing, and disposable syringes which were compatible with the PCR reaction.

Entities: Chemical

Mesh：

Substances：
Plastics

Year: 2004 PMID： 15307448 DOI： 10.1023/b:bmmd.0000013369.34716.8d

Source DB: PubMed Journal: Biomed Microdevices ISSN： 1387-2176 Impact factor: 2.838

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Cited

7 in total

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Journal: Biomed Microdevices Date: 2013-04 Impact factor: 2.838

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Journal: Biomicrofluidics Date: 2010-05-03 Impact factor: 2.800

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4. Microfluidic chip for molecular amplification of influenza A RNA in human respiratory specimens.

Authors: Qingqing Cao; Madhumita Mahalanabis; Jessie Chang; Brendan Carey; Christopher Hsieh; Ahjegannie Stanley; Christine A Odell; Patricia Mitchell; James Feldman; Nira R Pollock; Catherine M Klapperich
Journal: PLoS One Date: 2012-03-22 Impact factor: 3.240

Surface effects on PCR reactions in multichip microfluidic platforms.

1. Sensitive, microliter PCR with consensus degenerate primers for Epstein Barr virus amplification.

2. Amplification of SPPS150 and Salmonella typhi DNA with a high throughput oscillating flow polymerase chain reaction device.

3. Fully 3D printed integrated reactor array for point-of-care molecular diagnostics.

4. Microfluidic chip for molecular amplification of influenza A RNA in human respiratory specimens.

5. Parallel gene synthesis in a microfluidic device.

Review 6. Isothermal amplification methods for the detection of nucleic acids in microfluidic devices.

7. Biocompatibility of fluids for multiphase drops-in-drops microfluidics.