Two-dimensional nitrosylated protein fingerprinting by using poly (methyl methacrylate) microchips.

S-nitrosylation (also referred to as nitrosation), a reversible post translational modification (PTM) of cysteine, plays an important role in cellular functions and cell signalling pathways. Nitrosylated proteins are considered as biomarkers of aging and Alzheimer's disease (AD). Microfluidics has been widely used for development of novel tools for separation of protein mixtures.

Integrated continuous flow polymerase chain reaction and micro-capillary electrophoresis system with bioaffinity preconcentration.

An integrated and modular DNA analysis system is reported that consists of two modules: (i) A continuous flow polymerase chain reaction (CFPCR) module fabricated in a high T(g) (150°C) polycarbonate substrate in which selected gene fragments were amplified using biotin and fluorescently labeled primers accomplished by continuously shuttling small packets of PCR reagents and template through isothermal zones as opposed to heating and cooling large thermal masses typically performed in batch-type thermal reactors. (ii) μCE (micro-capillary electrophoresis) module fabricated in poly(methylmethacrylate) (PMMA), which utilized a bioaffinity selection and purification bed (2.9  μL) to preconcentrate and purify the PCR products generated from the CFPCR module prior to electrophoretic sorting.

Integrated microfluidic systems for DNA analysis.

The potential utility of genome-related research in terms of evolving basic discoveries in biology has generated widespread use of DNA diagnostics and DNA forensics and driven the accelerated development of fully integrated microfluidic systems for genome processing. To produce a microsystem with favorable performance characteristics for genetic-based analyses, several key operational elements must be strategically chosen, including device substrate material, temperature control, fluidic control, and reaction product readout. As a matter of definition, a microdevice is a chip that performs a single processing step, for example microchip electrophoresis.

High-throughput selection, enumeration, electrokinetic manipulation, and molecular profiling of low-abundance circulating tumor cells using a microfluidic system.

A circulating tumor cell (CTC) selection microfluidic device was integrated to an electrokinetic enrichment device for preconcentrating CTCs directly from whole blood to allow for the detection of mutations contained within the genomic DNA of the CTCs. Molecular profiling of CTCs can provide important clinical information that cannot be garnered simply by enumerating the selected CTCs. We evaluated our approach using SW620 and HT29 cells (colorectal cancer cell lines) seeded into whole blood as a model system.

Microchip electrophoresis of Alu elements for gender determination and inference of human ethnic origin.

We performed a series of multi-locus PCRs followed by the rapid and efficient microchip electrophoretic sorting of Alu products with LIF detection. Five polymorphic human-specific Alu insertions (RC5, A1, PV92, TPA and ACE) were used for inference of human ethnicity and two monomorphic Alu insertions for sex typing, one fixed on the X chromosome (AluSTXa) and the other on the Y chromosome (AluSTYa). These markers were used to generate unique DNA profiles for five different DNA samples.