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Related Concept Videos

Microbial Biosensors01:17

Microbial Biosensors

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Microbial biosensors are analytical devices that utilize living microbes to detect specific substances through measurable signals. These devices consist of two main components: biosensing organisms and signal-transducing elements. Biosensing organisms, such as Escherichia coli or Saccharomyces cerevisiae, are typically housed in multiwell plates connected to transducers, enabling rapid, real-time detection of target analytes.Signal Generation MechanismWhen a target analyte—such as...
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Mass spectrometry is an important technique for the identification of pure compounds. However, it has some limitations for the analysis of complex mixtures, often due to excessive fragmentation making the spectrum too complicated to decipher. Mass spectrometry can be combined with suitable separation methods in sequence, forming hyphenated methods, which are useful in the analysis of complex mixtures.
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A Microfluidic Platform for Precision Small-volume Sample Processing and Its Use to Size Separate Biological Particles with an Acoustic Microdevice
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Recent developments in microfluidic chip-based separation devices coupled to MS for bioanalysis.

Shu-Ling Lin1, Tzuen-Yeuan Lin, Ming-Ren Fuh

  • 1Department of Chemistry, Soochow University, No. 70, Linhsi Road, Shihlin, 11102 Taipei, Taiwan.

Bioanalysis
|October 22, 2013
PubMed
Summary
This summary is machine-generated.

Microfluidic chip separation devices coupled with mass spectrometry (MS) are advancing high-throughput bioanalysis. This review covers microchip electrophoresis, liquid chromatography (LC), and 2D designs for analyzing peptides, glycans, and biomarkers.

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Area of Science:

  • Analytical Chemistry
  • Biotechnology
  • Separation Science

Background:

  • High-throughput bioanalysis demands efficient separation techniques.
  • Microfluidic chip devices coupled to mass spectrometry (MS) offer significant advantages.
  • Recent advancements have focused on integrating microfluidics with MS for complex biological samples.

Purpose of the Study:

  • To review recent advances in microfluidic chip separation devices for bioanalysis.
  • To discuss electrophoresis- and LC-based microchips and 2D microfluidic designs.
  • To evaluate the application of chip-based separation devices coupled to MS in analyzing peptides/proteins, glycans, drug metabolites, and biomarkers.

Main Methods:

  • Review of current literature on microfluidic chip separation devices.
  • Discussion of electrophoresis-based microchip separations.
  • Analysis of liquid chromatography (LC)-based microchip separations.
  • Examination of two-dimensional (2D) microfluidic chip designs.
  • Evaluation of applications in peptide/protein, glycan, drug metabolite, and biomarker analysis coupled to MS.

Main Results:

  • Significant progress in the development of microfluidic chip separation devices for high-throughput bioanalysis.
  • Diverse applications demonstrated for analyzing complex biological molecules and biomarkers.
  • Integration of microfluidic chips with MS enables sensitive and efficient analysis.

Conclusions:

  • Microfluidic chip separation devices coupled to MS represent a powerful platform for modern bioanalysis.
  • Continued innovation in microfluidic designs and applications is expected to further enhance analytical capabilities.
  • These integrated systems are crucial for advancements in proteomics, metabolomics, and biomarker discovery.