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MALDI-TOF Mass Spectrometry

JoVE 핵심
Cell Biology
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JoVE 핵심 Cell Biology
MALDI-TOF Mass Spectrometry

3,797 Views

01:19 min

April 30, 2023

Mass spectrometry is a powerful characterization technique that can identify and separate a wide variety of compounds ranging from chemical to biological entities, based on their mass-to-charge ratio (m/z). The instruments that allow this detection, known as mass spectrometers, have three components: an ion source, a mass analyzer, and a detector. These spectrometers differ based on the nature of their ion source and analyzers.

Matrix-assisted laser desorption ionization (MALDI) is a commonly used mass spectrometer. It enables the soft ionization of biological molecules like peptides, lipids, and saccharides without fragmenting them. This means they can be analyzed intact as the sample integrity is maintained.

In MALDI, the sample is mixed with a compatible matrix that is organic molecules. When the laser strikes the sample, the matrix functions as a mediator for energy absorption, yielding the intact sample analyte ions. The matrix molecules energetically ablate from the sample surface, absorb the laser energy and carry the sample molecules into the gas phase. The sample molecules are usually ionized during the ablation process to carry a single positive charge.

The desorbed sample ions carrying the charge are then directed towards the mass analyzer, usually a time-of-flight (TOF). The ions pass through a field-free drift region which allows separation based on size, allowing the smaller ions to reach the detector first.

MALDI-TOF instruments are often connected with a reflectron that reflects ions increasing the ion flight path. This increased flight time between ions of different m/z allows better sample resolution where ions of the same mass reach the detector simultaneously. MALDI sources can be coupled with other analyzers, including triple quadrupoles and Fourier transform ion cyclotron resonance (FT-ICR) mass spectrometers. The MALDI-FT-ICR is known for its high mass resolution, wherein the sample ions carrying the charge move to an ICR cell and cyclotron in a magnetic field while separating on m/z.

With a couple of limitations, like, the possibility of photodegradation by the laser for some sample types, absorption of the laser by a few fluorescent analytes that could affect the results, an acidic matrix that could alter sample nature, etc., overall, this technique has vast applications.  It can analyze protein samples isolated by electrophoresis or chromatography, peptides, carbohydrates, DNA, identify microorganisms from clinical samples and ascertain biomolecules in tissues, among many others.