High-Throughput Axial MALDI-TOF MS Using a 2 kHz Repetition Rate Laser

MOSKOVETS, Eugene, Jan PREISLER, H. S. CHEN, Tomáš REJTAR, Viktor ANDREEV and Barry L. KARGER. High-Throughput Axial MALDI-TOF MS Using a 2 kHz Repetition Rate Laser. Analytical Chemistry. Washington, D.C., USA: American Chemical Society, 2006, vol. 78, No 3, p. 912-919. ISSN 0003-2700.

Basic information

• Original name: High-Throughput Axial MALDI-TOF MS Using a 2 kHz Repetition Rate Laser
• Name in Czech: Vysoce výkonná axiální MALDI-TOF MS s 2 kHz laserem
• Authors: MOSKOVETS, Eugene (643 Russian Federation), Jan PREISLER (203 Czech Republic, guarantor), H. S. CHEN (768 Togo), Tomáš REJTAR (203 Czech Republic), Viktor ANDREEV (643 Russian Federation) and Barry L. KARGER (840 United States of America).
• Edition: Analytical Chemistry, Washington, D.C., USA, American Chemical Society, 2006, 0003-2700.

Other information

• Original language: English
• Type of outcome: Article in a journal
• Field of Study: 10406 Analytical chemistry
• Country of publisher: United States of America
• Confidentiality degree: is not subject to a state or trade secret
• Impact factor: Impact factor: 5.646
• RIV identification code: RIV/00216224:14310/06:00015575
• Organization unit: Faculty of Science
• UT WoS: 000235195200050
• Keywords in English: MALDI; TOF; mass spectrometry; time of flight; high-throughput
• Tags: high-throughput, MALDI, mass spectrometry, time of flight, TOF

Abstract

A high-throughput axial MALDI-TOF mass spectrometer utilizing a laser with a 2 kHz pulse repetition-rate was constructed and tested. This fast mass spectrometer provided a data acquisition rate 10 times faster than a commercially available (200 Hz) axial mass spectrometer, while maintaining comparable limits of detection (200 amole of Glu fib peptide). Mass resolution, only slightly less than the commercial instrument (10,000 vs. 14,000), was sufficient for baseline resolution of isotopic clusters of peptides with m/z <2700. A new method of mass calibration, which combined a limited number of internal and external standards, provided the same 15 ppm mass accuracy over the entire sample plate on either instrument. Implementing the 2 kHz laser required a faster data acquisition system and high-voltage pulse electronics, together with a novel strategy for rapid sample plate movements during acquisition, to achieve a sample analysis rate of up to 2 spots per second (with 800 shots/spot). The overall performance of the fast MALDI-TOF MS instrument was demonstrated by the acquisition, in 12 minutes, of an LC-MS dataset from a plate of 650 fractions collected during LC separation of an 16O/18O differentially-labeled proteomic sample of a tryptic digest of an E.coli lysate.

Abstract (in Czech)

Byl zkonstruován a vyzkoušen vysoce výkonný axiální MALDI-TOF MS s 2 kHz laserem. Detekční limit cca 200 amole of Glu fib peptidu, hmotnostní rozlišení 10000, správnost stanovení m/z 15 ppm, rychlost analýzy až 2 vzorky za sekundu při 800 pulsech na vzorek. Demonstrace analýzy 650 frakcí z LC-MS během 12 minut. Další detaily v anglické anotaci.

Links

• GA203/03/0515, research and development project: Name: Integrovaná analýza genomu a proteomu terapeuticky významných bakteriofágů kombinací elektroforézy a hmotnostní spektrometrie

Investor: Czech Science Foundation, Integrated genome and proteome analysis of therapeutically important bacteriophages by combination of electrophoresis and mass spectrometry