Optimizing UV laser focus profiles for improved MALDI performance

Matrix assisted laser desorption/ionization (MALDI) applications, such as proteomics, genomics, clinical profiling and MALDI imaging, have created a growing demand for faster instrumentation. Since the commonly used nitrogen lasers have throughput and life span limitations, diode‐pumped solid‐state...

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Veröffentlicht in:	Journal of mass spectrometry. 2006-06, Vol.41 (6), p.705-716
Hauptverfasser:	Holle, Armin, Haase, Andreas, Kayser, Markus, Höhndorf, Jens
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms beam profile Exact sciences and technology Instruments, apparatus, components and techniques common to several branches of physics and astronomy laser Lasers MALDI MALDI imaging Mass spectrometers and related techniques Physics Reproducibility of Results Scattering, Radiation Sensitivity and Specificity smart beam solid state Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods thin-layer preparation Ultraviolet Rays YAG
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container_end_page	716
container_issue	6
container_start_page	705
container_title	Journal of mass spectrometry.
container_volume	41
creator	Holle, Armin Haase, Andreas Kayser, Markus Höhndorf, Jens
description	Matrix assisted laser desorption/ionization (MALDI) applications, such as proteomics, genomics, clinical profiling and MALDI imaging, have created a growing demand for faster instrumentation. Since the commonly used nitrogen lasers have throughput and life span limitations, diode‐pumped solid‐state lasers are an alternative. Unfortunately this type of laser shows clear performance limitations in MALDI in terms of sensitivity, resolution and ease of use, for applications such as thin‐layer sample preparations, acceptance of various matrices (e.g. DHB for glycopeptides) and MALDI imaging. While it is obvious that the MALDI process has some dependence on the characteristics of the laser used, it is unclear which features are the most critical in determining laser performance for MALDI. In this paper we show, for the first time, that a spatially structured laser beam profile in lieu of a Gaussian profile is of striking importance. This result enabled us to design diode‐pumped Nd : YAG lasers that on various critical applications perform as well for MALDI as the nitrogen lasers and in some respects even better. The modulation of the beam profile appears to be a new parameter for optimizing the MALDI process. In addition, the results trigger new questions directing us to a better understanding of the MALDI process. Copyright © 2006 John Wiley & Sons, Ltd.
doi_str_mv	10.1002/jms.1041
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Since the commonly used nitrogen lasers have throughput and life span limitations, diode‐pumped solid‐state lasers are an alternative. Unfortunately this type of laser shows clear performance limitations in MALDI in terms of sensitivity, resolution and ease of use, for applications such as thin‐layer sample preparations, acceptance of various matrices (e.g. DHB for glycopeptides) and MALDI imaging. While it is obvious that the MALDI process has some dependence on the characteristics of the laser used, it is unclear which features are the most critical in determining laser performance for MALDI. In this paper we show, for the first time, that a spatially structured laser beam profile in lieu of a Gaussian profile is of striking importance. This result enabled us to design diode‐pumped Nd : YAG lasers that on various critical applications perform as well for MALDI as the nitrogen lasers and in some respects even better. The modulation of the beam profile appears to be a new parameter for optimizing the MALDI process. In addition, the results trigger new questions directing us to a better understanding of the MALDI process. 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Mass Spectrom</addtitle><description>Matrix assisted laser desorption/ionization (MALDI) applications, such as proteomics, genomics, clinical profiling and MALDI imaging, have created a growing demand for faster instrumentation. Since the commonly used nitrogen lasers have throughput and life span limitations, diode‐pumped solid‐state lasers are an alternative. Unfortunately this type of laser shows clear performance limitations in MALDI in terms of sensitivity, resolution and ease of use, for applications such as thin‐layer sample preparations, acceptance of various matrices (e.g. DHB for glycopeptides) and MALDI imaging. While it is obvious that the MALDI process has some dependence on the characteristics of the laser used, it is unclear which features are the most critical in determining laser performance for MALDI. In this paper we show, for the first time, that a spatially structured laser beam profile in lieu of a Gaussian profile is of striking importance. This result enabled us to design diode‐pumped Nd : YAG lasers that on various critical applications perform as well for MALDI as the nitrogen lasers and in some respects even better. The modulation of the beam profile appears to be a new parameter for optimizing the MALDI process. In addition, the results trigger new questions directing us to a better understanding of the MALDI process. 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subjects	Algorithms beam profile Exact sciences and technology Instruments, apparatus, components and techniques common to several branches of physics and astronomy laser Lasers MALDI MALDI imaging Mass spectrometers and related techniques Physics Reproducibility of Results Scattering, Radiation Sensitivity and Specificity smart beam solid state Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods thin-layer preparation Ultraviolet Rays YAG
title	Optimizing UV laser focus profiles for improved MALDI performance
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