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在基质辅助激光解吸电离飞行时间串联质谱仪(MALDI TOF-TOF)中,亮氨酸脑啡肽的碎片化与激光能量密度的关系。

Fragmentation of leucine enkephalin as a function of laser fluence in a MALDI TOF-TOF.

作者信息

Campbell Jennifer M, Vestal Marvin L, Blank Paul S, Stein Stephen E, Epstein Jonathan A, Yergey Alfred L

机构信息

Applied Biosystems, Framingham, Massachusetts, USA.

出版信息

J Am Soc Mass Spectrom. 2007 Apr;18(4):607-16. doi: 10.1016/j.jasms.2006.11.008. Epub 2007 Jan 3.

DOI:10.1016/j.jasms.2006.11.008
PMID:17204430
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1993894/
Abstract

The effects of laser fluence on ion formation in MALDI were studied using a tandem TOF mass spectrometer with a Nd-YAG laser and alpha-cyano hydrocinnamic acid matrix. Leucine enkephalin ionization and fragmentation were followed as a function of laser fluence ranging from the threshold of ion formation to the maximum available, that is, about 280-930 mJ/mm2. The most notable finding was the appearance of immonium ions at fluence values close to threshold, increasing rapidly and then tapering in intensity with the appearance of typical backbone fragment ions. The data suggest the presence of two distinct environments for ion formation. One is associated with molecular desorption at low values of laser fluence that leads to extensive immonium ion formation. The second becomes dominant at higher fluences, is associated initially with backbone type fragments, but, at the highest values of fluence, progresses to immonium fragments. This second environment is suggestive of ion desorption from large pieces of material ablated from the surface. Arrhenius rate law considerations were used to estimate temperatures associated with the onset of these two processes.

摘要

使用配备钕钇铝石榴石激光和α-氰基肉桂酸基质的串联飞行时间质谱仪,研究了激光能量密度对基质辅助激光解吸电离(MALDI)中离子形成的影响。以亮氨酸脑啡肽的电离和碎裂作为激光能量密度的函数进行跟踪,激光能量密度范围从离子形成阈值到最大可用值,即约280 - 930 mJ/mm²。最显著的发现是在接近阈值的能量密度值处出现了亚铵离子,其强度迅速增加,然后随着典型的主链碎片离子的出现而逐渐减弱。数据表明存在两种不同的离子形成环境。一种与低激光能量密度下的分子解吸有关,这会导致大量亚铵离子形成。第二种在较高能量密度下占主导,最初与主链型碎片有关,但在最高能量密度值时,会发展为亚铵碎片。第二种环境表明离子是从表面烧蚀的大块材料中解吸出来的。利用阿仑尼乌斯速率定律来估计与这两个过程开始相关的温度。

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