Profiling of structurally labile oxylipins in plants by in situ derivatization with pentafluorobenzyl hydroxylamine

A GC-MS-based method for the simultaneous quantification of common oxylipins along with labile and highly reactive Compounds based on in situ derivatization with pentafluorobenzyl hydroxylamine to the corresponding O-2,3,4,5,6-pentafluorobenzyI oximes (PFB oximes) is presented. The approach covers oxo derivatives Such as jasmonic acid (JA), 12-oxophytodienoic acid (OPDA), certain phytoprostanes, unsaturated oxo-acids, oxo-hydroxy acids, and aldehyde fragments front the polar head of fatty acids. In the positive electron impact-MS mode, the PFB oximes display characteristic fragment ions that greatly facilitate the identification of oxylipins in complex matrices. In addition, the fluorinated derivatives allow a highly selective and low-background analysis by negative chemical ionization. Besides showing the general value of the method for the identification of a broad range of oxylipins (IS examples), we also demonstrate sensitivity, linearity, and reproducibility for the quantification of JA, OPDA, 11-oxo-9-undecenoic acid, and 13-oxo-9,11-tridecadienoic acid. The efficiency of the method is demonstrated by differential profiling of these four oxylipins in lima bean leaves after mechanical wounding and feeding by the herbivore Spodoptera littoralis. Caterpillar feeding induced several oxylipins, whereas after wounding only the level of JA increased. The rapid in situ derivatization prevents the isomerization of cis-JA to trans-M. The resting level of JA in lima beans showed an isomer ratio of 80:20 for trans/cis-M. After wounding, de novo synthesis of JA alters the ratio to 20:80 in favor of the cis isomer. (C) 2005 Elsevier Inc. All rights reserved.