The mass spectra of the trimethylsilyl derivatives of some alkyl and aminoalkyl phosphonates

MASS SPECTROMETRIC FRAGMENTATION OF TRIMETHYLSILYL AND RELATED ALKYLSILYL DERIVATIVES

This review describes the mass spectral fragmentation of trimethylsilyl (TMS) and related alkylsilyl derivatives used for preparing samples for analysis, mainly by combined gas chromatography and mass spectrometry (GC/MS). The review is divided into three sections. The first section is concerned with the TMS derivatives themselves and describes fragmentation of derivatized alcohols, thiols, amines, ketones, carboxylic acids and bifunctional compounds such as hydroxy- and amino-acids, halo acids and hydroxy ethers. More complex compounds such as glycerides, sphingolipids, carbohydrates, organic phosphates, phosphonates, steroids, vitamin D, cannabinoids, and prostaglandins are discussed next. The second section describes intermolecular reactions of siliconium ions such as the TMS cation and the third section discusses other alkylsilyl derivatives. Among these latter compounds are di- and trialkyl-silyl derivatives, various substituted-alkyldimethylsilyl derivatives such as the tert-butyldimethylsilyl ethers, cyclic silyl derivatives, alkoxysilyl derivatives, and 3-pyridylmethyldimethylsilyl esters used for double bond location in fatty acid spectra. © 2019 Wiley Periodicals, Inc. Mass Spec Rev 0000:1-107, 2019.

GC-MS Study of Mono- and Bishaloethylphosphonates Related to Schedule 2.B.04 of the Chemical Weapons Convention: The Discovery of a New Intramolecular Halogen Transfer

A new class of compounds, mono- and bis-haloethylphosphonates (HAPs and bisHAPs, respectively), listed in Schedule 2.B.04 of the Chemical Weapons Convention (CWC), has been synthesized and studied by GC-MS with two aims. First, to improve the identification of this type of chemicals by the Organization for the Prohibition of Chemical Weapons, (OPCW). Second, to study the synergistic effect of halogen and silicon atoms in molecules undergoing mass spectrometry. Fragmentation patterns of trimethylsilyl derivatives of HAPs were found to depend on the nature of the halogen atom; this was in agreement with DFT-calculations. The data suggest that a novel intramolecular halogen transfer takes place during the fragmentation process. Graphical Abstract ᅟ.

Alkyl phosphonic acids and sulfonic acids in the Murchison meteorite

Homologous series of alkyl phosphonic acids and alkyl sulfonic acids, along with inorganic orthophosphate and sulfate, have been identified in water extracts of the Murchison meteorite after conversion to their t-butyl dimethylsilyl (tBDMS) derivatives. The methyl, ethyl, propyl, and butyl compounds have been observed in both series. Five of the eight possible alkyl phosphonic acids and seven of the eight possible alkyl sulfonic acids through C4 have been identified. Abundances decrease with increasing carbon number as observed of other homologous series indigenous to Murchison. Concentrations range downward from approximately 380 nmol/gram in alkyl sulfonic acid series, and from 9 nmol/gram in the alkyl phosphonic acid series. Inorganic phosphate is present at about 25 micromoles/gram.

Analysis of (dichloromethylene) bisphosphonate in urine by capillary gas chromatography-mass spectrometry

An anion exchange extraction method of bisphosphonates from urine is described. More than 90% of the (dichloromethylene) bisphosphonate (Cl2MBP, clodronate) was recovered from urine. The extracted bisphosphonates were trimethylsilylated and analysed with capillary gas chromatography-mass spectrometry (GC/MS). The mass spectrometric techniques used were electron ionization (EI), ammonia chemical ionization (CI), ammonia CI tandem mass spectrometry and methane negative chemical ionization (NCI). The limit of detection of Cl2MBP was 25 pg/injection in the NCI/selective ion recording (SIR)-mode. At 100 ng ml-1 of Cl2MBP the precision of the whole assay method was 17.9% (N = 6). The NCI/SIR technique offers a sensitive and highly selective method for the quantitation of Cl2MBP in urine.

Characterization of aminoalkylphosphonyl cerebrosides in muscle tissue of Turbo cornutus

From muscle tissues of the marine snail (Turbo cornutus) aminoalkylphosphonyl cerebrosides, which had been shown to be present in visceral parts were isolated. Their structure was determined by degradative methods and by characterization of components by gas chromatography-mass spectrometry. The aminoalkylphosphonyl cerebroside fraction consisted of a major portion of 1-O-[6'-O-(N-methylaminoethylphosphonyl) galactosyl] ceramide and a minor portion of a novel lipid, 1-O-[6'-O-(aminoethylphosphonyl)galactosyl] ceramide. The fatty acids of the fraction were mainly palmitic (53.3%) and 2-hydroxy palmitic acid (14.6%). The long chain bases were mainly dihydroxy C22: 2(36.6%), C18:1 (14.6%) and trihydroxy bases were also found as minor components.

Phosphonosphingoglycolipid, a novel sphingolipid from the viscera of Turbo cornutus

A novel lipid which contained long-chain base, fatty acid, galactose and N-methylamino-ethylphosphonic acid in an equimolar was isolated from the viscera of Turbo cornutus. The method used for the structural elucidation of this lipid were partial acid hydrolysis, alkaline hydrolysis, periodate oxidation and Smith degradation. The structure of break-down products were mainly identified by combined gas chromatography and mass spectrometry. The structure of the novel lipid was determined to be 1-O-[6'-O-(N-methylaminoethyl-phosphonyl) galactopyranosyl] ceramide. Mass spectra of galactose-N-methylaminoethylphospnate and glycerol-N-methylamino-ethylphosphonate are given.

Sphingolipid base metabolism. Sphinganine-1-phosphate lyase: identification of ethanolamine 1-phosphate as product

Ethanolamine 1-phosphate has been characterized as a product of the action of rat liver microsomal sphinganine 1-phosphate lyase on erythro-sphinganine 1-phosphate. The product was characterized by various forms of chromatography, gas-liquid chromatography-mass spectral analysis of appropriate derivatives, and by conversion to ethanolamine. The results of detailed studies of the mass spectral fragmentation of the tetra-trimethylsilyl derivative of ethanolamine 1-phosphate are also reported.