Details

Autor(en) / Beteiligte

• Fan, Ruo-Jing
• Zhang, Fang
• Chen, Xiu-Ping
• Qi, Wan-Shu
• Guan, Qing
• Sun, Tuan-Qi
• Guo, Yin-Long

Titel

High-throughput screening and quantitation of guanidino and ureido compounds using liquid chromatography-drift tube ion mobility spectrometry-mass spectrometry

Ist Teil von

• Analytica chimica acta, 2017-04, Vol.961, p.82-90

Ort / Verlag

Netherlands: Elsevier B.V

Erscheinungsjahr

2017

Quelle

MEDLINE

Beschreibungen/Notizen

• The present work focused on the high-throughput screening and quantitation of guanidino compounds (GCs) and ureido compounds (UCs) in human thyroid tissues. The strategy employed benzylic rearrangement stable isotope labeling (BRSIL) for the sample preparation and then detection using liquid chromatography-drift tube ion mobility spectrometry-quadrupole time of flight mass spectrometry (LC-DTIMS-QTOF MS). A short reversed-phase LC realized an on-line desalting and a measurement cycle of 5.0 min. DTIMS separation enhanced the better specificity and selectivity for the benzil labeled GCs and UCs. The elevated mass resolution of QTOF MS enabled measure of the characteristic ions at accurate mass in MS and tandem MS spectra. Collision cross section (CCS) from DTIMS and accurate mass from QTOF MS were used as two qualifiers for the profiling and identification of GCs and UCs. In addition, an integral abundance arising from 3-D ion features (retention time, drift time, m/z) was applied to quantify the GCs and UCs in human thyroid tissues. The quantitative validation indicated good linearity (coefficient values ≥ 0.9981), good precision (1.0%–12.3% for intra-day and 0.9%–7.8% for inter-day) and good accuracy (91%–109%). The results demonstrated that the developed BRSIL coupled with LC-DTIMS-QTOF MS can be a powerful analysis platform to investigate GCs and UCs in human thyroid tissues. [Display omitted] •The separation power of DTIMS-MS enhanced peak capacity, spectral clarity, and specificity of benzil labeled GCs and UCs.•Short-column LC for on-line desalting increased the throughput with a measurement cycle of 5.0 min.•CCS and accurate mass as a pair of qualifiers were used for the profiling and identification of GCs and UCs.•An integral abundance arising from 3-D ion features (RT, DT, m/z) was used as a novel quantifier for quantitation.•The developed method was applied to screen and quantify the GCs and UCs in human thyroid tissues.