Ion mobility spectrometry enhances the performance characteristics of liquid chromatography-mass spectrometry workflows intended to steroid profiling by providing a new separation dimension and a novel characterization parameter, the so-called collision cross section (CCS). This work proposes the first CCS database for 300 steroids (i.e., endogenous, including phase I and phase II metabolites, and exogenous synthetic compounds), which involves 1080 ions and covers the CCS of 127 androgens, 84 estrogens, 50 corticosteroids, and 39 progestagens. This large database provides information related to all the ionized species identified for each steroid in positive electrospray ionization mode as well as for estrogens in negative ionization mode. CCS values have been measured using nitrogen as drift gas in the ion mobility cell. Generally, direct correlation exists between mass-to-charge ratio ( m/ z) and CCS because both are related parameters. However, several steroids mainly steroid glucuronides and steroid esters have been characterized as more compact or elongated molecules than expected. In such cases, CCS results in additional relevant information to retention time and mass spectral data for the identification of steroids. Moreover, several isomeric steroid pairs (e.g., 5β-androstane-3,17-dione and 5α-androstane-3,17-dione) have been separated based on their CCS differences. These results indicate that adding the CCS to databases in analytical workflows increases selectivity, thus improving the confidence in steroids analysis. Consequences in terms of identification and quantification are discussed. Quality criteria and a construction of an interlaboratory reproducibility approach are also reported for the obtained CCS values. The CCS database described here is made publicly available.
Collision
cross section (CCS) databases based on single-laboratory
measurements must be cross-validated to extend their use in peak annotation.
This work addresses the validation of the first comprehensive TWCCSN2
database for steroids. First,
its long-term robustness was evaluated (i.e., a year and a half after
database generation; Synapt G2-S instrument; bias within ±1.0%
for 157 ions, 95.7% of the total ions). It was further cross-validated
by three external laboratories, including two different TWIMS platforms
(i.e., Synapt G2-Si and two Vion IMS QToF; bias within the threshold
of ±2.0% for 98.8, 79.9, and 94.0% of the total ions detected
by each instrument, respectively). Finally, a cross-laboratory TWCCSN2
database was built for 87 steroids
(142 ions). The cross-laboratory database consists of average TWCCSN2
values obtained by the four TWIMS
instruments in triplicate measurements. In general, lower deviations
were observed between TWCCSN2
measurements
and reference values when the cross-laboratory database was applied
as a reference instead of the single-laboratory database. Relative
standard deviations below 1.5% were observed for interlaboratory measurements
(<1.0% for 85.2% of ions) and bias between average values and TWCCSN2
measurements was within the range
of ±1.5% for 96.8% of all cases. In the context of this interlaboratory
study, this threshold was also suitable for TWCCSN2
measurements of steroid metabolites in calf urine.
Greater deviations were observed for steroid sulfates in complex urine
samples of adult bovines, showing a slight matrix effect. The implementation
of a scoring system for the application of the CCS descriptor in peak
annotation is also discussed.
Using an accurate and sensitive method, we found significantly higher levels of estrogens as well as androgen metabolites in prepubertal girls compared with age-matched boys. The higher prepubertal sex steroid levels in girls may contribute to their earlier onset of puberty including pubic hair development.
After a conditioning period, seed dormancy in obligate root parasitic plants is released by a chemical stimulus secreted by the roots of host plants. Using Phelipanche ramosa as the model, experiments conducted in this study showed that seeds require a conditioning period of at least 4 d to be receptive to the synthetic germination stimulant GR24. A cDNA-AFLP procedure on seeds revealed 58 transcript-derived fragments (TDFs) whose expression pattern changed upon GR24 treatment. Among the isolated TDFs, two up-regulated sequences corresponded to an abscisic acid (ABA) catabolic gene, PrCYP707A1, encoding an ABA 8'-hydroxylase. Using the rapid amplification of cDNA ends method, two full-length cDNAs, PrCYP707A1 and PrCYP707A2, were isolated from seeds. Both genes were always expressed at low levels during conditioning during which an initial decline in ABA levels was recorded. GR24 application after conditioning triggered a strong up-regulation of PrCYP707A1 during the first 18h, followed by an 8-fold decrease in ABA levels detectable 3 d after treatment. In situ hybridization experiments on GR24-treated seeds revealed a specific PrCYP707A1 mRNA accumulation in the cells located between the embryo and the micropyle. Abz-E2B, a specific inhibitor of CYP707A enzymes, significantly impeded seed germination, proving to be a non-competitive antagonist of GR24 with reversible inhibitory activity. These results demonstrate that P. ramosa seed dormancy release relies on ABA catabolism mediated by the GR24-dependent activation of PrCYP707A1. In addition, in situ hybridization corroborates the putative location of cells receptive to the germination stimulants in seeds.
Abbreviations:ABAabscisic acidAbzabscinazoleAECadenylate energy chargeAFLPamplified fragment length polymorphismRACErapid amplification of cDNA endsSLstrigolactoneTDFtranscript-derived fragment
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