Characteristics of Dietary Fatty Acids Isolated from Historic Dental Calculus of the 17th- and 18th-Century Inhabitants of the Subcarpathian Region (Poland)

Ultra-high performance liquid chromatography high-resolution mass spectrometry for metabolomic analysis of dental calculus from Duke Alessandro Farnese and Maria D'Aviz

Dental calculus is a valuable resource for the reconstruction of dietary habits and oral microbiome of past populations. In 2020 the remains of Duke Alessandro Farnese and his wife Maria D'Aviz were exhumed to get novel insights into the causes of death. This study aimed to investigate the dental calculus metabolome of the noble couple by untargeted metabolomics. The pulverized samples were decalcified in a water-formic acid mixture, extracted using methanol/acetonitrile and analyzed by ultra-high performance liquid chromatography coupled to high-resolution mass spectrometry (UHPLC-HRMS) using a reversed-phase separation followed by electrospray ionization and full scan in positive and negative ion mode. Waters Synapt-G2-Si High-Definition hybrid quadrupole time-of-flight mass spectrometer was used. Significant features were then identified using MS^E acquisition mode, recording information on exact mass precursor and fragment ions within the same run. This approach, together with data pre-treatment and multivariate statistical analysis allowed for the identification of compounds able to differentiate between the investigated samples. More than 200 metabolites were identified, being fatty acids, alcohols, aldehydes, phosphatidylcholines, phosphatidylglycerols, ceramides and phosphatidylserines the most abundant classes. Metabolites deriving from food, bacteria and fungi were also determined, providing information on the habits and oral health status of the couple.

Simple Method for Fatty Acids Determination in Food, Superfood and Spice Samples by GC-MS Technique

The aim of the study was to modify and adapt to other matrices the fast and simple method for determining total lipid content expressed as fatty acid methyl esters (FAME) by performing the in situ transesterification. The primary method was published as a technical report for the FAME analysis in algae dry mass. Our modifications included the use of less toxic solvents, the use of an internal triglyceride standard and FAME determination by the gas chromatography technique coupled with the mass spectrometry technique in the Single Ion Monitoring mode (SIM). The modified method was validated for 37 fatty acids (saturated, monounsaturated and polyunsaturated) containing from four to twenty-four carbons in the carbon chain (C4-C24), and was adapted to five food matrices: three solids (yeast, yeast flakes, biscuits), and two liquids (milk thistle (Silybum marianum (L.) Gaertner) oil and olive oil). Additionally, 14 samples of spices and superfood samples, rich in unsaturated oils were analyzed. The validation parameters: linearity, precision, recovery, limits of detections and quantifications, were assessed and additionally Certified Reference Material of olive oil was analyzed.

Influence of Bacillus Subtilis Fermentation on Content of Selected Macronutrients in Seeds and Beans

In this study, five plant matrices (pea, mung bean, lentils, soy and sunflower) were fermented using Bacillus subtilis var. natto. Then the process influence on the content of fatty acids and proteins was evaluated, depending on the fermentation length. Fermentation was conducted for 144 hours in controlled conditions of temperature and relative humidity (37°C, 75%). Samples for tests were collected every 24 hours. Gas chromatography coupled with triple quadrupole tandem mass spectrometry (GC-MS/MS) was used to evaluate fatty acids content in fermented seeds. Their composition was expressed as a percentage of the total quantity of fatty acids. The protein content in plant matrices was analysed with the modified Bradford protein assay, using the TECAN apparatus with the i-Control software, of the wave length of ʎ=595 nm. Studies showed that the prolonged fermentation time influenced an increase of polyunsaturated fatty acids (PUFA) content in all studied seeds. Promising results were obtained for soy, sunflower, and lentil seeds, amounting to 3.6%; 68.7% and 67.7%, respectively. This proves that the process of seed fermentation can be effectively used to increase their nutritional value.