Abstract
Sixteen organic acids were quantified in peel and pulp of Amber, Laird’s Large and Mulligan cultivars of tamarillo using GC-MS. Fourteen of these compounds had not previously been quantified in tamarillo. An untargeted metabolomics approach was used in parallel to identify and quantify 64 more metabolites relative to the internal standard, indicating abundances of glutamic acid, pro-line, aspartic acid and γ-aminobutyric acid as well as lower concentrations of several other essential fatty acids and amino acids. The main findings were that total organic acid concentration was significantly higher (p < 0.05) in pulp than in peel, with the highest concentration seen in Mulligan pulp (219.7 mg/g DW). Remarkably, after citric acid, the potent bactericide itaconic acid was the second most abundant organic acid. At least 95% of organic acids in tamarillo were one of these two acids, as well as cis-aconitic, malic and 4-toluic acids. Differences between cultivar chemotypes were as substantial as differences between tissues. These results suggest that the bitter flavour of the peel does not result from organic acids. The combination of targeted and untargeted metabolomics techniques for simultaneous qualitative and quantitative investigation of nutrients and flavours is efficient and informative.
Highlights
Tamarillo or tree tomato, Solanum betaceum (Cav.), is a small tree or shrub belonging to the Solanaceae family
Absolute quantitative analysis of sixteen organic acids (OA) extracted from tamarillo by methyl chloroformate (MCF) derivatization and Gas Chromatography with Mass Spectrometry (GC-MS) showed that these compounds comprised an average (±SD) of 81.5 (±25.0) mg per gram dry weight of tamarillo peel
There was no significant difference be-tween the Total Organic Acid Content (TOAC) of Laird’s Large pulp and peel and its peel had the highest value for this tissue type, 88.8 ± 31.5 mg per gram dry weight (mg/gDW)
Summary
Solanum betaceum (Cav.), is a small tree or shrub belonging to the Solanaceae family. The various cultivars of tamarillo yield fruit that are oval, 4–10cm in length, and ripe colour from golden-yellow to orange, red and purple. The fruit contain high levels of nutrients including carotenoids, anthocyanins, phenolic compounds, vitamins and flavonols [1,2,3,4]. Tamarillo are a rich source of dietary minerals while being low in caloric content [5]. Besides their nutritious properties, consumption of tamarillo has been shown to produce antioxidant, anti-inflammatory, anti-obesogenic and chemopreventive effects in rodent and human cancer cell models [6,7]
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