Abstract
BackgroundAgave syrups are natural sweeteners that are highly desirable for human consumption because they have low glycemic index. In this work, we explored the potential of 1H‐NMR‐Chemometrics as a useful tool in the identification and differentiation of Agave syrups. Also, we evaluated the phytochemical screening and antioxidant capacity of Agave syrup compared to other natural sweeteners.ResultsThe phytochemical screening stands out for Agave syrups containing higher levels of metabolites with antioxidant activity, mainly saponins, glycosides, and terpenoids. Agave syrup antioxidant activity was in a range from 10% to 53%, while the total phenolic content was from 24 to 300 EAG/100 g, and condensed tannins were between 240 and 1,900 mg CE/g. Additionally, 1H‐NMR spectroscopy was used to characterize syrup profiles and chemometrics. PCA group analyses allowed the sweeteners’ classification by origin and kind of Agave.ConclusionThus, we conclude that 1H‐NMR and chemometrics can be used for identifying, differentiating, and classifying Agave syrups. Besides, Agave syrups contain significant amounts of antioxidative components and can be considered as an effective source of antioxidant.
Highlights
IntroductionTo produce Agave syrups, plants must be at least 6 years old corresponding to their proximate maturity, as well as their maximum carbohydrates content (Mellado-Mojica & López, 2013)
Agave syrups are natural sweet substances produced when Agave pines are subjected to a fructan hydrolitic process in order to unfold polysaccharides called agavins (NMX-FF-110-SCFI, 2008) Agavins are fructose polymers where the number of molecules plays an inverse relationship with sweetness: the lower the sweetness, the longer the degree of polymerization.To produce Agave syrups, plants must be at least 6 years old corresponding to their proximate maturity, as well as their maximum carbohydrates content (Mellado-Mojica & López, 2013)
Flavonoids, quinones, glucosides, cardiac glycosides, terpenoids, and coumarins were determined in all the ethanolic extracts of natural sweeteners (Table 1)
Summary
To produce Agave syrups, plants must be at least 6 years old corresponding to their proximate maturity, as well as their maximum carbohydrates content (Mellado-Mojica & López, 2013). Agave syrups exhibit high carbohydrate content, mainly composed by fructose (≥60% of the total soluble solids), followed by glucose and with traces of sucrose (Mellado-Mojica & López, 2015). This carbohydrate composition gives Agave syrups a low glycemic index and makes it sweeter than other syrups containing appreciable levels of glucose and/or sucrose, such as corn and sugarcane (Willems & Low, 2012). Results: The phytochemical screening stands out for Agave syrups containing higher levels of metabolites with antioxidant activity, mainly saponins, glycosides, and terpenoids. Agave syrups contain significant amounts of antioxidative components and can be considered as an effective source of antioxidant
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