Abstract
Date palm fruit (Phoenix dactylifera L.) is commonly consumed around the world and has recently become an economical crop in Eastern Thailand, especially the Barhi cultivar that can be consumed as fresh fruit. To maintain genetic qualities, date palm is populated through cell culture. This leads to high production costs, while access to this technique is limited. Increasing date palm population by simple seed planting is currently of interest as an alternative for local farmers. Nevertheless, information on nutritive values, bioactive compounds, and health-promoting bioactivities of seed originating from date palm fruit is unavailable. Effects of different planting origins (cell culture origin (CO) and seed origin (SO)) of date palm fruits at the Khalal stage of Barhi cultivar were investigated for nutritive values, bioactive compounds, and in vitro health-promoting properties via key enzyme inhibitions against obesity (lipase), diabetes (α-amylase, α-glucosidase, and dipeptidyl peptidase-IV), Alzheimer’s disease (cholinesterases and β-secretase), and hypertension (angiotensin-converting enzyme). Waste seeds as a by-product from date palm production were also examined regarding these properties to increase seed marketing opportunities for future food applications and other health-related products. CO and SO exhibited insignificant differences in energy, fat, and carbohydrate contents. SO had higher protein, dietary fiber, vitamin A, vitamin E, and calcium contents than CO, while CO contained higher contents of fructose, glucose and maltose. Higher phenolic contents in SO led to greater enzyme inhibitory activities than CO. Interestingly, seeds of date palm fruits mostly contained higher nutritive values than the flesh. No carotenoids were detected in seeds but higher phenolic contents resulted in greater enzyme inhibitory activities than recorded for fruit flesh. Results suggest that appropriate planting of date palm can support the development of novel date palm fruit products, leading to expansion of economic opportunities and investment in date palm fruit agriculture.
Highlights
IntroductionDate palm fruits are commonly consumed around the world, especially in Arabian regions such as Saudi Arabia, Iran, Egypt, and Algeria [3]
Physical appearances of cell culture (CO) and seed (SO) originating from date palm fruits at the Khalal stage of Barhi cultivars are shown in Supplementary Materials (Tables S1 and S2)
Results obtained from this study provide information regarding the effects of planting techniques and parts of date palm fruits on nutritive values, bioactive compounds, antioxidant activities, and medicinal abilities against obesity, diabetes, hypertension, and Alzheimer’s disease
Summary
Date palm fruits are commonly consumed around the world, especially in Arabian regions such as Saudi Arabia, Iran, Egypt, and Algeria [3]. Date palm fruit development can be divided into five stages as Hanabauk, Kimri, Khalal, Rutab, and Tamr [4], with observation of various physical properties including size, shape, color, texture, and flavor [5]. Date palm fruits at the last three stages (Khalal, Rutab, and Tamr) are commonly consumed due to their soft texture and sweet flavor. Dry date palm fruits at the Tamr stage are popular and available in markets during all seasons. Fresh date palm fruits at the Khalal and Rutab stages of particular cultivars are currently of interest, since they can be consumed in fresh form
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