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The purpose of this research is to produce “cempedak” juice using enzyme aided-liquefaction by examining the effects of enzyme types (Pectinex® Ultra SP-L, Celluclast® 1.5 L and Fungamyl® 800 L), enzyme concentrations (0–1.5% v/w), incubation time (0–2.5 h) and incubation temperature (35–60 °C) on juice yield and viscosity, total soluble solids and color of fruit puree.

Ripe “cempedak” pulp from CH28 fruit was first pureed in a blender and then homogenized with water at 1:2 ratio. The diluted puree was then liquefied with the enzymes separately to reduce its viscosity. Analyses such as juice yield, viscosity, total soluble solids and color of the liquefied “cempedak” puree were then carried out.

Results indicated that the optimized use of 1.2% (v/w) Celluclast® 1.5 L (Novozymes, Denmark), a cellulase preparation, at 45 °C and 1 h produced juice with the lowest viscosity (349.4 cP) and the highest juice yield (82.3% v/w). Liquefied “cempedak” juice was darker (with L* value of 51.17) and more yellowish (b* value of 38.88) compared to “cempedak” juice without liquefaction (control). When compared to untreated “cempedak” juice, the droplet size of “cempedak” juice obtained after liquefaction under optimized conditions was found to be lower, regardless of whether the juice was filtered (with a total reduction of 23% of droplet size) or not filtered (with a total reduction of 16% of droplet size). The results indicate the possibility of employing Celluclast® 1.5 L to produce “cempedak” juice that can be further processed such as for the production of “cempedak” fruit powder.

This paper provides information on the enzyme concentration, incubation time and temperature for liquefying “cempedak” pulp such that the liquefied material produced can be used as a base feed for spray-drying to produce “cempedak” fruit powder.

This review provides an overview of the applications of Bambara groundnuts in various food products. The genetic diversity, physical properties and chemical compositions of the crop are also elucidated.

This paper critically reviewed the physicochemical properties and applications of Bambara groundnuts from recent literature.

Bambara groundnut (Vigna subterranea) is a drought-tolerant crop from West Africa that contains not only carbohydrates and fats but is also high in protein. The cultivars of Bambara groundnut can be distinguished by the colours of seeds, which range from red, blue-eye, brown and black-eye. Bambara groundnuts contain carbohydrate (57–67%), protein (15–25%), fat (4–8%), fibre (1.4–1.5%) and ash (2.9–4%). As a percentage of protein, the essential amino acids, lysine, methionine and cysteine are relatively high in Bambara groundnuts. Meanwhile, linoleic, palmitic and linolenic acids are the fatty acids present in this crop.

Several studies have shown that Bambara groundnuts can be used as fat substitutes, emulsifiers, water binders, bulking agents and thickeners due to its water and oil absorption properties, gelling, pasting, emulsifying and foaming abilities. Bambara groundnuts are used in the development of many intermediate or final products like flour blend, cookies, bread and fermented milk. It has a positive impact on the overall proximate, functional, mineral and amino acid profiles of the food products.

Despite its high nutrient density, Bambara groundnuts are an underutilised legume due to unavailability and lack of knowledge among consumers on its benefits. There is a need to promote the use of Bambara groundnuts as a future food.