Tamarindus indica commonly known as tamarind is an economically important tree. Tamarind is a multipurpose tree species, every part of the tree have some use. All parts of Tamarind tree are used in food, chemical, pharmaceutical, textile industries, used as a fodder, timber and also as fuel. Tamarind seeds are flat, glossy and dicotyledonous. They are hard, red to purple brown in color. Seed chambers are lined with a stiff or thin membrane with hard cotyledons. Whole tamarind seed is rich in protein. Seed coat is rich in fiber and carbohydrate. Balanced amino acids are present in tamarind seeds, except a few, all amino acids such as Isoleucine, Leucine, Lycine, Methionine, Phenylalanine, Valine are in high content. Tamarind seeds contain antinutrients like tannin, phytate, trypsin inhibitor, alkaloid, saponin and oxalate etc. Tamarind seeds are used in pharmaceutical, textile, food, paper industries. The polysaccharide present in seeds act as a gum or thickening agent in food and textile industry. Seeds are used to treat teeth infection, diarrhea, arthritis, indigestion, eye health etc. It also has some applications like antidiabetic, antimicrobial, antioxidant and many more.
Novelty impact statement
The article deals with the nutritional efficacy of Tamarindus indica seeds but still remains as an underutilized legume due to the presence of tuft of antinutrients which interfere in the bioavailability of essential nutrients
The article focus on the reduction of antinutrients in T. indica seeds through various processes that include traditional and microbial fermentation
The neutraceutical value of T. indica seeds may be enhanced by adopting a suitable method to eliminate antinutrients and their applications in various fields.