Millet is a generic term describing

Millet is a generic term describing a range of small-seeded grains intwo tribes Paniceae and Chlorideae of the family Poaceae (true grass). It became a staple food for humans 10,000 years ago already before the rise of wheat and rice (Lu et al., 2009). Nowadays, the most cultivated species include pearl (Pennisetum glaucum, with synonyms of Pennisetumamericanum, Pennisetumtyphoides, Pennisetumtyphoideum), proso (Panicum miliaceum), and foxtail (Setaria italica) millet. Less grown millet species but with meaningful local production include finger (Eleusine coracana), browntop (Brachiaria ramosum), barnyard(Japanese) (Echinocloa frumentacea), shama (Echinocloa colona), white fonio (Digitaria exilis), and black fonio (Digitaria iburua) (Baltensperger& Cai, 2004). The taxonomy and common names of diverse millet species have been well documented previously (Baltensperger & Cai,2004; Shahidi & Chandrasekara, 2013). Millets in general have good productivity on marginal lands, short growing cycle, and excellent adaptability to a wide range of climate including high temperature and dry conditions. This makes millets favorable crops for food security in semi-arid areas of Asia and Africa where the other major crops tend to fail (Baltensperger & Cai, 2004; Taylor, 2004). The total world production of millet seeds was estimated as 704,239 tonnes in 2012 with India being the top producer (273,000 tonnes) followed by Niger (106,427 tonnes) and Nigeria (60,800 tonnes) (FAO, 2014). The nutrient composition and potential health benefits of millets have been summarized previously (Saleh, Zhang, Chen, & Shen, 2013). In brief, millets can be rich in B vitamins,minerals (calciumand iron), phosphorus (in phytic acid form), lipids, dietary fiber, and polyphenols, depending on the specific type (Abdalla, El Tinay, Mohamed, & Abdalla, 1998; Salehet al., 2013; Shahidi & Chandrasekara, 2013; Taylor, 2004). Because millets lack gluten, they can be an aid for people with celiac disease (Taylor& Emmambux, 2008). Millets also possess hypoglycemic properties though the underlying reasons are still to be better studied (Annor,Marcone, Bertoft, & Seetharaman, 2013). The above-mentioned nutritional factors and bioactive properties make millets potential candidates for diverse functional foods that could prevent and delay the occurrence of non-communicable diseases (Dixit, Azar, Gardner, & Palaniappan, 2011;Saleh et al., 2013; Shahidi & Chandrasekara, 2013). Apart from the novel promising applications, traditionally, millets have already been used to produce various food and beverage products including porridge,fermented and non-fermented flatbreads, popping meals, composite flour ingredients, beer, distilled spirit, non-alcoholic drinks and so on (Baltensperger & Cai, 2004; Taylor, 2004). The production and quality of thesemillet products are, to a great extent, linked to the properties, structures,and interactions of the major component starch.Compared with other major cereals, millets remain much understudied and under-utilized, though there has been increased interest in their utilization in recent years. Understanding the properties, structure, and potential uses of millet starch greatly contributes to the further development of millets as alternative functional crops. This review aims to summarize the present knowledge on the isolation methods, composition, structure, physicochemical and nutritional properties, modifications, and uses of starches from diverse millet species. Numerous research opportunities to improve the utilization of millet starch in food and non-food industries are suggested.