Structural, functional, textural characterization and in vitro starch digestibility of underutilized Kutki millet (Panicum sumatrense) flour
Tóm tắt
Kutki millet (Panicum sumatrense), the most underutilized millet crop, can provide broad potential benefits to human health. However, the crop has not been investigated fully, except for its physicochemical properties. In the present study, the kutki millet flour (KMF) was investigated for its various properties such as structural, morphological, functional, textural, pasting, and in vitro digestibility, taking corn flour (CF) as a control. The KMF showed higher amylose content and thus possessed better pasting and textural characteristics than CF. The KMF possessed low digestibility which might be due to the presence of a high amount of fiber, proteins, and amylose content. Various digestibility models were fitted to the experimental digestion data to predict the model parameters. All models showed lower values for D∞ (maximum digestible starch) and D0 (initial digestible starch) for KMF as compared to CF. Owing to lower digestion of KMF, it resulted in higher resistant starch and lower glycaemic index. Both these properties are considered significant while designing healthy food items. The study concluded that the KMF may be used in a variety of food applications and is a great alternative to conventional cereal grains for industrial use.
Tài liệu tham khảo
P. Bora, S. Ragaee, M. Marcone, Int. J. Food Sci. Nutr. 70, 714 (2019)
United State Department Of Agriculture - Foreign Agricultural Service - USDA-FAS. Crop Explorer Available at: <https://ipad.fas.usda.gov/countrysummary/Default.aspx?id=IN&crop=Millet>. Accessed on: Aug 20, 2021.
P. Mahajan, M.B. Bera, P.S. Panesar, A. Chauhan, Int. J. Biol. Macromol. 180, 61 (2021)
J. Bossuet, Data from: millet for our bread in 2050? The International Crops Research Institute for the SemiArid Tropics (2012) (Library Open Access Repository ICRISAT). http://www.icrisat.org/ClimateConversations.htm
S. Saini, S. Saxena, M. Samtiya, M. Puniya, T. Dhewa, J. Food Sci. Technol. 58(12), 4465 (2021)
R. Manoharlal, G.V.S. Saiprasad, K. Madhavakrishna, J. mMcrobiol. Biotechnol. Food Sci. 9, 799 (2021)
N. Kaushik, P. Yadav, R.K. Khandal, M. Aggarwal, J. Food Process. Preserv. 45, e15550 (2021)
L. Yousaf, D. Hou, H. Liaqat, Q. Shen, Food Res. Int. 142, 110197 (2021)
P. Mahajan, M.B. Bera, P.S. Panesar, Int. J. Biol. Macromol. 191, 9 (2021)
P. Nagaprabha, S. Bhattacharya, LWT-Food Sci. Technol. 65, 917 (2016)
P.A. Sopade, M.J. Gidley, Starch-Stärke 61, 245 (2009)
AOAC, Official Methods of Analysis of the Association of Official Analytical Chemists, 18th edn. (AOAC Press, Gaithersburg, 2006)
A. Jain, S.M. Rao, S. Sethi, A. Ramesh, S. Tiwari, S.K. Mandal, N.K. Singh, A. Singhal, N. Modi, C. Kalaichelvani, Eur. J. Exp. Biol. 2, 385 (2012)
K.N. Jan, P.S. Panesar, S. Singh, J. Food Meas. Charact. 11, 1919 (2017)
M. Jouki, Z. Emam-Djomeh, N. Khazaei, Int. J. Food Eng. 8, 4 (2012). https://doi.org/10.1515/1556-3758.2054
M. Jouki, N. Khazaei, S. Rashidi-Alavijeh, S. Ahmadi, Food Hydrocoll. 120, 106895 (2021)
S.I. Rafiq, K. Jan, S. Singh, D.C. Saxena, J. Food Sci. Technol. 52, 5651 (2015)
H. Amoura, H. Mokrane, B. Nadjemi, J. Food Sci. Technol. 57, 1100 (2020)
M. Jouki, S.A. Mortazavi, F.T. Yazdi, A. Koocheki, Int. J. Biol. Macromol. 66, 113 (2014)
P. Mahajan, A. Sharma, B. Kaur, N. Goyal, S. Gautam, Vacuum 161, 389 (2019)
M. Jouki, N. Khazaei, F. Rezaei, R. Taghavian-Saeid, Int. Dairy J. 122, 105133 (2021)
P. Mahajan, M.B. Bera, P.S. Panesar, LWT-Food. Sci. Technol. 154, 112831 (2022)
G.A. Annor, M. Marcone, E. Bertoft, K. Seetharaman, Cereal Chem. 90, 211 (2013)
K.K.D. Barine, G.S. Yorte, J. Food Res. 5, 73 (2016)
G.T. Nguyen, P.A. Sopade, Compr. Rev. Food Sci. Food Saf. 17, 1422 (2018)
D. Paolucci-Jeanjean, M.P. Belleville, N. Zakhia, G.M. Rios, Biotechnol. Bioeng. 68, 71 (2000)
K. Mahasukhonthachat, P.A. Sopade, M.J. Gidley, J. Food Eng. 96, 18 (2010)
O. Gaouar, C. Aymard, N. Zakhia, G.M. Rios, Starch-Stärke 49, 231 (1997)
N. Liu, S. Ma, L. Li, X. Wang, Grain Oil Sci. Technol. 2, 1 (2019)
L.P.S. Rajput, P. Parihar, K. Dhumketi, K. Tsuji, S. Naberia, Int. J. Curr. Microbiol. App. Sci. 8, 2724 (2019)
S. Chandra, S. Singh, D. Kumari, J. Food Sci. Technol. 52, 3681 (2015)
D.N. Yadav, A. Rajan, J. Food Sci. Technol. 49, 767 (2011)
A.O. Odiongenyi, N.B. Essien, R.A. Ukpe, J. Sci. Eng. Res. 3, 494 (2016)
S. Wang, J. Wang, W. Zhang, C. Li, J. Yu, S. Wang, Food Chem. 181, 43 (2015)
B.L. Karwasra, B.S. Gill, M. Kaur, Int. J. Food Prop. 20, S1093 (2017)
P.F. Suma, A. Urooj, Int. J. Food Prop. 18, 2675 (2015)
S.A. Mir, S.J.D. Bosco, Food chem. 157, 448 (2014)
S. Puncha-arnon, D. Uttapap, Carbohydr. Polym. 91, 85 (2013)
S. Kharat, I.G. Medina-Meza, R.J. Kowalski, A. Hosamani, C.T. Ramachandra, S. Hiregoudar, G.M. Ganjyal, Food Bioprod. Process. 114, 60 (2019)
R. Bajaj, N. Singh, A. Kaur, N. Inouchi, J. Food Sci. Technol. 55, 3799 (2018)
M.A. Farooq, M.A. Murtaza, R.M. Aadil, R. Arshad, A. Rahaman, R. Siddique, S. Hassan, H.M.S. Akhtar, M.F. Manzoor, E. Karrar, A. Ali, A.U. Haq, Food Sci. Nutr. 9, 2668 (2021)