Journal of Food Technology
Year:
2020
Volume:
18
Issue:
2
Page No.
15 - 23
Characterization of Biochemical and Proximate Composition in Rice Grains as Influenced by
Germination
Authors :
Maninder Kaur
and
Bavita Asthir
References
AOAC., 1995. Official Methods of Analysis. 6th Edn., Association of Official Analytical Chemists, Washington, DC., USA.
Chinma, C.E., J.C. Anuonye, O.C. Simon, R.O. Ohiare and N. Danbaba, 2015. Effect of germination on the physicochemical and antioxidant characteristics of rice flour from three rice varieties from Nigeria. Food Chem., 185: 454-458.
CrossRef | Direct Link | Chompoopong, S., S. Jarungjitaree, T. Punbanlaem, T. Rungruang, S. Chongthammakun, A. Kettawan and T. Taechowisan, 2016. Neuroprotective effects of germinated brown rice in rotenone-induced Parkinson’s-like disease rats. Neuromol. Med., 18: 334-346.
CrossRef | Direct Link | Chrastil, J., 1987. Improved colorimetric determination of amylose in starches or flours. Carbohydr. Res., 159: 154-158.
CrossRef | Direct Link | DuBois, M., K.A. Gilles, J.K. Hamilton, P.A. Rebers and F. Smith, 1956. Colorimetric method for determination of sugars and related substances. Anal. Chem., 28: 350-356.
CrossRef | Direct Link | Gong, E.S., S. Luo, T. Li, C. Liu and G. Zhang
et al., 2017. Phytochemical profiles and antioxidant activity of processed brown rice products. Food Chem., 232: 67-78.
CrossRef | Direct Link | Kaur, H. and B.S. Gill, 2020. Comparative evaluation of physicochemical, nutritional and molecular interactions of flours from different cereals as affected by germination duration. Food Meas., 14: 1147-1157.
CrossRef | Direct Link | Laxmi, G., N. Chaturvedi and S. Richa, 2015. The impact of malting on nutritional composition of foxtail millet, wheat and chickpea. J. Nutr. Food Sci., Vol. 5, 10.4172/2155-9600.1000407
Lee, Y.P. and T. Takahashi, 1966. An improved colorimetric determination of amino acids with the use of ninhydrin. Anal. Biochem., 14: 71-77.
CrossRef | Direct Link | Lowry, O.H., N.J. Rosebrough, A.L. Farr and R.J. Randall, 1951. Protein measurement with the folin phenol reagent. J. Biol. Chem., 193: 265-275.
CrossRef | PubMed | Direct Link | McRae, M.P., 2016. Health benefits of dietary whole grains: An umbrella review of meta-analyses. J. Chiropractic Med., 16: 10-18.
CrossRef | Direct Link | Moongngarm, A. and E. Khomphiphatkul, 2011. Germination time dependence of bioactive compounds and antioxidant activity in germinated rough rice (
Oryza sativa L.). Am. J. Applied Sci., 8: 15-25.
CrossRef | Moongngarm, A., T. Moontree, P. Deedpinrum and K. Padtong, 2014. Functional properties of brown rice flour as affected by germination. APCBEE Proc., 8: 41-46.
CrossRef | Direct Link | Nelson, N., 1944. A photometric adaptation of the Somogyi method for the determination of glucose. J. Biol. Chem., 153: 375-380.
CrossRef | Direct Link | Nissar, N., S.M. Wani, B.H. Omar, A.W. Touseef and A. Mudasir, 2017. Influence of paddy (
Oryza sativa) sprouting on antioxidant activity, nutritional and anti-nutritional properties. J. Food Meas. Charact., 11: 1844-1850.
CrossRef | Direct Link | Nonogaki, H., G.B. Bassel and J.D. Bewley, 2010. Germination-still a mystery. Plant Sci., 179: 574-581.
CrossRef | Oghbaei, M. and J. Prakash, 2016. Effect of primary processing of cereals and legumes on its nutritional quality: A comprehensive review. Cogent Food Agric., Vol. 2, 10.1080/23311932.2015.1136015
Pang, Y., S. Ahmed, Y. Xu, T. Beta, Z. Zhu, Y. Shao and J. Bao, 2017. Bound phenolic compounds and antioxidant properties of whole grain and bran of white, red and black rice. Food Chem., 240: 212-221.
CrossRef | Direct Link | Patil, S.B. and M.K. Khan, 2011. Germinated brown rice as a value added rice product: A review. J. Food Sci. Technol., 48: 661-667.
CrossRef | Direct Link | Pipe, R.K., S.R. Farley and J.A. Coles, 1997. The separation and characterization of haemocytes from the mussel
Mytilus edulis. Cell Tissue Res., 289: 537-545.
CrossRef | Direct Link | Rusydi, M.R.M., C.W. Noraliza, A. Azrina and A. Zulkhairi, 2011. Nutritional changes in germinated legumes and rice varieties. Int. Food Res. J., 18: 703-713.
Direct Link | Sharma, B., A. Sharma, A. Bhat and A. Kishore, 2015. Effect of germination on the chemical composition and nutritive value of maize grain. Bioscan, 10: 1017-1020.
Sibian, M.S., D.C. Saxena and C.S. Riar, 2017. Effect of germination on chemical, functional and nutritional characteristics of wheat, brown rice and triticale: A comparative study. J. Sci. Food Agric., 97: 4643-4651.
CrossRef | Direct Link | Singh, A., S. Sharma and B. Singh, 2017. Effect of germination time and temperature on the functionality and protein solubility of sorghum flour. J. Cereal Sci., 76: 131-139.
CrossRef | Direct Link | Singh, R., C.M. Perez, C.G. Pascual and B.O. Juliano, 2002. Grain size, sucrose level and starch accumulation in developing rice grain. Phytochem., 17: 1869-1874.
CrossRef | Direct Link | Takeda, Y., C. Takeda and H. Mizukami, 2002. Structures of large, medium and small starch granules of barley grain. Carbohyd. Polym., 38: 109-114.
CrossRef | Direct Link | Veluppillai, S., K. Nithyanantharajah, S. Vasantharuba, S. Balakumar and V. Arasaratnam, 2009. Biochemical changes associated with germinating rice grains and germination improvement. Rice Sci., 16: 240-242.
CrossRef | Wunthunyarat, W., H. Seo and Y. Wang, 2020. Effects of germination conditions on enzyme activities and starch hydrolysis of long‐grain brown rice in relation to flour properties and bread qualities. J. Food Sci., 85: 349-357.
CrossRef | Direct Link | Xia, Q., H. Tao, P. Huang, L. Wang, J. Mei and Y. Li, 2016. Minerals in vitro bioaccessibility and changes in textural and structural characteristics of uncooked pre-germinated brown rice influenced by ultra-high pressure. Food Control, 71: 336-345.
CrossRef | Direct Link | Zhang, G., Z. Xu, Y. Gao, X. Huang, Y. Zou and T. Yang, 2015. Effects of germination on the nutritional properties, phenolic profiles and antioxidant activities of buckwheat. J. Food Sci., 80: H1111-H1119.
CrossRef | Direct Link |