https://orcid.org/0000-0001-9354-3087
References
- Ohtsubo K. Quality control rice post-harvest technology. Japan: The Food Agency MAFF; 1995.
- Juliano BO, Onate LU, Mundo AM. Relation of starch composition, protein content, and gelatinization temperature to cooking and eating qualities of milled rice. Food Technol. 1965;19:1006–1011.
- Okadome H, Kurihara M, Kusuda O, et al. Multiple measurements of physical properties of cooked rice grains with different nitrogenous fertilizers. Jpn J Crop Sci. 1999;68:211–216.
- Takeda Y, Hizukuri S, Juliano BO. Purification and structure of amylose from rice starch. Carbohydr Res. 1986;148:299–308.
- Takeda Y, Hizukuri S, Juliano BO. Structures of rice amylopectins with low and high affinity for iodine. Carbohydr Res. 1987;168:79–88.
- Inouchi N, Hibiu H, Li T, et al. Structure and properties of endosperm starches from cultivated rice of Asia and other countries. J Appl Glycosci. 2005;52:239–246.
- Asaoka M, Okuno K. Effect of environmental temperature at the milky stage on amylose content and fine structure of amylopectin of waxy and nonwaxy endosperm starches of rice. Agric Biol Chem. 1985;49:373–379.
- Inouchi N, Ando H, Asaoka M, et al. The effect of environmental temperature on distribution of unit chains of rice amylopectin. Starch/Strake. 2000;52:8–12.
- Adam A, Karen AKM, Anna MM, et al. Effect of growth location in the United States on amylose content, amylopectin fine structure, and thermal properties of starches of long grain rice cultivars. Cereal Chem. 2006;83:93–98.
- Umemoto T, Nakamura Y, Satoh H, et al. Differences in amylopectin structure between two rice varieties in relation to the effects of temperature during grain-filling. Starch/Starke. 1999;51:58–62.
- Okuda M, Hashizume K, Mumata K, et al. Changes in mean air temperature after heading and starch characteristics of rice grains for sake making among harvest years and areas. J Brew Soc Jpn. 2010;105:97–105.
- Williams VR, W -t W, Tsai HY, et al. Varietal differences in amylose content of rice starch. J Agr Food Chem. 1958;6:47–48.
- Juliani BO. A simplified assay for milled-rice amylose. Cereal Sci Today. 1971;12:334360.
- Inatsu O. Improvement of the quality of rice grown in Hokkaido. J Jpn Starch Sci. 1979;26:191–197.
- Sowbhagya CM, Bhattacharya KR. A simplified colorimetric method for determination of amylose content in rice. Staerke. 1971;23:53–56.
- Igarashi T, Yanagihara T, Kanda H, et al. Development of new eating quality evaluation method based on iodine adsorption multispectral analysis of rice flour. Jpn J Crop Sci. 2009;78:66–73.
- Nakamura S, Satoh H, Ohtsubo K. Development of formulae for estimating amylose content, amylopectin chain length distribution, and resistant starch content based on the iodine absorption curve of rice starch. Biosci Biotechnol Biochem. 2015;79:443–455.
- Yamamoto K, Sawada S, Onogaki I. Properties of rice starch prepared by alkali method with various conditions. J Jpn Soc Starch Sci. 1973;20:99–104.
- Yamamoto K, Sawada S, Onogaki I. Effects of quality and quantity of alkali solution on the properties of rice starch. Denpun Kagaku. 1981;28:241–244.
- Landers PS, Gbur EE, Sharp RN. Comparison of two methods to predict amylose concentration in rice flours as determined by spectrophotometric assay. Cereal Chem. 1991;68:545–548.
- Toyoshima H, Okadome H, Ohtsubo K. Cooperative test on the small-scale rapid method for the gelatinization properties test of rice flours with a rapid-visco-analyser (RVA). Nippon Shokuhin Kogakukaishi. 1997;44:579–584.
- Nakamura S, Katsura J, Kato K, et al. Development of formulae for estimating amylose content and resistant starch content based on the pasting properties measured by RVA of Japonica polished rice and starch. Biosci Biotechnol Biochem. 2016;80:329–340.
- Okadome H, Toyoshima H, Ohtsubo K. Multiple measurements of physical properties of individual cooked rice grains with a single apparatus. Cereal Chem. 1999;76:855–860.
- Nakamura S, Suzuki D, Kitazume R, et al. Quality evaluation of rice crackers based on physicochemical measurements. Biosci Biotechnol Biochem. 2012;76:794–804.
- Nakamura Y, Sakurai A, Inaba Y, et al. The fine structure of amylopectin in endosperm from Asian cultivated rice can be largely classified into two classes. Starch/Starke. 2002;54:117–131.
- Hizukuri S. Polymodal distribution of the chain lengths of amylopectins and its significance. Carbohydr Res. 1986;147:342–347.
- Taira H, Nakagahra M, Nagamine T. Fatty acid composition of indica, sinica, javanica, and japonica groups of nonglutinous brown rice. J Agr Food Chem. 1988;36:45–47.
- Juliano BO. Rice chemistry and quality. Munõs: Philippine Rice Reserch Institute (PhilRice) issuance publication; 2007. p. 112–129.
- Yamasaki M. Application of conjugated fatty acids to functional foods. Nippon Eiyo Shokuryo Gakkaishi. 2013;66:241–247.
- Mano Y, Kawaminami K, Kojima M, et al. Comparative composition of brown rice lipids (lipid fractions) of indica and japonica rice. Biosci Biotechnol Biochem. 1999;63:619–626.
- Bolling H, EI Baya AW. Effect of lipids on the determination of amylose content in rice and wheat. (In German, with English summary). CMTL Chem Mikrobiol Technol Lebensmi. 1975;3:61–163.
- Nakamura S, Katsura J, Maruyama Y, et al. Relationship between fatty acid composition and starch properties of 30 japonica rice cultivars. Cereal Chem. 2019;96:228–242.
- Morrison WR, Nasir AM. Variation in the amylose and lipid contents and some physical properties of rice starches. J Cereal Sci. 1987;5:35–44.
- Ohtsubo K, Toyoshima H, Okadome H. Quality assay of rice using traditional and novel tools. Cereal Foods World. 1998;43:203–206.
- Bhattacharya M, Zee SY, Corke H. Physicochemical properties related to quality of rice noodles. Cereal Chem. 1999;76:861–867.
- Yamada H, Sasagawa N, Kitazawa K. Relationship between gelatinization properties by an amylograph and expansion of rice crackers from new-characteristic rice (in Japanese). Nippon Shokuhin Kogakukaishi. 1993;40:278–286.
- Nakamura S, Cui J, Zhang X, et al. Comparison of eating quality and physicochemical properties between Japanese and Chinese rice cultivars. Biosci Biotechnol Biochem. 2016;80:2437–2449.
- Inouchi N, Ikeuchi N, Takami T, et al. Investigation of simple method measuring apparent amylose content of rice grains. Oyo Toshitsu Kagaku. J Appl Glycosci. 1996;43(1):1–5.