Structure, Physical, and Digestive Properties of Starch from <i>wx ae</i> Double-Mutant Rice

Kubo, Akiko; Akdoğan, Güray; Nakaya, Makoto; Shojo, Aiko; Suzuki, Shiho; Satoh, Hiroyuki; Kitamura, Shinichi

doi:10.1021/jf904074k

Cited by 61 publications

(72 citation statements)

References 35 publications

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“…Nonetheless, the ae wx corn starch displayed similar hydrolysis kinetics to that of the ae corn starch. The results were in agreement with the previous reports that ae-containing mutant starch was less susceptible to enzymatic hydrolysis than the wild-type counterparts (Gerard et al 2001, Kubo et al 2010). …”

Section: Resultssupporting

confidence: 93%

Characterization of Normal and Waxy Corn Starch for Bioethanol Production

Yangcheng

Jiang

Blanco

et al. 2013

J. Agric. Food Chem.

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Objectives of this study were to compare ethanol production between normal and waxy corn using a cold fermentation process and to understand effects of starch structures and properties on ethanol production. Ethanol yields positively correlated (p < 0.01) with starch contents of kernels of the normal and waxy corn. The average starch−ethanol conversion efficiency of waxy corn (93.0%) was substantially greater than that of normal corn (88.2%). Waxy corn starch consisted of very little amylose and mostly amylopectin that had a shorter average branch chain length than normal corn amylopectin. Regression analyses showed that average amylopectin branch chain lengths and percentage of long branch chains (DP > 37) of waxy corn starch negatively correlated with the starch hydrolysis rate and the ethanol yield. These results indicated that starch structures and properties of the normal and waxy corn had significant effects on the ethanol yield using a cold fermentation process.

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Section: Resultssupporting

confidence: 93%

Characterization of Normal and Waxy Corn Starch for Bioethanol Production

Yangcheng

Jiang

Blanco

et al. 2013

J. Agric. Food Chem.

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“…Resistant starch was present in starch that contained an abundance of long chains of amylopectin (Kubo et al 2010a), as well as high amylose . However, some starch goes through the small intestine and remains in its high molecular weight form in the large intestine.…”

Section: Low-calorie Ricementioning

confidence: 99%

Starch

2015

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“…This was derived from a cross between the wx mutant line EM21 and the ae mutant line EM16 . We also used EM21, which is genetically defective in GBSSI , and the parental cv. Kinmaze , which is a wild‐type (WT) japonica rice.…”

Section: Methodsmentioning

confidence: 99%

Surface structure and water adsorption behavior of waxy/amylose extender (wx/ae) double‐mutant rice starch

et al. 2017

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We studied the surface structure and water adsorption behavior of waxy/amylose extender (wx/ae) double‐mutant rice starch using scanning electron microscopy, nitrogen gas adsorption, and water adsorption capacity analysis under various relative humidity conditions, and the nature of the bound water in the starch by differential scanning calorimetry. The wx/ae starch sample had a specific surface area of 3.26 m2/g and pores on its surface with diameters ranging from 6 to 60 nm. Its water adsorption capacity was 0.278 of the weight fraction of water and its weight fraction of bound water molecules was 0.233, both of which are larger than those of wx and wild‐type (WT) starches. We suggest that the starch–water interaction is primarily determined by the morphology and nanostructure of the starch, such as the granule shape and size, specific surface area, porosity, and crystal structure, and that wx/ae starch has a greater capacity to interact with water molecules because of its unique structure.

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Structure, Physical, and Digestive Properties of Starch from wx ae Double-Mutant Rice

Cited by 61 publications

References 35 publications

Characterization of Normal and Waxy Corn Starch for Bioethanol Production

Characterization of Normal and Waxy Corn Starch for Bioethanol Production

Starch

Surface structure and water adsorption behavior of waxy/amylose extender (wx/ae) double‐mutant rice starch

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