Preparation of an In Vitro Low‐Digestible Rice Starch by Addition of Grass Carp Protein Hydrolysates and Its Possible Mechanisms

Xiao, Jianhui; Niu, Liya; Wu, Leiyan; Li, Dongming; He, Haohua

doi:10.1002/star.201800159

Cited by 18 publications

(16 citation statements)

References 37 publications

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“…Atomic force microscopy (AFM) can be used to reveal nanoscale structural features of samples, which are considerably smaller than those observable by CLSM (Niu et al, 2017;Xiao, Niu, Wu, Li, & He, 2019;Xiao & Zhong, 2017). AFM studies have demonstrated that the number and height of protrusions on the surfaces of starch-protein hydrolysate mixtures were significantly altered, compared to those of starch-only samples, suggesting that protein hydrolysates can affect the aggregation of amylose and amylopectin on a nanoscale (Kong et al, 2016;Niu et al, 2017;Xiao et al, 2019;Xiao & Zhong, 2017).…”

Section: J O U R N a L P R E -P R O O Fmentioning

confidence: 99%

“…starch granule-channel proteins and starch granule-surface proteins) might be involved in the formation of crystalline structures or that the operative extraction methods partially destroyed starch crystallites J o u r n a l P r e -p r o o f 29 (Hu et al, 2017;Zhan et al, 2020). Moreover, processing operations can influence the multi-scale structures of starch-protein systems, possibly by promoting interactions between starches and proteins which lead to specific structures (Chen, Luo, et al, 2019;Chi, Li, Zhang, Chen, & Li, 2018;Li et al, 2018;Qiu et al, 2015;Xiao et al, 2019). For instance, starches (corn and potato) complexed with soybean peptide, subjected to HMT, have been reported to display higher relative crystallinity than their non-HMT counterparts, which was attributed to interactions between starch chains and side-chain groups in the soybean peptide during HMT (Chen, Luo, et al, 2019).…”

Section: Long-range Molecular Ordered Structuresmentioning

confidence: 99%

“…Zhu, Wen, Li, & Zhao, 2013;Xiao et al, 2019;Zhang et al, 2019). Thus, the presence of proteins or protein hydrolysates can be seen to inhibit starch retrogradation.…”

Section: Short-range Molecular Ordered Structuresmentioning

confidence: 99%

See 2 more Smart Citations

Starch-based food matrices containing protein: Recent understanding of morphology, structure, and properties

Zhang

Qiao

Zhao

et al. 2021

Trends in Food Science & Technology

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Section: J O U R N a L P R E -P R O O Fmentioning

confidence: 99%

Section: Long-range Molecular Ordered Structuresmentioning

confidence: 99%

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Starch-based food matrices containing protein: Recent understanding of morphology, structure, and properties

Zhang

Qiao

Zhao

et al. 2021

Trends in Food Science & Technology

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“…The ATR-FTIR spectra of starches were measured using a Nicolet iS50 FTIR spectroscopy (Thermo Scientific, Waltham, MA, USA) with a built-in diamond attenuated total reflection (ATR). The spectral region of 1200-800 cm −1 was deconvoluted with a half-band width and enhancement factor of 19 cm −1 and 1.9, respectively (Xiao et al, 2019).…”

Section: Attenuated Total Reflectance-fourier Transform Infrared Spectroscopy (Atr-ftir) Analysismentioning

confidence: 99%

Structural and functional characteristics of Japonica rice starches with different amylose contents

Luo

Cheng

Wei

et al. 2021

CyTA - Journal of Food

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Fully understanding the structures and properties of starches with different amylose contents is important to agriculture and food industries. Structural and functional characteristics of three Japonica rice starches differing in amylose content (<0.5%, 18.8%, and 33.3% for waxy, normal, and high-amylose varieties, respectively) were investigated using a range of characterization methods. As amylose content increased, the weight-average molecular weight, short-range order, relative crystallinity, and lamellar peak intensity of starch decreased. High-amylose starch contained a lower proportion of A chains than waxy and normal starches. High-amylose starch displayed a C-type crystalline structure, different from the A-type crystalline structure of waxy and normal starches. Compared with waxy and normal starches, high-amylose starch exhibited higher granule size (volume-average diameter), pasting temperature and higher resistant starch content, but lower peak viscosity, breakdown viscosity, swelling power, and rapidly digestible starch content. These results can provide reference for the exploitation of Japonica rice starches. Características estructurales y funcionales de los almidones de arroz Japonica con diferentes contenidos de amilosa RESUMENPara la agricultura y la industria alimentaria es importante comprender plenamente las estructuras y las propiedades de los almidones con diferentes contenidos de amilosa. Por ello, el presente estudio se propuso investigar las características estructurales y funcionales de tres almidones de arroz Japonica que difieren en su contenido de amilosa (<0.5%, 18.8% y 33.3% para las variedades cerosa, normal y con alto contenido de amilosa, respectivamente), utilizando varios métodos de caracterización. Así, pudo constatarse que, a medida que el contenido de amilosa aumenta, disminuyen el peso molecular medio, el orden de corto alcance, la cristalinidad relativa y la intensidad del pico laminar del almidón. Por otra parte, se comprobó que el almidón de alta amilosa contiene menor proporción de cadenas A que los almidones cerosos y normales, y que presenta una estructura cristalina de tipo C, diferente de la estructura cristalina de tipo A de los almidones cerosos y normales. En comparación con los almidones cerosos y normales, en el almidón de alta amilosa se constató un mayor tamaño de gránulo (diámetro medio del volumen), mayor temperatura de pegado y mayor contenido de almidón resistente, aunque posee menor viscosidad máxima, menor viscosidad de ruptura, menor poder de hinchamiento y menor contenido de almidón rápidamente digerible. En conclusión, estos resultados pueden servir de referencia para el aprovechamiento de los almidones de arroz Japonica.

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“…Previous studies have shown that higher soluble protein had greater influence on the gelatinization properties of starch [ 16 ]. It is also indicated that small molecular weight proteins had a stronger effect on the inhibition of starch retrogradation or digestibility than large molecular weight proteins [ 17 , 18 ]. Therefore, it is feasible to regulate the physico-chemical properties of starch-based food products by changing the properties of protein.…”

Section: Introductionmentioning

confidence: 99%

Effect of Homogenization Modified Rice Protein on the Pasting Properties of Rice Starch

Yan

et al. 2022

Foods

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Modification of plant-based protein for promoting wide applications is of interest to the food industry. Rice protein from rice residues was modified by homogenization, and its effect on pasting properties (including gelatinization and rheology) of rice starch was investigated. The results showed that homogenization could significantly decrease the particle size of rice protein and increase their water holding capacity without changing their band distribution in SDS-PAGE. With the addition of protein/homogenized proteins into rice starch decreased peak viscosity of paste. The homogenized proteins decreased breakdown and setback value when compared with that of original protein, indicating homogenized protein might have potential applications for increasing the stability and inhibiting short-term retrogradation of starch paste. The addition of protein/homogenized proteins resulted in a reduction in the viscoelasticity behavior of starch paste. These results indicate that homogenization would create a solution to alter the physicochemical properties of plant proteins, and the homogenized proteins may be a potential candidate for development of protein-rich starchy products.

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Preparation of an In Vitro Low‐Digestible Rice Starch by Addition of Grass Carp Protein Hydrolysates and Its Possible Mechanisms

Cited by 18 publications

References 37 publications

Starch-based food matrices containing protein: Recent understanding of morphology, structure, and properties

Starch-based food matrices containing protein: Recent understanding of morphology, structure, and properties

Structural and functional characteristics of Japonica rice starches with different amylose contents

Effect of Homogenization Modified Rice Protein on the Pasting Properties of Rice Starch

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