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199 results on '"starch properties"'

7. Modifying the Resistant Starch Content and the Retrogradation Characteristics of Potato Starch Through High-Dose Gamma Irradiation.

Author

Peng, Zhangchi, Wang, Xuwei, Liu, Zhijie, Zhang, Liang, Cheng, Linrun, Nia, Jiahao, Zuo, Youming, Shu, Xiaoli, and Wu, Dianxing

Subjects
STARCH, PRECIPITATION (Chemistry), AMYLOSE, GAMMA rays, CRYSTAL structure
Abstract

Potato starch is widely utilized in the food industry. Gamma irradiation is a cost-effective and environmentally friendly method for starch modification. Nevertheless, there is a scarcity of comprehensive and consistent knowledge regarding the physicochemical characteristics of high-dose gamma-irradiated potato starch, retrogradation properties in particular. In this study, potato starch was exposed to gamma rays at doses of 0, 30, 60, 90, and 120 kGy. Various physicochemical properties, including retrogradation characteristics, were investigated. Generally, the apparent amylose content (AAC), water absorption, gel viscosity, gel hardness, and gumminess decreased as the doses of gamma irradiation increased. Conversely, the resistant starch (RS), amylose content evaluated by the concanavalin A precipitation method, water solubility, and enthalpy of gelatinization were increased. Additionally, swelling power, crystalline structure, and amylopectin branch chain length distribution either remained stable or exhibited only minor changes. Notably, the degree of retrogradation of potato starches on day 7 was positively correlated with the doses of gamma irradiation. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Reducing amylose content in wheat (Triticum aestivum L.) using a novel Wx‐D1 null allele generated by chemical mutagenesis.

Author

Chen, Xiaolei, Shao, Yongchun, Jiang, Yi, Seung, David, Guzmán, Carlos, Xu, Qiang, Zhang, Yazhou, Chen, Qian, Tang, Huaping, Qi, Pengfei, Deng, Mei, Ma, Jian, Chen, Guoyue, Wang, Jirui, Wei, Yuming, Zheng, Youliang, and Jiang, Qiantao

Subjects
*CHEMICAL mutagenesis, *AMYLOSE, *RNA splicing, *WHEAT, *GENETIC transcription
Abstract

BACKGROUND RESULTS CONCLUSION Amylose has a major influence over starch properties and end‐use quality in wheat. The granule‐bound starch synthase I, encoded by Wx‐1, is the single enzyme responsible for amylose synthesis. Natural null mutants of Wx‐1 appear at extremely low frequencies, particularly in the Wx‐D1 locus, where only four spontaneous null variants have been identified, with different geographic origins. The current study identified an induced Wx‐D1 null mutant (M4‐9484) from the M4 generation of an ethyl methanesulfonate‐mutagenized population of wheat cv. ‘SM126’.The sequencing showed that the complete Wx‐D1 ORF sequences of ‘SM126’ and M4‐9484 were 2862 bp long and that there was one SNP mutation between them. The mutation was located at the RNA splice site within the junction of exon 8 and intron 8, which led to abnormal transcription of Wx‐D1, with five different aberrant transcripts being identified in the mutant. The Wx‐D1 null allele resulted in amylose and total starch content being decreased in M4‐9484 in comparison with the wild‐type ‘SM126’, with higher swelling capacity and being fully pasted at higher temperatures than the wild‐type parent.The mutation of the Wx‐D1 null gene affects the formation of amylose directly, resulting in significantly altered starch properties. This discovery offers valuable insights for enhancing wheat starch quality and contributes to the diversification of starch characteristics. It also deepens our understanding of the genetic and molecular mechanisms underlying amylose synthesis, thereby supporting breeding programs. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Variation in Starch Properties in Ratoon Rice and Their Relationship with Rice Quality.

Author

Jiang, Chenqian, Dai, Shuaijun, Yang, Dingguo, Huang, Liying, Tian, Xiaohai, Jin, Zhaoqiang, Shi, Shijie, Liu, Ke, and Zhang, Yunbo

Subjects
*RICE quality, *RICE starch, *AMYLOSE, *RELATIONSHIP quality, *FIELD research, *HYBRID rice
Abstract

Ratoon rice is characterized by higher production combined with enhanced rice quality. However, the relationship between the differences in the structure and properties of the starch and variations in the ratoon season and rice quality is still unclear. In this study, we conducted a field experiment in 2023 to assess the relationship between rice quality differences and starch characteristics of four different hybrid rice varieties (Longjingyou1212: LJY1212; Taoyouxiangzhan: TYXZ; Liangyou6326: LY6326; Fengliangyouxiang1: FLYX1) in the ratoon season. In terms of appearance, the chalkiness degrees and chalky grain percentage of LJY1212 (0.6%, 2.3%) and TYXZ (1.2%, 6.0%) were 53.5% and 53.9% lower than those of LY6326 (2.4%, 10.0%) and FLYX1 (1.6%, 7.8%), indicating that the appearances of LJY1212 and TYXZ were better than those of LY6326 and FLYX1. The average amylose contents of LJY1212 (18.5%) and TYXZ (19.0%) were 10.8% higher than those of LY6326 (17.7%) and FLYX1 (15.7%), and there was no significant difference in protein content between the varieties in the ratoon season. Regarding the starch microstructure, the starch granules of LJY1212 and TYXZ in the ratoon season were arranged more closely. The average ratios of 1045/1022 cm−1 of LJY1212 (0.77) and TYXZ (0.76) were 7.0% higher than those of LY6326 (0.71) and FLYX1 (0.72), indicating that the internal orders of LJY1212 and TYXZ's starch were better than those of LY6326 and FLYX1. The average relative crystallinities of LJY1212 (24.8%) and TYXZ (24.5%) were 5.2% lower than those of LY6326 (25.7%) and FLYX1 (26.6%). The relative crystallinity of starch decreased with the increase in amylose content, while the short-range order degree, gelatinization temperature, and gelatinization enthalpy increased with the increase in amylose content. Therefore, the LJY1212 and TYXZ varieties, with better rice qualities, are recommended for planting in southern China. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Suitability of early indica rice for the preparation of rice noodles by its starch properties analysis

Author

Saadia Zainab, Xianqing Zhou, Yurong Zhang, Saira Tanweer, and Tariq Mehmood

Subjects
Early indica rice, Rice noodles, Starch properties, Starch structure, Quality analysis, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

The research was conducted to explore the affiliation between the physicochemical properties of rice noodles and rice starch of early indica rice samples of varying amylose content. 3 various types of rice samples were analyzed to uncover how amylose content influences rice noodles' quality. Findings revealed that primarily sensory scores differ in palatability, while textural disparity lies in hardness and chewiness. The higher hardness and chewiness values were correlated with higher sensory scores. Rice with lower amylose content demonstrates elevated solubility, swelling power, and crystallinity along with poor retrogradation resulting in inferior-quality noodles. Sensory scores and textural properties were proved to be associated with the distribution of branched starch molecule chain lengths. Noodles of higher sensory scores had more stable gel structure and improved elasticity. These findings underscore the critical role of amylose content and starch molecular structure in determining the suitability of early indica rice for noodle preparation.

Published
2024
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11. Quality enhancement of sweet potato puree oat mixed‐grain noodles based on curdlan: recommended addition level and mechanism.

Author

Wei, Xinyu, Ren, Guangyue, Duan, Xu, Li, Linlin, Cao, Weiwei, Chen, Junliang, Sun, Xiaofei, Zhao, Linlin, and Liu, Wenchao

Subjects
*NOODLES, *SWEET potatoes, *OATS, *CURDLAN, *GLUTELINS, *HYDROGEN bonding interactions, *THERMAL properties, *FOOD texture
Abstract

Summary: The inherent poor cooking quality and poor texture of mixed‐grain pasta limit consumer acceptance. This study systematically investigated the effect of curdlan in the processing of sweet potato puree oat mixed‐grain noodles, and comprehensively analysed a number of key indicators such as cooking characteristics, moisture state, texture properties, microstructure, starch crystallinity characteristics, short‐range ordered structure and thermal properties. At the production practice level, the study clearly indicated that the 0.6% curdlan addition ratio was the best solution in sweet potato puree oat mixed‐grain noodles processing. This finding not only significantly reduces the fracture rate, water absorption rate and cooking loss rate during the cooking process, but also significantly improves the quality and yield of the product, and brings significant improvement in the taste and texture of the noodles, which is of great significance for industrial production. In the microstructural and molecular studies, we revealed how curdlan could enhance the structural stability and mechanical strength of noodles by promoting the uniform distribution of starch granules in the gluten protein network. Further, through X‐ray diffraction, ordered structure and thermal property analyses, we have found that colchicine can effectively regulate the interactions of hydrogen bonding between starch and the content of straight‐chain and branched‐chain starch, which significantly reduces the crystallinity, ordered short‐chain structure and enthalpy of pasting of starch in the pasta. These in‐depth research results not only help us to understand more comprehensively the formation mechanism of the modification of pasta quality by curdlan, but also provide a solid theoretical foundation and practical guidance for the improvement of pasta quality in mixed grains. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Influence of contrasting cultivation altitudes on the physicochemical, digestive, and functional properties of four Musa starches produced in Cameroon.

Author

Ngoh Newilah, Gérard, Wambo, Pascal, Vepowo, Cédric Kendine, Ngouno, Annie Takam, Ngoungoure, Solange Ulrich Manjia, Tembe, Jonas Tembe, Nkouandou, Mama, Ngombi, Eric Ngombi, Fokou, Elie, Etoa, François‐Xavier, and Dufour, Dominique

Subjects
*PLANTAIN banana, *ALTITUDES, *LOW calorie foods, *STARCH, *AMYLOSE, *BANANAS, *CORNSTARCH, *SYNERESIS
Abstract

BACKGROUND: Bananas and plantains are important food sources for many people in the world. Their high starch content places them among the highest energy providers. This study aimed to determine the effects of altitude on banana starch properties in Cameroon. A dessert banana, a cooking banana, a plantain cultivar, and a plantain‐like hybrid were grown at low and high altitudes (respectively at 80 m and 1300 m above sea level). RESULTS: Starch analyses showed an increase in moisture and pH values against a drop in total titratable acidity and dry matter content with respect to altitude. Amylose content, as well as water absorption capacity, oil absorption capacity and syneresis of high‐altitude plantain and plantain‐like hybrid, were significantly higher. Starch digestibility was low and ranged between 13.4% and 37.9% after 2 h of incubation. High‐altitude plantain starches contained more amylose and were more resistant to enzymatic hydrolysis. CONCLUSION: Starches from CARBAP K74 and Kelong mekintu, grown at high altitude, showed good water and oil absorption capacities, low digestibility, and high resistance. The adequate properties of these banana starches predispose them for use as thickeners and gelling agents as well as ingredients for the formulation of low‐calorie foods. This study highlights the importance of altitude when discussing banana and plantain starch properties. © 2023 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Cutting-edge progress in green technologies for resistant starch type 3 and type 5 preparation: An updated review

Author

Piengtawan Tappiban, Supajit Sraphet, Nattaya Srisawad, Sulaiman Ahmed, Jinsong Bao, and Kanokporn Triwitayakorn

Subjects
Food security, Health, Physical modification, Slow digestion, Starch properties, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Resistant starch (RS) is a dietary fiber that resists starch hydrolysis in the small intestine, and is fermented in the colon by microorganisms. RS not only has a broad range of benefits in the food and non-food industries but also has a significance impact on health promotion and prevention of non-communicable diseases. RS types 3 and 5 have been the focus of research from an environment-friendly perspective. RS3 is normally formed by recrystallization after physical modification, whereas RS5 is obtained by the complexation of starch and fatty acids through the thermomechanical methods. This review provides updates and approaches to RS3 and RS5 preparations that promote RS content based on green technologies. This information will be useful for future research on RS development and for identifying preparation methods for functional food.

Published
2024
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14. Effects of Five Drying Methods on the Properties of Sour Cassava Starch

Author

Mingjuan LI, Ying WANG, Yayuan ZHANG, Xiangrong YOU, Kui ZHOU, Ping WEI, and Linyan WEI

Subjects
sour cassava starch, hot air drying (ha), heat pump drying (hp), vacuum freeze drying (vf), spray drying (sd), sun-drying (s), starch properties, Food processing and manufacture, TP368-456
Abstract

In order to explore the effects of different drying methods on the properties of sour cassava starch (SCS), which were processed from cassava starch by lactobacillus fermentation, and then dried under five drying methods including hot air drying (HA), heat pump drying (HP), vacuum freeze drying (VF), spray drying (SD) and sun-drying (S). The properties of SCS were determined, and the comprehensive score was evaluated by coefficient of variation method. The results showed that the SCS processed by HA, with the highest span value of 2.36, had the lowest clarity, blue number and oil retention of 21.57%, 8.96 and 1.74 g/g, respectively. The SCS dried by HP had the lowest specific area of 351.83 m2/kg, had the highest bulk density, water separation and retrogradation of 0.87 g/m, 33.02% and 74.89%, respectively. The product dried by VF, with the lowest bulk density, repose angle and water separation of 0.73 g/mL, 37.49° and 4.64%, respectively, with the highest clarity. Blue number and water-holding ability of 27.03%, 19.64 and 1.43 g/g, respectively, as well as the highest solubility. The SCS processed by SD had the highest specific area, repose angle and oil retention of 407.43 m2/kg, 54.11° and 2.33 g/g, respectively. However, it had the lowest retrogradation of 67.00%. The SCS dried by S, with the lowest span value and water-holding ability of 1.73 and 1.08 g/g. Comprehensive score results indicated that the SCS dried by VF, SD, S, HA and HP, with the comprehensive score of 0.60, 0.38, 0.18, −0.50 and −0.64, respectively. In summary, the best properties of SCS products could be obtained by VF, followed by SD, and then by S, HA and HP were the worst.

Published
2024
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15. Modifying the Resistant Starch Content and the Retrogradation Characteristics of Potato Starch Through High-Dose Gamma Irradiation

Author

Zhangchi Peng, Xuwei Wang, Zhijie Liu, Liang Zhang, Linrun Cheng, Jiahao Nia, Youming Zuo, Xiaoli Shu, and Dianxing Wu

Subjects
irradiation modification, starch properties, amylopectin structure, paste texture, concanavalin A, Science, Chemistry, QD1-999, Inorganic chemistry, QD146-197, General. Including alchemy, QD1-65
Abstract

Potato starch is widely utilized in the food industry. Gamma irradiation is a cost-effective and environmentally friendly method for starch modification. Nevertheless, there is a scarcity of comprehensive and consistent knowledge regarding the physicochemical characteristics of high-dose gamma-irradiated potato starch, retrogradation properties in particular. In this study, potato starch was exposed to gamma rays at doses of 0, 30, 60, 90, and 120 kGy. Various physicochemical properties, including retrogradation characteristics, were investigated. Generally, the apparent amylose content (AAC), water absorption, gel viscosity, gel hardness, and gumminess decreased as the doses of gamma irradiation increased. Conversely, the resistant starch (RS), amylose content evaluated by the concanavalin A precipitation method, water solubility, and enthalpy of gelatinization were increased. Additionally, swelling power, crystalline structure, and amylopectin branch chain length distribution either remained stable or exhibited only minor changes. Notably, the degree of retrogradation of potato starches on day 7 was positively correlated with the doses of gamma irradiation.

Published
2024
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16. 5 种干燥方式对木薯酸淀粉性能的影响.

Author

李明娟, 王 颖, 张雅媛, 游向荣, 周 葵, 卫 萍, and 韦林艳

Abstract

Copyright of Science & Technology of Food Industry is the property of Science & Technology of Food Industry Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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17. 超高压处理对" 和尚头" 小麦淀粉结构和特性的影响.

Author

张晓萌, 陈金凤, 李建刚, 陈瑞喜, 周治屹, and 张盛贵

Abstract

Copyright of Food & Fermentation Industries is the property of Food & Fermentation Industries and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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18. Effects of Salt Stress on Grain Quality and Starch Properties of High-Quality Rice Cultivars.

Author

Cui, Ruilong, Zhou, Tianyang, Shu, Chenchen, Zhu, Kuanyu, Ye, Miao, Zhang, Weiyang, Zhang, Hao, Liu, Lijun, Wang, Zhiqin, Gu, Junfei, and Yang, Jianchang

Subjects
*AMYLOPECTIN, *STARCH, *CULTIVARS, *RICE quality, *SALT, *RICE, *AMYLOSE, *RICE milling, *GRAIN
Abstract

In recent days, there has been a noticeable surge in demand for high-quality rice. However, the influences of salinity on the quality and starch properties of high-quality rice remain unclear. Three high-quality rice cultivars (Nanjing 9108, Nanjing 5055, and Nanjing 46) were studied to investigate the responses of grain quality to salt stress. There were three treatments, including a control zero salt level (0 g·kg−1, CK), and two salt levels of 0.1 g·kg−1 (0.1% salt stress, T1) and 0.2 g·kg−1 (0.2% salt stress, T2). The study involved the assessment of the appearance, milling, cooking, and eating qualities of rice. We also conducted an analysis of pasting properties, an evaluation of starch thermal properties, and an examination of the fine structure of amylopectin. The findings suggest that as the level of salt stress increases, the yield of rice gradually declines, which is primarily due to a significant reduction in the total spikelet number and the ratio of filled grains. Compared with CK treatment, the appearance and milling quality of rice were significantly improved within the T1 treatment. In addition, the protein concentration and amylose concentration were significantly decreased, the gel consistency was significantly increased, and the cooking and eating qualities were improved. In terms of starch properties, the peak viscosity, breakdown value, infrared ratio (1022/995), and short-chain-length amylopectin ratio increased significantly, while the setback value, pasting temperature, gelatinization enthalpy, relative crystallinity, and infrared ratio (1045/1022) decreased significantly. When comparing T2 with CK, the appearance quality and cooking and eating quality had deteriorated, and the milling quality was improved. The changes in the structural and physicochemical properties of starch were opposite to those in the comparison between the T1 treatment and the CK group. Accordingly, we propose that moderate salt stress has the potential to enhance rice quality, even though there may be a slight decrease in yield. This indicates that it is feasible to cultivate high-quality rice in saline–alkali beach areas. [ABSTRACT FROM AUTHOR]

Published
2024
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19. A comparative review of protein and starch characteristics and end-use quality of soft and hard wheat

Author

Khetan Shevkani, Mehak Katyal, and Narpinder Singh

Subjects
Hard vs soft wheat, Protein secondary structure, Polymeric vs monomeric proteins, Rheology, Starch properties, Food processing and manufacture, TP368-456
Abstract

Hardness of wheat endosperm is a physical property that depends on the genetic makeup of the grain and varies amongst different types/varieties. It is associated with proteins, particularly 14–15 kDa friabilins, which exist in higher amounts at the surface of starch in soft wheat grains while either absent or occur in smaller quantities on granules of hard wheat varieties. The storage proteins in hard wheat flours exhibit a higher proportion of polymeric proteins, β-sheets and β-turns. Soft wheat starches show lower crystallinity, amylose-lipid complex content and proportion of A-type granules (disk or lenticular-shaped granules with diameter >10 µm) while higher gelatinisation temperatures, swelling, breakdown susceptibility and retrogradation than hard wheat starches. Flours from hard and soft wheat also differ for processing and end-use quality based on differences in dough rheological properties, solvent retention capacities and particle size.

Published
2024
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20. Variation in Starch Properties in Ratoon Rice and Their Relationship with Rice Quality

Author

Chenqian Jiang, Shuaijun Dai, Dingguo Yang, Liying Huang, Xiaohai Tian, Zhaoqiang Jin, Shijie Shi, Ke Liu, and Yunbo Zhang

Subjects
ratoon rice, rice quality, starch properties, microscopic morphological, Agriculture
Abstract

Ratoon rice is characterized by higher production combined with enhanced rice quality. However, the relationship between the differences in the structure and properties of the starch and variations in the ratoon season and rice quality is still unclear. In this study, we conducted a field experiment in 2023 to assess the relationship between rice quality differences and starch characteristics of four different hybrid rice varieties (Longjingyou1212: LJY1212; Taoyouxiangzhan: TYXZ; Liangyou6326: LY6326; Fengliangyouxiang1: FLYX1) in the ratoon season. In terms of appearance, the chalkiness degrees and chalky grain percentage of LJY1212 (0.6%, 2.3%) and TYXZ (1.2%, 6.0%) were 53.5% and 53.9% lower than those of LY6326 (2.4%, 10.0%) and FLYX1 (1.6%, 7.8%), indicating that the appearances of LJY1212 and TYXZ were better than those of LY6326 and FLYX1. The average amylose contents of LJY1212 (18.5%) and TYXZ (19.0%) were 10.8% higher than those of LY6326 (17.7%) and FLYX1 (15.7%), and there was no significant difference in protein content between the varieties in the ratoon season. Regarding the starch microstructure, the starch granules of LJY1212 and TYXZ in the ratoon season were arranged more closely. The average ratios of 1045/1022 cm−1 of LJY1212 (0.77) and TYXZ (0.76) were 7.0% higher than those of LY6326 (0.71) and FLYX1 (0.72), indicating that the internal orders of LJY1212 and TYXZ’s starch were better than those of LY6326 and FLYX1. The average relative crystallinities of LJY1212 (24.8%) and TYXZ (24.5%) were 5.2% lower than those of LY6326 (25.7%) and FLYX1 (26.6%). The relative crystallinity of starch decreased with the increase in amylose content, while the short-range order degree, gelatinization temperature, and gelatinization enthalpy increased with the increase in amylose content. Therefore, the LJY1212 and TYXZ varieties, with better rice qualities, are recommended for planting in southern China.

Published
2024
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21. Structural and physicochemical effects on the starch quality of the high-quality wheat genotype caused by delayed sowing

Author

Xiaomei Huang, Xin Zhou, Xueqing Liu, Wen Zhong, Xinyu Wang, Zhengchun Ju, Yan Yin, Qingguo Xin, Ning Liu, Ximei Liu, Yuli Jin, Guie Wang, Jiangchun Wang, and Pengtao Ma

Subjects
wheat, sowing time, starch properties, starch synthase, agronomic and yield performance, Nutrition. Foods and food supply, TX341-641
Abstract

BackgroundBread wheat is one of the most important food crops associated with ensuring food security and human nutritional health. The starch quality is an important index of high-quality wheat. It is affected by a complex series of factors; among which, suitable sowing time is a key factor.Aim and methodsTo analyze the integrative effects of sowing time on the starch quality of high-quality wheat, in the present study, we selected a high-quality bread wheat cultivar Jinan 17 and investigated the effect of different sowing times on the starch properties and the related genes by analyzing X-ray diffraction patterns, apparent amylose content, thermal properties, pasting properties, in vitro starch digestibility, and qRT-PCR. Meanwhile, we also investigated the agronomic and yield performance that may be associated with the starch properties.ResultsDelayed sowing had little effect on starch crystalline morphology, but there was a tendency to reduce the formation of crystals within wheat starch granules: (1) delayed sowing for 15 days altered the thermal properties of starch, including onset, peak and termination temperatures, and enthalpy changes; (2) delayed sowing for 30 days changed the thermal characteristics of starch relatively insignificant; (3) significant differences in pasting characteristics occurred: peak viscosity and hold-through viscosity increased, while final viscosity, breakdown viscosity, and setback viscosity tended to increase and then decrease, suggesting that delayed sowing caused changes in the surface of the starch granules resulting in a decrease in digestibility. Analysis of related genes showed that several key enzymes in starch biosynthesis were significantly affected by delayed sowing, leading to a reduction in apparent straight-chain starch content. In addition to starch properties, thousand-kernel weight also increased under delayed sowing conditions compared with normal sowing.ConclusionThe impact of delayed sowing on starch quality is multifaceted and complex, from the fine structure, and functional properties of the starch to the regulation of key gene expression. Our study holds significant practical value for optimizing wheat planting management and maximizing the potential in both quality and yield.

Published
2024
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22. Nitrogen fertilizer affects the cooking quality and starch properties of proso millet (Panicum miliaceum L.).

Author

Liu, Hongyu, Liu, Beibei, Zhou, Haolu, Huang, Yinghui, and Gao, Xiaoli

Subjects
*NITROGEN fertilizers, *BROOMCORN millet, *STARCH, *DIFFERENTIAL scanning calorimetry, *AMYLOSE
Abstract

Nitrogen has a critical influence on the yield and quality of proso millet. However, the exact impact of nitrogen on the cooking quality of proso millet is not clear. In this study, the cooking quality and starch properties of two proso millet varieties (waxy‐Shaanxi millet [wSM] variety and non‐waxy‐Shaanxi millet [nSM] variety) were compared and analyzed under nitrogen fertilizer treatment (N150, 150 kg/hm2) and a control group without nitrogen application (N0, 0 kg/hm2). Compared with the N0 group, the N150 treatment significantly increased protein content, amylose levels, and total yield. Employing rapid visco analyser and differential scanning calorimetry analyses, we observed that under the N150 treatment, the peak viscosity and breakdown viscosity of proso millet powder were diminished, while the setback viscosity and enthalpy values (ΔH) increased. In addition, nitrogen treatment increased the solids content in the obtained rice soup and significantly hardened the texture of the rice. At the same time, we noticed that the absorption capacity of starch in water and oil was enhanced. These results showed that nitrogen fertilizer had significant effects on the cooking quality and starch properties of proso millet. [ABSTRACT FROM AUTHOR]

Published
2024
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23. 鲜食糯玉米食用品质与淀粉性质的相关性研究.

Author

王綦, 程力, 洪雁, 李兆丰, 李才明, 班宵逢, and 顾正彪

Abstract

Copyright of Journal of Food Science & Biotechnology is the property of Journal of Food Science & Biotechnology Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023
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24. 儿茶素对糯小麦淀粉和普通小麦淀粉特性影响的 对比研究.

Author

杨玉姣, 许 飞, 陈 洁, 汪 磊, 关二旗, and 张智勇

Abstract

Copyright of Journal of Henan University of Technology Natural Science Edition is the property of Henan University of Technology Journal Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023
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26. Application of Extrusion Technology in Starch and Starch-based Food

Author

Man GAO, Jianhui JIA, Chujia ZHANG, Zhi ZHANG, Ying LIU, Boxin DOU, and Na ZHANG

Subjects
extrusion technology, starch structure, starch properties, food, application, Food processing and manufacture, TP368-456
Abstract

Food extrusion has been developing in the past decades and has become a unique research field. Starch is an important component of many foods and the main source of energy in human diet. In the food industry, starch is usually processed through various heat treatment operations before it can be transformed into products suitable for human consumption. Extrusion is a traditional heat treatment method commonly used in starch food processing. During extrusion, starch undergoes structural transformation. In recent years, studies have shown that understanding the changes in the structure and properties of starch during extrusion plays a crucial role in regulating and improving the quality of starch food in actual production. In order to understand the changes of starch structure and properties in the extrusion process, this paper summarizes the impact of extrusion on starch structure, the impact of extrusion on starch properties, and the application of extrusion technology in starch and starch-based foods, with a view to providing reference and suggestions for the mechanism of extrusion affecting starch structure and properties and the further processing of starch based foods.

Published
2023
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27. Starch Properties and Morphology of Eight Floury Endosperm Mutants in Rice.

Author

Hao, Yuanyuan, Huang, Fudeng, Gao, Zhennan, Xu, Junfeng, Zhu, Ying, and Li, Chunshou

Subjects
ENDOSPERM, STARCH, RICE quality, MORPHOLOGY, RICE breeding
Abstract

Besides increasing grain yield, improving rice (Oryza sativa L.) quality has been paid more and more attention recently. Cooking and eating quality (CEQ) is an important indicator of rice quality. Since CEQs are quantitative traits and challenging for measurement, efforts have mainly focused on two major genes, Wx and SSIIa. Chalkiness and floury endosperm significantly affect the eating quality of rice, leading to noticeable changes in CEQ. Due to the easily observable phenotype of floury endosperm, cloning single gene mutations that cause floury endosperm and evaluating changes in CEQs indirectly facilitate the exploration of the minor genes controlling CEQ. In this study, eight mutants with different degrees of floury endosperm, generated through ethylmethane sulfonate (EMS) mutagenesis, were analyzed. These mutants exhibited wide variation in starch morphology and CEQs. Particularly, the z2 mutant showed spherical starch granules significantly increased rapid visco analyzer (RVA) indexes and urea swelling, while the z4 mutant displayed extremely sharp starch granules and significantly decreased RVA indexes and urea swelling compared to the wild type. Additionally, these mutants still maintained correlations with certain RVA profiles, suggesting that the genes PUL, which affect these indexes, may not undergo mutation. Cloning these mutated genes in the future, especially in z2 and z4, will enhance the genetic network of rice eating quality and hold significant importance for molecular marker-assisted breeding to improve rice quality. [ABSTRACT FROM AUTHOR]

Published
2023
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28. High and ultra‐high temperature drying of fermented dried noodles: effect on noodle quality and starch properties.

Author

Wang, Jiasheng, He, Jinxuan, Liu, Chong, Hong, Jing, Liu, Mei, and Zheng, Xueling

Subjects
*NOODLES, *GLUTEN, *HIGH temperatures, *PASTA products, *MICROBIAL metabolites, *SURFACE texture, *STARCH
Abstract

Summary: Although dried noodles have been industrialised for many years, some technical bottlenecks, such as dense cross‐section structure, poor rehydration ability and the lack of nutritional and flavour substances, still need to be addressed. Fermentation has been used to produce dried noodles to impart a porous structure and microbial metabolites, improving their rehydration properties and the nutritional and flavour quality of dried noodles. However, the current commercially fermented dried noodles exhibit some issues, such as high breakage rate, rough surface and sticky texture that need to be solved. Drying at high (HT) and ultra‐high temperatures (UT) has been shown to improve the quality of dried pasta or noodles. However, HT and UT drying are not currently used to produce fermented dried noodles. This article investigates the changes in the quality and starch physicochemical properties of fermented dried noodles with high (HM), medium (MM) or low moisture (LM) content dried at HT or UT. The results showed that the UT‐LM condition most prominently improved the noodle quality, significantly reduced the cooking loss rate (5.19%) and significantly increased the water absorption rate (191.41%) of the noodles, and improved the rehydration of noodles. In addition, the cross‐linking of the gluten network was analysed using confocal laser scanning microscopy and the AngioTool software. It was found that the UT treatment promoted the cross‐linking of the gluten network, and the highest number of cross‐linking points (976) was achieved under the UT‐LM condition. The tight gluten network reduces the amylose leaching from the noodles, giving the noodles a denser surface structure and lower adhesiveness. In conclusion, UT‐LM drying could be used as an effective drying condition to improve the quality of fermented dried noodles. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Effects of Salt Stress on Grain Quality and Starch Properties of High-Quality Rice Cultivars

Author

Ruilong Cui, Tianyang Zhou, Chenchen Shu, Kuanyu Zhu, Miao Ye, Weiyang Zhang, Hao Zhang, Lijun Liu, Zhiqin Wang, Junfei Gu, and Jianchang Yang

Subjects
high-quality rice, salt stress, grain quality, starch properties, yield, chain length distribution, Agriculture
Abstract

In recent days, there has been a noticeable surge in demand for high-quality rice. However, the influences of salinity on the quality and starch properties of high-quality rice remain unclear. Three high-quality rice cultivars (Nanjing 9108, Nanjing 5055, and Nanjing 46) were studied to investigate the responses of grain quality to salt stress. There were three treatments, including a control zero salt level (0 g·kg−1, CK), and two salt levels of 0.1 g·kg−1 (0.1% salt stress, T1) and 0.2 g·kg−1 (0.2% salt stress, T2). The study involved the assessment of the appearance, milling, cooking, and eating qualities of rice. We also conducted an analysis of pasting properties, an evaluation of starch thermal properties, and an examination of the fine structure of amylopectin. The findings suggest that as the level of salt stress increases, the yield of rice gradually declines, which is primarily due to a significant reduction in the total spikelet number and the ratio of filled grains. Compared with CK treatment, the appearance and milling quality of rice were significantly improved within the T1 treatment. In addition, the protein concentration and amylose concentration were significantly decreased, the gel consistency was significantly increased, and the cooking and eating qualities were improved. In terms of starch properties, the peak viscosity, breakdown value, infrared ratio (1022/995), and short-chain-length amylopectin ratio increased significantly, while the setback value, pasting temperature, gelatinization enthalpy, relative crystallinity, and infrared ratio (1045/1022) decreased significantly. When comparing T2 with CK, the appearance quality and cooking and eating quality had deteriorated, and the milling quality was improved. The changes in the structural and physicochemical properties of starch were opposite to those in the comparison between the T1 treatment and the CK group. Accordingly, we propose that moderate salt stress has the potential to enhance rice quality, even though there may be a slight decrease in yield. This indicates that it is feasible to cultivate high-quality rice in saline–alkali beach areas.

Published
2024
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30. Superior gluten structure and more small starch granules synergistically confer dough quality for high amylose wheat varieties

Author

Liqun Li, Zhenzhen Liu, Xu Li, Xiangnan Chu, Weibing Yang, Bingxin Wang, Yanzhou Xie, and Xuejun Li

Subjects
gluten structure, starch granule development, high amylose wheat, starch properties, dough quality, Nutrition. Foods and food supply, TX341-641
Abstract

High amylose wheat (HAW) has potential health benefits but its dough structure is usually inferior. Wheat dough is a complex mixture and its structure is influenced by the physicochemical properties of gluten and starch. In this study, we investigated the starch granule development, gluten structure, starch properties, pasting, and thermal properties of flour, as well as the rheological properties of dough in wheat variety Xinong 836 with high amylose content (33.57%) and its parents. The results showed that Xinong 836 wheat starch contained more small starch granules, which was consistent with the microstructural results of starch granules in grain filling stage. Moreover, Xinong 836 wheat starch showed highest swelling power and water solubility. Importantly, the flour of Xinong 836 wheat had the highest protein content and wet gluten content and Xinong 836 wheat gluten showed highest β-sheets content and disulfide bond content than its parents Zhengmai 7698 and Xinong 979, which conferring to more compact microscopic networks of dough, thereby contributing to the higher peak viscosity (PV), final viscosity (FV), and setback viscosity (SB) in the flour of Xinong 836. Our finding elucidated that the stability of gluten and properties of starch synergistically affected the pasting and thermal properties of the flour paste, and the presence of more small starch granules contributed to dough with a rather dense structure in HAW Xinong 836. Thus, superior gluten structure and more small starch granules have synergistic effects on enhancing the gluten–starch interaction, thereby contributing to better dough quality.

Published
2023
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31. Using pre‐gelatinised red lentils in pasta production: connecting starch features and pasta cooking behaviour.

Author

Bresciani, Andrea, Giuberti, Gianluca, Cervini, Mariasole, and Marti, Alessandra

Subjects
*PASTA, *PASTA products, *STARCH, *LENTILS, *FLOUR, *FOOD production
Abstract

Summary: Considering the high interest in using pulses in the production of staple foods, including pasta, this study aimed at investigating the effect of pre‐gelatinisation on the overall quality of pasta from red lentils. Pre‐gelatinized flours showed a lower gelatinisation temperature (up to about 57 °C vs. about 65 °C) and higher retrogradation tendency than native flour. Such changes resulted in higher water absorption capacity (up to 1.23 vs. 0.98 g g−1) and higher farinographic torque, but did not impact the cooking quality. Conversely, the resistant starch content of cooked pasta decreased (from 14.79 to 10.4 g/100 g total starch) and the starch hydrolysis index increased (from 48.28 to 67.71) when pre‐gelatinised flours were used. In conclusion, pre‐gelatinisation impacted starch, hydration and the mixing properties of red lentils flours, without compromising the cooking behaviour of the related pasta. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Editing of the soluble starch synthase gene MeSSIII-1 enhanced the amylose and resistant starch contents in cassava.

Author

Lu, Xiaohua, Wang, Yajie, Zhen, Xinghou, Che, Yannian, Yu, Hui, Ge, Yujian, Wang, Xiangwen, Li, Ruimei, Geng, Mengting, Zhou, Bin, Liu, Jiao, Guo, Jianchun, and Yao, Yuan

Subjects
*CASSAVA starch, *AMYLOPECTIN, *CASSAVA, *GELATION, *SUGARS, *AMYLOSE, *WHEAT starch, *STARCH
Abstract

Foods with high amylose and resistant starch (RS) contents have great potential to enhance human health. In this study, cassava soluble starch synthase MeSSIII-1 gene mutants were generated using CRISPR/Cas9 system. The results showed that the storage roots of messiii-1 mutants had higher contents of amylose, RS, and total starch than those in CK. The rates of small and large-sized starch granules were increased. Additionally, amylopectin starch in messiii-1 mutants had a higher proportion of medium- and long- chains, and a lower proportion of short-chains than those in CK. The onset, peak, and conclusion temperatures of starch gelatinization in messiii-1 mutants were significantly lower than those in CK, and the peak viscosity, trough viscosity and final viscosity all increased. MeSSIII-1 mutation could increase the contents of sucrose, glucose, and fructose in cassava storage roots. We hypothesize that these soluble sugars serve a dual role: they provide the necessary carbon source for starch synthesis and act as sugar signals to trigger the transcriptional reprogramming of genes involved in starch biosynthesis. This process results in a collective enhancement of amylose, RS, and total starch contents, accompanied by changes in starch granule morphology, fine structure, and physicochemical properties. [Display omitted] [ABSTRACT FROM AUTHOR]

Published
2025
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33. Speed shear rate impact on the properties of OSA-modified potato starch

Author

Lizbeth Hidalgo-Tufiño, Anais Adauto, and Carmen Velezmoro

Subjects
Potato starches, shearing, modified starch, starch properties, Agriculture, Agriculture (General), S1-972
Abstract

The reaction between starch granules and octenyl succinic anhydride (OSA) is regularly retarded due to the low breakthrough of large oily OSA droplets into starch granules in an aqueous reaction system. Furthermore, high-speed shearing is widely used in the food industry, demanding high shear, cavitation, and collision force. In this sense, high-speed shearing could reduce the size of OSA droplets and promote a more homogeneous distribution of groups in the starch granule. The aim of this study was to evaluate the impact of OSA potato starch synthesis assisted by high-speed shear on structure (SEM and FTIR), gelatinization, rheology, and emulsifying activity (ES and AS) was investigated. The results showed a gradual increase in DS proportional to the applied speed. Likewise, the OSA starches showed a slight alteration in the shape of the granules (SEM), and FT-IR spectroscopy showed a characteristic absorption of the ester carbonyl groups in the OSA starch at 1724 cm-1. The high-speed shear-treated starches exhibited a significant change in the reduction of the initial gelatinization temperature, although not in the enthalpy. All the gels presented rheology adjusted to the Herschel-Bulkley model with variations in the initial shear stress. Changes in the viscoelastic behavior are proportional to the shear rate detected. High-speed shear treatment did not show a significant effect on emulsion stability (ES) and emulsion activity (EA). Consequently, applying high shear rates allows having OSA starches with different uses.

Published
2023
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34. Speed shear rate impact on the properties of OSA-modified potato starch.

Author

Hidalgo-Tufiño, Lizbeth, Adauto, Anais, and Velezmoro, Carmen

Subjects
*STARCH, *HERSCHEL-Bulkley model, *SUCCINIC anhydride, *SHEARING force, *CARBONYL group, *GELATION
Abstract

The reaction between starch granules and octenyl succinic anhydride (OSA) is regularly retarded due to the low breakthrough of large oily OSA droplets into starch granules in an aqueous reaction system. Furthermore, high-speed shearing is widely used in the food industry, demanding high shear, cavitation, and collision force. In this sense, high-speed shearing could reduce the size of OSA droplets and promote a more homogeneous distribution of groups in the starch granule. The aim of this study was to evaluate the impact of OSA potato starch synthesis assisted by high-speed shear on structure (SEM and FTIR), gelatinization, rheology, and emulsifying activity (ES and AS) was investigated. The results showed a gradual increase in DS proportional to the applied speed. Likewise, the OSA starches showed a slight alteration in the shape of the granules (SEM), and FT-IR spectroscopy showed a characteristic absorption of the ester carbonyl groups in the OSA starch at 1724 cm-1 . The high-speed shear-treated starches exhibited a significant change in the reduction of the initial gelatinization temperature, although not in the enthalpy. All the gels presented rheology adjusted to the Herschel-Bulkley model with variations in the initial shear stress. Changes in the viscoelastic behavior are proportional to the shear rate detected. High-speed shear treatment did not show a significant effect on emulsion stability (ES) and emulsion activity (EA). Consequently, applying high shear rates allows having OSA starches with different uses. [ABSTRACT FROM AUTHOR]

Published
2023
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35. Starch and Protein Characteristics of Chestnut Flours and Their Applications in Gluten-Free Products.

Author

Bresciani A, Russo D, Cervini M, Magni C, Giuberti G, and Marti A

Subjects
Fagaceae chemistry, Glutens chemistry, Glutens analysis, Amylose analysis, Amylose chemistry, Dietary Fiber analysis, Flour analysis, Diet, Gluten-Free, Plant Proteins chemistry, Plant Proteins analysis, Starch chemistry
Abstract

In the context of valorizing underutilized crops, this study investigated the starch and protein characteristics of chestnut varieties (Balestrera and Rossera) and their potential for use at 15% and 25% in reformulating gluten-free baked snacks and fresh pasta. Chestnut varieties differ in protein and starch content (Balestrera > Rossera), as well as in amylose, dietary fiber, and lipids (Balestrera < Rossera). Differences in starch and amylose content affected starch gelatinization (Balestrera < Rossera), pasting and retrogradation properties, and water absorption capacity at 90 °C (Balestrera > Rossera). No differences in water and oil absorption capacity and mixing properties were observed, neither in the protein profile nor in the nature of protein aggregates. Both varieties exhibited a good aptitude for producing gluten-free baked snacks and fresh pasta, even at enrichment levels of 25%. Overall, this study could provide valuable information for the development of gluten-free products using sustainable, underutilized crops.

Published
2024
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36. Cold plasma technologies: Their effect on starch properties and industrial scale-up for starch modification

Author

Akua Y. Okyere, Sasireka Rajendran, and George A. Annor

Subjects
Starch modification, Cold plasma, Plasma-activated water, Application, Starch properties, Industrial scale-up, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Native starches have limited applications in the food industry due to their unreactive and insoluble nature. Cold plasma technology, including plasma-activated water (PAW), has been explored to modify starches to enhance their functional, thermal, molecular, morphological, and physicochemical properties. Atmospheric cold plasma and low-pressure plasma systems have been used to alter starches and have proven successful. This review provides an in-depth analysis of the different cold plasma setups employed for starch modifications. The effect of cold plasma technology application on starch characteristics is summarized. We also discussed the potential of plasma-activated water as a novel alternative for starch modification. This review provides information needed for the industrial scale-up of cold plasma technologies as an eco-friendly method of starch modification.

Published
2022
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37. Starch Properties and Morphology of Eight Floury Endosperm Mutants in Rice

Author

Yuanyuan Hao, Fudeng Huang, Zhennan Gao, Junfeng Xu, Ying Zhu, and Chunshou Li

Subjects
floury endosperm mutants, starch properties, starch morphology, cooking and eating quality, rice, Botany, QK1-989
Abstract

Besides increasing grain yield, improving rice (Oryza sativa L.) quality has been paid more and more attention recently. Cooking and eating quality (CEQ) is an important indicator of rice quality. Since CEQs are quantitative traits and challenging for measurement, efforts have mainly focused on two major genes, Wx and SSIIa. Chalkiness and floury endosperm significantly affect the eating quality of rice, leading to noticeable changes in CEQ. Due to the easily observable phenotype of floury endosperm, cloning single gene mutations that cause floury endosperm and evaluating changes in CEQs indirectly facilitate the exploration of the minor genes controlling CEQ. In this study, eight mutants with different degrees of floury endosperm, generated through ethylmethane sulfonate (EMS) mutagenesis, were analyzed. These mutants exhibited wide variation in starch morphology and CEQs. Particularly, the z2 mutant showed spherical starch granules significantly increased rapid visco analyzer (RVA) indexes and urea swelling, while the z4 mutant displayed extremely sharp starch granules and significantly decreased RVA indexes and urea swelling compared to the wild type. Additionally, these mutants still maintained correlations with certain RVA profiles, suggesting that the genes PUL, which affect these indexes, may not undergo mutation. Cloning these mutated genes in the future, especially in z2 and z4, will enhance the genetic network of rice eating quality and hold significant importance for molecular marker-assisted breeding to improve rice quality.

Published
2023
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38. HvGBSSI mutation at the splicing receptor site affected RNA splicing and decreased amylose content in barley.

Author

Xiuqin Feng, Rahman, Md. Mostafijur, Qian Hu, Bang Wang, Hassan Karim, Guzmán, Carlos, Harwood, Wendy, Qiang Xu, Yazhou Zhang, Huaping Tang, Yunfeng Jiang, Pengfei Qi, Mei Deng, Jian Ma, Jingyu Lan, Jirui Wang, Guoyue Chen, Xiujin Lan, Yuming Wei, and Youliang Zheng

Subjects
RNA splicing, BARLEY, AMYLOSE, AMINO acids, STARCH
Abstract

Granule-bound starch synthase I (HvGBSSI) is encoded by the barley waxy (Wx-1) gene and is the sole enzyme in the synthesis of amylose. Here, a Wx-1 mutant was identified from an ethyl methane sulfonate (EMS)-mutagenized barley population. There were two single-base mutations G1086A and A2424G in Wx-1 in the mutant (M2-1105). The G1086A mutation is located at the 3' splicing receptor (AG) site of the fourth intron, resulting in an abnormal RNA splicing. The A2424G mutation was a synonymous mutation in the ninth intron. The pre-mRNA of Wx-1 was incorrectly spliced and transcribed into two abnormal transcripts. The type I transcript had a 6 bp deletion in the 5' of fifth exon, leading to a translated HvGBSSI protein lacking two amino acids with a decreased starch-binding capacity. In the type II transcript, the fourth intron was incorrectly cleaved and retained, resulting in the premature termination of the barley Wx-1 gene. The mutations in the Wx-1 decreased the enzymatic activity of the HvGBSSI enzyme and resulted in a decreased level in amylose content. This work sheds light on a new Wx-1 gene inaction mechanism. [ABSTRACT FROM AUTHOR]

Published
2022
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39. Effect of Microwave Treatment on the Properties of Starch in Millet Kernels.

Author

Zhi, Wenli, Zhou, Yu, Wang, Ruobing, Wang, Meng, Wang, Wei, Hu, Aijun, and Zheng, Jie

Subjects
*STARCH, *MILLETS, *TREATMENT effectiveness, *CHEMICAL properties, *VISCOSITY
Abstract

The microwave is widely applied to process cereals and grains. However, its effects on their chemical components are still not explored clearly. In this study, millet kernels are treated by microwave. The physical and chemical properties of starch in microwave‐treated millet kernels (SMM) are investigated and compared to those in untreated millet kernels (SUM). The experimental results indicate that the peak viscosity of SMM reduces with the increase of microwave time and initial moisture content of millet kernels (IMM). The peak viscosity of SUM is 831.00 BU. Compared with that of SUM, the peak viscosity of SMM decreases after microwave treatment (MT). When the IMM is 35%, the peak viscosity of SMM decreases by 66.23%. MT significantly increases (p < 0.05) the rapidly digestible starch (RDS) and slowly digestible starch (SDS) content of SMM, which reduces its resistant starch (RS) content. Under MT time of 150 s, the SDS of SMM is up to 35.92%. When the IMM is 35%, after MT, the RDS content of SMM reaches 52.10%. Additionally, the relative crystallinity and short‐range order of SMM are both decreased after MT. Therefore, the microwave is a useful tool for improving the properties of the starch in millet. [ABSTRACT FROM AUTHOR]

Published
2022
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40. Combined physicochemical and transcriptomic analyses reveal the effect of the OsGA20ox1 gene on the starch properties of germinated brown rice.

Author

Zhang, Guangchen, Hua, Dong, Wang, Yiqiao, Xu, Jiaxin, He, Yutang, Liu, Youhong, Tang, Ao, Liu, He, and Sun, Jian

Subjects
*STARCH metabolism, *RICE starch, *STARCH, *AMORPHIZATION, *GERMINATION, *BROWN rice
Abstract

Genes play a pivotal role in regulating the germination of cereal grains; however, there is limited research on the impact of germination genes on the physicochemical properties of germinated cereal starch. We investigated the effects of the OsGA20ox1 gene on the multiscale structural features and adhesion behavior of germinated brown rice starch. Compared to the knockout lines group, the wild type exhibited a decrease in double-helix content (62.74 %), relative crystallinity (47.39 %), and short-range molecular ordering (2.47 %), accompanied by enhanced erosion on the surface of starch granules. The damage to glycosidic bonds at the double-helix level and the heightened structural amorphization (90.95 %) led to reduced entanglement and interaction among starch molecules, ultimately resulting in reduced characteristic viscosity. Further transcriptomic analysis revealed that OsGA20ox1 could regulate the expression of starch-related enzyme genes in the starch metabolism pathway during germination of brown rice. This study contributes to understanding the role of germination genes in promoting the physicochemical properties of starch in germinated grains, thereby opening up new avenues for the improvement of plant-based starch, and paving the way for further research in this field. [Display omitted] • OsGA20ox1 affects the uniformity and integrity of germinated brown rice (GBR) starch. • OsGA20ox1 promotes the augmentation of amorphous regions in GBR starch. • Improved GBR quality shown in viscosity changes, driven by OsGA20ox1. • Starch and sucrose metabolism are key pathways in response to OsGA20ox1. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Heat-moisture treatment of freshly harvested high-amylose maize kernels improves its starch thermal stability and enzymatic resistance.

Author

Gu, Zhonghua, Cheng, Gaomin, Sha, Xianying, Wu, Haochen, Wang, Xinwei, Zhao, Renyong, Huang, Qiang, Feng, Yinong, Tang, Jihua, and Jiang, Hongxin

Subjects
*STARCH, *THERMAL stability, *GLASS bottles, *DIFFRACTION patterns, *CRYSTAL structure
Abstract

The objective of this work was to study the effects of heat-moisture treatment (HMT) of freshly harvested mature high-amylose maize (HAM) kernels on its starch structure, properties, and digestibility. Freshly harvested HAM kernels were sealed in Pyrex glass bottles and treated at 80 °C, 100 °C, or 120 °C. HMT of HAM kernels had no impact on its starch X-ray diffraction pattern but increased the relative crystallinity. This result together with the increased starch gelatinization temperatures and enthalpy change indicated starch molecules reorganization forming long-chain double-helical crystalline structure during HMT of HAM kernels. The aggregation of starch granules were observed after HMT, indicating interaction of starch granules and other components. This interaction and the high-temperature crystalline structure led to reductions in the starch digestibility, swelling power, solubility, and pasting viscosity of the HAM flours. Some starch granules remained intact and showed strong birefringence after the HAM flours were precooked at 100 °C for 20 min and followed by enzymatic hydrolysis, and the amount of undigested starch granules increased with increasing HMT temperatures. This result further supported that HMT of HAM kernels with high moisture level could increase the starch thermal stability and enzymatic resistance. • HMT of freshly harvested HAM kernels increased its starch gelatinization temperatures. • HMT of HAM kernels promoted molecules interactions and then increased starch thermal stability and enzymatic resistance. • Whole maize flour with high resistant-starch content could be achieved by this technology. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Effects of different crop starches on the cooking quality of Chinese dried noodles.

Author

Li, Yao, Wang, Yuyan, Liu, Haibo, and Liu, Xiong

Subjects
*CHINESE cooking, *STARCH, *NOODLES, *SHEARING force, *LEAD in water, *FLOUR, *AMYLOPLASTS, *POTATOES
Abstract

Summary: To investigate the effects of seven starches made from different crop sources on noodle quality, Chinese dried noodles made from various reconstituted flours were prepared and analysed. Potato starch had better solubility and swelling power than the other starches, leading to higher water absorption, cooking loss and breakage ratio of the potato starch noodles. The correlation results unravelled that the cooking breakage ratio of noodles presented positive correlations with solubility, swelling power, peak viscosity (PV), trough viscosity (TV) and final viscosity (FV) values of starches. Besides, the adhesiveness of noodles showed a positive correlation with conclusion temperature (Tc) and setback viscosity (SV) values of starches. Moreover, the peak temperature (Tp) value of starches was negatively correlated with cooking loss; the granule size of starches had a positive correlation with noodles water absorption; and the peak time (PkT) value of starches represented positive relationships with noodles chewiness, shearing force and breaking strength. [ABSTRACT FROM AUTHOR]

Published
2022
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44. Collection, characterizaton, product quality evaluation, and conservation of genetic resources of yam (Dioscorea spp.) cultivars from Ekiti State, Nigeria.

Author

Faluyi, Julius Olaoye, Matthew, Joshua Olumide, and Azeez, Sekinat Okiki

Abstract

This study was initiated to assess the damage done to the genetic resources of yam in a core yam-producing community in Ekiti State, Southwestern Nigeria and embark on restoration through exploration, collection, identification and conservation of lost cultivars. Twenty cultivars, consisting of Dioscorea rotundata Poir, D. cayenensis Lam., D. alata L., and D. dumetorum (Kunth) Pax were identified, collected, characterized and multiplied using an On-farm Participatory Method. The yam cultivars were characterized for quality and yield of pounded yam (iyan) as well as starch properties. They were later conserved in the Teaching and Research Farm of the Obafemi Awolowo University Ile-Ife. Morphological characterization separated Dioscorea alata (Ewura cultivar) by its winged vines while Dioscorea dumetorum (Esuru cultivar) was separated by its pubescent spines, trifoliate leaf with acute apex and base and the clustered, irregularly-shaped tuber. All the cultivars were rated good in their quality of pounded yam but Ikumo Ajimokun, and Odo cultivars were rated best and this was attributed to the swelling properties and amylose contents of their starch. A key for the identification of the cultivars based on morphological characteristics of the vine, leaf and tuber and their appendages was constructed. Multiple vines was found to be about 50% in occurrence among the cultivars. It is a valuable agrobotanical character which conditions multiple tubers and can ensure the survival of at least one vine per hill in the event of drought. Multiple tubers from single vines were also observed in Ajimokun, Gbongi, and Gaungaun cultivars. Yam cultivars with high granules had low swelling capacities. The Brittle Fraction Indices of the starch from all the cultivars was lower than 1.0 explaining why the iyan they produced had no crust on the surface and kept for long hours after preparation. From this study, it was concluded that the local yam cultivars collected represent the core of yam genetic resources for utilization in the region. These cultivars are therefore recommended for prioritization in further studies on propagation, conservation and improvement so that a narrow genetic base of cultivars is not encouraged, for example, by promoting cultivars whose vines perform well in tuberization. The network of local yam farmers, yam sellers, researchers and enthusiasts used for this project is still working together for the recovery of more cultivars, particularly those that are probably close to being lost. [ABSTRACT FROM AUTHOR]

Published
2022
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45. Grain Yield Performance and Quality Characteristics of Waxy and Non-Waxy Winter Wheat Cultivars under High and Low-Input Farming Systems.

Author

Cesevičienė, Jurgita, Gorash, Andrii, Liatukas, Žilvinas, Armonienė, Rita, Ruzgas, Vytautas, Statkevičiūtė, Gražina, Jaškūnė, Kristina, and Brazauskas, Gintaras

Abstract

Waxy starch with a modified amylose-to-amylopectin ratio is desired for a range of applications in food and non-food industries; however, yield performance and grain quality characteristics of waxy wheat cultivars are usually inferior in comparison to advanced non-waxy cultivars. In this study, we compared waxy ('Eldija', 'Sarta') and non-waxy ('Skagen', 'Suleva DS') winter wheat cultivars grown under high and low-input farming systems over two cropping seasons by evaluating their yield and grain quality, including flour, dough, and starch physicochemical properties. The yield of waxy cv. 'Sarta' was significantly lower compared to the non-waxy cultivars across all trials; however, waxy cv. 'Eldija' had a similar yield as non-waxy cultivars (except under high-input conditions cv. 'Skagen'). Moreover, no significant differences were observed between protein and gluten content of waxy and non-waxy cultivars. Low amylose content typical for waxy wheat cultivars highly correlated (r ≥ 0.8) with lower falling number, flour yield and sedimentation values, lower nitrogen % used for grain, higher flour water absorption and flour particle size index. In general, properties dependent on starch structure demonstrated consistent and significant differences between both starch types. The prevailing heat waves during the grain filling period decreased grain test weight but increased protein and gluten content and caused gluten to be weaker. Dough development time at these conditions became longer, dough softening lowered and starch content decreased, but A-starch, starch peak and final viscosity values increased. Low-input farming had a negative effect on grain yield, grain nitrogen uptake and grain test weight but increased phosphorus content in grain. The unique dough mixing properties of waxy cultivar 'Eldija' suggest that it could be used in mixtures along with non-waxy wheat for dough quality improvement. [ABSTRACT FROM AUTHOR]

Published
2022
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46. 黄淮麦区41 个小麦品种(系)品质相关基因的分子检测.

Author

李春鑫, 赵明忠, 韩留鹏, 高崇, 李正玲, 王艳, 昝香存, and 胡琳

Subjects
GLUTEN, WHEAT, STARCH, HARDNESS, GENES
Abstract

Copyright of Journal of Henan Agricultural Sciences is the property of Editorial Board of Journal of Henan Agricultural Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2022
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47. Agronomic Traits and Physicochemical Properties of Starch of Different Grain Positions in Wheat Spike Under Nitrogen Treatment.

Author

Wang, Leilei, Xu, Zhisheng, Zhang, Yong, Duan, Yuren, Zhang, Yumeng, Wu, Yunfei, Yu, Xurun, Chen, Gang, and Xiong, Fei

Subjects
*STARCH, *DEGREE of polymerization, *GRAIN yields, *NITROGEN, *AMYLOSE, *GRAIN, *WHEAT, *SURFACE structure
Abstract

Nitrogen is an important factor that influences the yield and quality of wheat grain. However, little is known about its effect on the different positions of the grain in spikelets. Compared with the control group, nitrogen application increased the weight, starch content, and protein content of grains in each position considerably. In particular, the protein content in high grain positions of Yangmai 13 (YM 13) under nitrogen treatment are similar to those positions in Yannong 19 (YN 19) under normal levels. Nitrogen application substantially increased the volume proportion of small starch granules and the average degree of polymerization (DP) but reduced the apparent amylose content (AAC), and the breakdown values (BV) of the first grain (G1) and the second grain (G2) in YN19. Nitrogen application considerably increased AAC, the volume proportion of small starch granules, and the ordered structure of starch surface of G1 and AAC, BV, and DP of G2 in YM13. These results demonstrated that a medium nitrogen level is conducive to increase the agronomic traits in high‐position grains and a better pasting properties of starch in low‐position grains. [ABSTRACT FROM AUTHOR]

Published
2022
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48. Analysis of the starch properties in tetraploid wheat–Aegilops sharonensis amphidiploid.

Author

Li, Qing, Zhang, Xuteng, Lin, Na, Carlos, Guzmán, Lan, Jingyu, Tang, Huaping, Qi, Pengfei, Ma, Jian, Wang, Jirui, Chen, Guoyue, Li, Wei, Pu, Zhien, Lan, Xiujin, Deng, Mei, Wei, Yuming, Zheng, Youliang, and Jiang, Qiantao

Subjects
STARCH, AMYLOSE, DURUM wheat, WHEAT, AEGILOPS, GELATION
Abstract

In this study, we investigated the starch properties of Aegilops sharonensis (R7), tetraploid wheat (Z636), and their amphidiploid (Z636 × R7). The results of protein electrophoresis showed that waxy protein of Ae. sharonensis (R7) and tetraploid wheat (Z636) is expressed in the amphidiploid (Z636 × R7). The total starch content and amylose content of the amphidiploid (Z636 × R7) were higher than Ae. sharonensis (R7) and lower than tetraploid wheat (Z636). The amphidiploid (Z636 × R7) exhibits an intermediate type of starch granules morphology that the ratio of A/B-type starch granules and their shapes ranged between Ae. sharonensis and tetraploid wheat. The gelatinization parameters showed that the concluding temperature (Tc) and enthalpy change (ΔH) of Ae. sharonensis (R7) were significantly lower than those of tetraploid wheat (Z636) and the amphidiploid (Z636 × R7), while the values of onset temperature (To) and peak temperature (Tp) were similar among the Ae. sharonensis (R7), tetraploid wheat (Z636), and the amphidiploid (Z636 × R7). For the aging properties, the ΔH values of Ae. sharonensis (R7) and the amphidiploid (Z636 × R7) were close but lower than that of tetraploid wheat (Z636), whereas the parameters of To, Tp, and Tc did not differ significantly among three materials. The amphidiploid (Z636 × R7) possesses varied starch properties from wheat, which may be useful in wheat quality improvement. [ABSTRACT FROM AUTHOR]

Published
2021
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49. Exploring differences in the physicochemical and nutritional properties of mango flours and starches.

Author

Lossolli, Nathalia Aparecida Barbosa, Leonel, Magali, Leonel, Sarita, Izidoro, Maiqui, Cândido, Hebert Teixeira, Assis, Jaciene Lopes de Jesus, and Oliveira, Luciana Alves de

Abstract

Mangoes contain several components that are beneficial for health, in addition to being potential sources of starch for the food industry. However, a substantial amount of fruit is lost in the field because it does not meet commercial standards, resulting in food losses and environmental damage. Herein, the physicochemical properties of mango flours and starches obtained from different parts of the fruit of two cultivars were evaluated. Mango peel flours have higher levels of proteins, fibers, minerals, carotenoids, ascorbic acid, and antioxidant activity than pulp flours, in addition to a higher yellowing index and water and oil-holding capacity, and can be used as a functional flour. The pulp flours, with the higher starch content, showed characteristics that make them valuable as a potential ingredient in soft baking and gluten-free products. Mango starches have circular and oval shapes, with a bimodal distribution. All starches showed an A-type crystallinity pattern. Pulp starches showed a higher peak viscosity and breakdown, with a lower setback, and can be used as a thickening or gelling agent. The higher thermal stability of kernel starch suggests its application in sauces, baking, dairy products, and canned foods. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Effect of ultrasound-assisted enzyme pretreatment on γ-aminobutyric acid content, eating quality and starch properties of germinated brown rice.

Author

Chen, Bing-jie, Wang, Xiao, Liu, Hong-ru, Zhang, Yi, Wu, Song-heng, Wang, Chun-fang, Liu, Chen-xia, and Qiao, Yong-jin

Subjects
*BROWN rice, *CORNSTARCH, *STARCH, *ENZYMES, *SUPERABSORBENT polymers, *CRYSTAL structure, *INGESTION, *ACIDS
Abstract

A novel technique has been developed to increase γ-aminobutyric acid levels and enhance the quality of germinated brown rice (GBR) by ultrasound and enzyme treatment. The combined use of ultrasonic and enzyme treatments notably enhanced the germination rate of brown rice. Additionally, the γ-aminobutyric acid content substantially improved from 18.79 ± 1.87 mg/100 g to 38.60 ± 3.19 mg/100 g when compared to the untreated group. Moreover, the cracks produced on the GBR surface and disruption of the starch structure resulted in increased water absorption, shortening of cooking time, and reduction in GBR hardness, thereby improving the cooking and edible quality of GBR. Additionally, ultrasonic and enzyme treatments increased the amount of fast-digestible starch and enhanced starch digestibility. However, they had minimal impact on the crystal structure, degree of crystallinity, and heat energy changes during the starch pasting process of GBR. [Display omitted] • Ultrasonic-enzyme treatment increases γ-aminobutyric acid levels. • Ultrasonic-enzyme treatment improves edible quality of germinated brown rice. • Ultrasonic-enzyme treatment destroys the cortex and starch structure. • Ultrasonic-enzyme treatment improves digestive property of germinated brown rice. [ABSTRACT FROM AUTHOR]

Published
2024
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