Compositional, morphological, structural and physicochemical properties of starches from seven naked barley cultivars grown in China

文献类型: 外文期刊

第一作者: Li, Wenhao

作者: Li, Wenhao;Xiao, Xinlong;Zheng, Jianmei;Luo, Qingui;Ouyang, Shaohui;Zhang, Guoquan;Zhang, Wenhui

作者机构:

关键词: Cereal;Thermal property;Pasting;Viscosity;Gelatinization

期刊名称:FOOD RESEARCH INTERNATIONAL ( 影响因子:6.475; 五年影响因子:6.508 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Starches from seven naked barley cultivars in China were isolated and investigated for their compositional, structural and physicochemical properties. The range of starch purity, lipid, protein, amylose and amylopectin contents and the amylose/amylopectin ratio for different varieties were 90.58% to 97.95%, 0.01% to 0.02%, 0.31% to 0.45%, 22.72% to 27.49%, 65.89% to 72.64% and 0.31 to 0.39, respectively. The starches from all naked barley cultivars exhibited A-type crystalline packing arrangements and similar granule shapes. The rapid visco analyzer (RVA) results showed the peak viscosity, trough viscosity, breakdown, final viscosity, setback, peak time and pasting temperature of starches ranged from 2977 to 3641 cP, 2253 to 2844 cP, 474 to 876 cP, 3094 to 4320 cP, and 729 to 1476 cP, 5.53 to 6.80 min and 5025 to 84.35 ℃, respectively. The transition temperatures (T_o, T_p and T_c), gelatinization temperature range (AT_r) and enthalpies of gelatinization (ΔH) measured using a differential scanning calorimeter analyzer (DSC) ranged from 54.07 to 58.47 ℃, 57.51 to 61.54 ℃, 65.49 to 72.74 ℃. and 10.46 to 16.58 ℃ and 7.74 to 9.82 J/g. respectively. The various structural and physicochemical properties demonstrated by naked barley starch suggest their broader potential applications of this novel cereal.

分类号: TS2

  • 相关文献

[1]Tartary buckwheat (Fagopyrum tataricum Gaertn.) starch, a side product in functional food production, as a potential source of retrograded starch. Gao, Jinfeng,Chao, Guimei,Wang, Pengke,Gao, Xiaoli,Feng, Baili,Kreft, Ivan,Wang, Ying,Liu, Xiaojin,Wang, Li. 2016

[2]Physicochemical properties of sweetpotato starch. Zhu, Fan,Cai, Yi-Zhong,Corke, Harold,Yang, Xinsun,Bertoft, Eric. 2011

[3]A study of the effect of amino acids on pasting and short-term retrogradation properties of rice starch based on molecular dynamics simulation. Wan, Jie,Luo, Shunjing,Wang, Risi,Liu, Chengmei,Liu, Fei,Zhou, Guohui,Zhang, Xin.

[4]Physicochemical characterization of sweet potato starches popularly used in Chinese starch industry. Abegunde, Oluwaseyi Kemi,Mu, Tai-Hua,Chen, Jing-Wang,Deng, Fu-Ming.

[5]Effects of inorganic salts on the structural and physicochemical properties of high-hydrostatic-pressure-gelatinized sweet potato starch. Yu, Shu-Xi,Mu, Tai-Hua,Zhang, Miao,Zhao, Zhong-Kai,Yu, Shu-Xi,Mu, Tai-Hua,Zhang, Miao,Zhao, Zhong-Kai.

[6]Lamellar structure change of waxy corn starch during gelatinization by time-resolved synchrotron SAXS. Kuang, Qirong,Xu, Jinchuan,Zhou, Sumei,Liu, Xingxun,Liang, Yongri,Xie, Fengwei,Tian, Feng. 2017

[7]Effects of waterlogging after pollination on the physicochemical properties of starch from waxy maize. Lu, Dalei,Cai, Xuemei,Lu, Weiping,Shi, Yaxing,Zhao, Jiuran.

[8]Structure and Thermal properties of RHA/NR composite. Zeng, Zongqiang,Liu, Hongchao,Yu, Heping,Peng, Zheng. 2012

[9]Microwave Energy Absorption Behavior of Foamed Berry Puree Under Microwave Drying Conditions. Zheng, Xianzhe,Liu, Chenghai,Sun, Jingkun,Liu, Bingxin,Zhang, Baohui,Lin, Zhen,Sun, Yu,Liu, Haijun,Wang, Yingkuan,Lin, Zhen,Liu, Haijun.

[10]DSC study on the thermal properties of soybean protein isolates/corn starch mixture. Li, Shujing,Wei, Yimin,Fang, Yanqiang,Zhang, Wei,Zhang, Bo.

[11]Analysis of genotypic and environmental effects on rice starch. 2. Thermal and retrogradation properties. Xu, LJ,Xie, JK,Kong, XL,Bao, JS. 2004

[12]Determination of Deoxynivalenol-3-Glucoside in Cereals by Hydrophilic Interaction Chromatography with Ultraviolet Detection. Geng, Zhiming,Wang, Daoying,Liu, Fang,Zhu, Yongzhi,Zhang, Muhan,Yang, Dan,Zhou, Miaoping,Zhang, Pingping. 2014

[13]The in vitro digestion rate and in vivo digestibility of raw starches from selected cereals and tubers. Yin, Fugui,Huang, Ruilin,Shao, Hua,Huang, Ju,Wang, Jinquan,Ruan, Zhen,Wang, Yongfei,Shao, Hua,Mu, Yuyun,Wen, Qingqi. 2012

[14]The wheat omega-gliadin genes: structure and EST analysis. Anderson, Olin D.,Gu, Yong Q.,Lazo, Gerard R.,Wu, Jiajie,Kong, Xiuying,Wu, Jiajie,Wu, Jiajie. 2009

[15]Classification and expression diversification of wheat dehydrin genes. Wang, Yuezhi,Xu, Haibin,Zhu, Huilan,Tao, Ye,Zhang, Guangxiang,Zhang, Lixia,Zhang, Caiqin,Zhang, Zhengzhi,Ma, Zhengqiang,Wang, Yuezhi,Xu, Haibin,Zhu, Huilan,Tao, Ye,Zhang, Guangxiang,Zhang, Lixia,Zhang, Caiqin,Zhang, Zhengzhi,Ma, Zhengqiang,Wang, Yuezhi. 2014

[16]A Sensitive Immunoaffinity Column-Linked Indirect Competitive ELISA for Ochratoxin A in Cereal and Oil Products Based on a New Monoclonal Antibody. Li, Xin,Li, Peiwu,Zhang, Qi,Zhang, Zhaowei,Li, Ran,Zhang, Wen,Ding, Xiaoxia,Chen, Xiaomei,Tang, Xiaoqian,Li, Xin,Li, Peiwu,Zhang, Zhaowei,Li, Ran,Li, Peiwu,Zhang, Qi,Zhang, Zhaowei,Li, Ran,Ding, Xiaoxia,Li, Xin,Li, Peiwu,Zhang, Wen,Chen, Xiaomei,Tang, Xiaoqian. 2013

[17]Simultaneous determination of carbamate insecticides and mycotoxins in cereals by reversed phase liquid chromatography tandem mass spectrometry using a quick, easy, cheap, effective, rugged and safe extraction procedure. Zhang, Jin-Ming,Lu, Yao-Bin,Wu, Yin-Liang.

[18]Effects of Incubation Temperature, Starter Culture Level and Total Solids Content on the Rheological Properties of Yogurt. Wu, Sha,Li, Dong,Yang, Bao-ling,Mao, Zhi-huai,Li, Shu-jun,Bhandari, Bhesh,Chen, Xiao Dong. 2009

[19]Wheat quality traits and quality parameters of cooked dry white Chinese noodles. Liu, JJ,He, ZH,Zhao, ZD,Pena, RJ,Rajaram, S. 2003

[20]The Characteristics Of Gelatin Extracted From Sturgeon (acipenser Baeri) Skin Using Various Pretreatments. Hao, Shuxian,Li, Laihao,Yang, Xianqing,Cen, Jianwei,Shi, Hong,Bo, Qi,He, Junyan.

作者其他论文 更多>>

微信小程序