Integrated effects of ascorbic acid, flavonoids and sugars on thermal degradation of anthocyanins in blood orange juice

文献类型: 外文期刊

第一作者: Cao, Shaoqian

作者: Cao, Shaoqian;Lu, Qi;Xu, Yuan;Pan, Siyi;Wang, Kexin;Liu, Liang

作者机构:

关键词: sugar: 57-50-1;ascorbic acid: 62624-30-0;flavonoid;anthocyanin: degradation thermal degradation;intrinsic factor;blood orange juice: beverage

期刊名称:EUROPEAN FOOD RESEARCH AND TECHNOLOGY ( 影响因子:2.998; 五年影响因子:3.005 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: This study aimed to elucidate how the major intrinsic factors, such as ascorbic acid (AA), flavonoids and sugars affected the thermal degradation of blood orange anthocyanins. The results in our study indicated that AA and sugars significantly accelerated anthocyanins degradation while flavonoids had a protective effect on degradation of anthocyanins. Flavonoids and AA could reduce the influence of temperature on anthocyanins degradation rate. However, the promoting effects of sugars on anthocyanins degradation correlated with the temperature. Moreover, the degradation of anthocyanins in the presence of sugars followed complex reaction kinetics when temperature was above 70 A degrees C, and the promoting effects of sugars on anthocyanins degradation were glucose < sucrose < fructose. The results also indicated that flavonoids had a protective effect against either AA or sugars accelerated the degradation of anthocyanins, and this protective effect played a more important role in the degradation of anthocyanins comparing to the negative effect of AA or sugars. In addition, AA and sugars showed a synergistic effect on the degradation of anthocyanins at all our investigation temperatures except 90 A degrees C.

分类号: R15

  • 相关文献

[1]Response of the Flag Leaves of a Super-Hybrid Rice Variety to Drought Stress during Grain Filling Period. Liu, S. H.,Chen, G. X.,Liu, S. H.,Yin, J. J.,Lu, C. G..

[2]Comparison of Growth and Physiological Responses to Severe Drought between Two Altitudinal Hippophae rhamnoides Populations. Yang, Yongqing,Yao, Yinan,Yang, Yongqing,Zhang, Xuejiang.

[3]A Mitochondrial Model to Evaluate Endogenous Peroxidation in Litopenaeus vannamei: an in vitro Tool to Research Cellular Mechanisms of Antioxidants. Liu, Xiao-Hua,Cao, Jun-Ming,Huang, Yan-Hua,Zhao, Hong-Xia,Zhu, Xuan,Zhou, Meng,Lan, Han-Bing,Liu, Xiao-Hua,Xie, Cong-Xin,Liu, Xiao-Hua,Du, Zhen-Yu.

[4]Identification of a UDP-glucose pyrophosphorylase from cotton (Gossypium hirsutum L.) involved in cellulose biosynthesis in Arabidopsis thaliana. Qinghua Wang,Xue Zhang,Fuguang Li,Yuxia Hou,Xingliang Liu,Xueyan Zhang.

[5]Arbuscular mycorrhizal influence on growth, photosynthetic pigments, osmotic adjustment and oxidative stress in tomato plants subjected to low temperature stress. Latef, Arafat Abdel Hamed Abdel,He Chaoxing.

[6]Salicylic acid regulates sugar metabolism that confers tolerance to salinity stress in cucumber seedlings. Dong, Chun-Juan,Wang, Xiao-Li,Shang, Qing-Mao.

[7]Comparative proteomic analyses of two Taxus species (Taxus X media and Taxus mairei) reveals variations in the metabolisms associated with paclitaxel and other metabolites. Juan Hao,Shen, Chenjia,Hong Guo,Xinai Shi,Ye Wang,Qinghua Wan,Yao-Bin Song,Lei Zhang,Ming Dong,Chenjia Shen. 2017

[8]Comparative analysis of pigments in red and yellow banana fruit. Cheng, Sihua,Yang, Ziyin,Huang, Bingzhi,Du, Bing,Zeng, Wei. 2018

[9]Nutritional composition and antioxidant activity of twenty mung bean cultivars in China. Shi, Zhenxing,Yao, Yang,Zhu, Yingying,Ren, Guixing,Zhu, Yingying. 2016

[10]Effects of fruit bagging on coloring and related physiology, and qualities of red Chinese sand pears during fruit maturation. Huang, Chunhui,Yu, Bo,Teng, Yuanwen,Su, Jun,Shu, Qun,Cheng, Zaiquan,Zeng, Liqiong. 2009

[11]Late Maturing Longan Pericarp Color Affected by the Changes of Pigment and Total Phenols Contents in the Period of Fruit Keeping Fresh on Plant. Xu, J. H.,Yu, D.,Wei, X. Q.,Xu, L.,Lin, Q. H.,Chen, Z. F.,Zheng, S. Q.,Wu, S. H.. 2010

[12]A mutation in the rice chalcone isomerase gene causes the golden hull and internode 1 phenotype. Hong, Lilan,Tang, Ding,Wang, Kejian,Li, Ming,Cheng, Zhukuan,Qian, Qian.

[13]Characterization of phenolic profile and antioxidant capacity of different fruit part from lemon (Citrus limon Burm.) cultivars. Xi, Wanpeng,Lu, Juanfang,Qun, Junping,Jiao, Bining,Jiao, Bining.

[14]Quality evaluation of snow lotus (Saussurea): quantitative chemical analysis and antioxidant activity assessment. Qiu, Jian,Chen, Fudong,Zhao, Dexiu,Qiu, Jian,Chen, Fudong,Li, Chonghui,Zhao, Qiao,Xue, Xiaofeng,Bolat, Nuer,Wang, Xiaojun,Baima, Yuzhen,Ma, Fengshan.

[15]Comparison of Nutritional Composition, Aroma Compounds, and Biological Activities of Two Kinds of Tartary Buckwheat Tea. Guo, Huimin,Li, Jincai,Guo, Huimin,Yang, Xiushi,Luo, Xiuxiu,Qin, Peiyou,Ren, Guixing,Zhou, Haitao.

[16]HPLC-ESI-MS Analysis of Flavonoids Obtained from Tissue Culture of Dracaena cambodiana. Wang Hui,Wang Jiayuan,Wu Xiaopeng,Shen Haiyan,Luo Ying,Dai Haofu,Mei Wenli. 2015

[17]A R2R3-MYB Transcription Factor Regulates the Flavonol Biosynthetic Pathway in a Traditional Chinese Medicinal Plant, Epimedium sagittatum. Huang, Wenjun,Khaidun, A. B. M.,Chen, Jianjun,Lv, Haiyan,Wang, Ying,Zhang, Chanjuan,Yuan, Ling. 2016

[18]Flavonoids in lotus (Nelumbo) leaves evaluated by HPLC-MSn at the germplasm level. Chen, Sha,Chen, Sha,Liu, Yan-Ling,Li, Shao-Hua,Zheng, Yu,Li, Shao-Hua,Fang, Jin-bao. 2013

[19]High temperature effects on flavones accumulation and antioxidant system in Scutellaria baicalensis Georgi cells. Yuan, Yuan,Luo, Yujian,Huang, Luqi,Chen, Shunqin,Yang, Zhaochun,Qin, Shuangshuang,Liu, Yunjun. 2011

[20]Identification of TT2 gene from floral transcriptome in Fagopyrum tataricum. Zhou, Mei-Liang,Shao, Ji-Rong,Zhou, Mei-Liang,Tang, Yi-Xiong,Wu, Yan-Min,Zhou, Mei-Liang,Zhang, Kai-Xuan,Tang, Yu,Li, Fa-Liang,Yang, Pei-Yan.

作者其他论文 更多>>

微信小程序