Study on the Content of Triterpene Acids and Flavones for Jujubes of Different Cultivars, Different Growing Stages and Different Parts

文献类型: 外文期刊

第一作者: Zhao, A. L.

作者: Zhao, A. L.;Li, D. K.;Wang, Y. K.;Sui, C. L.;Du, X. M.;Cao, Y. Q.

作者机构:

关键词: jujube;parts;stages;triterpene acids;flavones

期刊名称:I INTERNATIONAL JUJUBE SYMPOSIUM

ISSN: 0567-7572

年卷期: 2009 年 840 卷

页码:

收录情况: SCI

摘要: In this research, 24 quality jujube cultivars are studied and samples of fruit skin, flesh, leaves and stems in white-maturing, crisp-maturing and complete-maturing stages were collected. The content of triterpene acids and flavones in the samples was tested and analyzed by the method of colorimetry. The result shows three important points. First, there was an extremely distinct difference for the content of triterpene acids and flavones between different cultivars. For example, the content of triterpene acids in 'Yunchengxiangzao' can reach 10.85mg/g, yet it is only 2.63 mg/g in 'Puyanghetaowen'; flavones in 'Taigushenglizao' have a highest content of 24.38 mg/g, while it was only 7.53 mg/g in 'Jiaochengjunzao'. Second, there was an extremely distinct difference for the content of triterpene acids and flavones between different growing stages. The highest content of triterpene acids was at the complete-maturing stage, while the lowest at the white-maturing stage. The change in the content of flavones was reversed. Third, there is an extremely distinct difference for the content of triterpene acids and flavones between different parts. The highest content of triterpene acids was in the flesh which can be 8.31 mg/g, followed by skin and leaves in turn, with the lowest content in stems, which was only 1.13 mg/g. The highest content of flavones was in the skin which can reach 23.49 mg/g, followed by leaves and stems, with the lowest content in flesh, which was only 2.04 mg/g.

分类号:

  • 相关文献

[1]Flavonols and Flavones Changes in Pomegranate (Punica granatum L.) Fruit Peel during Fruit Development. Zhao, X.,Fang, Y.,Yuan, Z.,Zhao, X.,Yin, Y.,Feng, L.. 2014

[2]Protective Effect of Total Flavones from Hippophae rhamnoides L. against Visible Light-Induced Retinal Degeneration in Pigmented Rabbits. Wang, Yong,Zhao, Liang,Wang, Ou,Guo, Xiaoxuan,Lu, Feng,Yang, Xue,Ji, Baoping,Huang, Fenghong,Deng, Qianchun,Huang, Fenghong,Deng, Qianchun,Zhang, Di.

[3]Adventitious Shoot Regeneration from In Vitro Leaves of Jujube (Ziziphus jujuba Mill.). Wang, G. P.,Xiao, R.,Li, C. Y.,Chen, Q. F..

[4]Study on the Content of Polysaccharides in Different Cultivars, Growing Periods and Organs in Chinese Jujube. Zhao, A. L.,Li, D. K.,Wang, Y. K.,Sui, C. L.,Du, X. M.,Cao, Y. Q.,Ren, H. Y.,Liang, Q..

[5]Residue analysis and risk assessment of tebuconazole in jujube (Ziziphus jujuba Mill). You, Xiangwei,Li, Yiqiang,Wang, Xiuguo,Xu, Jinli,Zheng, Xiao,Sui, Chengcheng.

[6]Changes in pectin characteristics during the ripening of jujube fruit. Shan, Yang,Li, Gaoyang,Wang, Rongrong,Ou, Shiyi.

[7]Progress of Fruit Plants in Selenium-Enriched Research in China. Wu, Guo-liang,Tian, Jian-bao. 2009

[8]Characterization of volatile profile from ten different varieties of Chinese jujubes by HS-SPME/GC-MS coupled with E-nose. Chen, Qinqin,Song, Jianxin,Bi, Jinfeng,Wu, Xinye,Chen, Qinqin,Song, Jianxin,Bi, Jinfeng,Wu, Xinye,Song, Jianxin,Bi, Jinfeng,Meng, Xianjun. 2018

[9]LTR-retrotransposon diversity and transcriptional activation under phytoplasma stress in Ziziphus jujuba. Sun, Jun,Huang, Yao,Guo, Jing,Zhou, Junyong,Sun, Qibao. 2013

[10]Estimation Models for Jujube Leaf Pigment Concentration with Hyperspectrum Data at Canopy Scale. Liu Wei-yang,Peng Jie,Wang Jia-qiang,Xiang Hong-ying,Niu Jian-long,Dou Zhong-jiang,Chen Bing,Wang Qiong,Dai Xi-jun. 2017

[11]Occurrence and identification of Nothophoma quercina causing brown spot of jujube in China. Bai Jianyu,Shi Yanjiang,Bai Jianyu,Wang Xiaoming,Duan Canxing.

[12]Multiresidue analysis of 16 pesticides in jujube using gas chromatography and mass spectrometry with multiwalled carbon nanotubes as a sorbent. Zhao, Liuwei,Zhang, Ling,Liu, Fengmao,Pan, Canping,Xue, Xiaofeng,Xue, Xiaofeng.

[13]Effect of dehydration methods on antioxidant activities, phenolic contents, cyclic nucleotides, and volatiles of jujube fruits. Ding, Shenghua,Zhao, Dandan,Wang, Zhengfu,Wu, Jihong,Hu, Xiaosong,Wang, Rongrong,Ding, Shenghua,Zhao, Dandan,Wang, Zhengfu,Wu, Jihong,Hu, Xiaosong,Ding, Shenghua. 2016

[14]Fate of triadimefon and its metabolite triadimenol in jujube samples during jujube wine and vinegar processing. Zhao, Liuwei,Wu, Liming,Xue, Xiaofeng,Zhao, Liuwei,Liu, Fengmao,Hou, Fan.

[15]Characterisation of Hop stunt viroid (HSVd) isolates from jujube trees (Ziziphus jujuba). Liu, GuangYao,Li, Shifang,Zhang, Benli,Wu, Zujian,Jiang, Dongmei,Liu, Chunqin.

作者其他论文 更多>>

微信小程序