文献类型: 外文期刊
作者: Fu, Xiumin 1 ; Cheng, Sihua 1 ; Liao, Yinyin 1 ; Huang, Bingzhi 2 ; Du, Bing 3 ; Zeng, Wei 4 ; Jiang, Yueming 1 ; Duan, X 1 ;
作者机构: 1.hinese Acad Sci, South China Bot Garden, Key Lab South China Agr Plant Mol Anal & Genet Im, Xingke Rd 723, Guangzhou 510650, Guangdong, Peoples R China; Chinese Acad Sci, South China Bot Garden, Guangdong Prov Key Lab Appl Bot, Xingke Rd 723, Guangzhou 510650, Guangdong, Peoples R China
2.Univ Chinese Acad Sci, 19 A Yuquan Rd, Beijing 100049, Peoples R China
3.Guangdong Acad Agr Sci, Inst Fruit Tree Res, Guangzhou 510640, Guangdong, Peoples R China
4.South China Agr Univ, Coll Food, Wushan Rd, Guangzhou 510642, Guangdong, Peoples R China
5.Waters Technol Shanghai Ltd, 1000 Jinhai Rd, Shanghai 201203, Peoples R China
关键词: Anthocyanin;Banana fruit;Carotenoid;Flavonoid;Pigment
期刊名称:FOOD CHEMISTRY ( 影响因子:7.514; 五年影响因子:7.516 )
ISSN: 0308-8146
年卷期: 2018 年 239 卷
页码:
收录情况: SCI
摘要: Color is an important characteristic determining the fruit value. Although ripe bananas usually have yellow peels, several banana cultivars have red peels. As details of the pigments in banana fruits are unknown, we investigated these pigments contents and compositions in the peel and pulp of red cultivar 'Hongjiaowang' and yellow cultivar 'Baxijiao' by UPLC-PDA-QTOF-MS and HPLC-PDA techniques. The 'Hongjiaowang' peel color was mainly determined by the presence of anthocyanin-containing epidermal cells. Rutinoside derivatives of cyanidin, peonidin, petunidin, and malvidin were unique to the red peel, and possibly responsible for the red color. 'Hongjiaowang' contained higher total content of carotenoids than 'Baxijiao' in both pulp and peel. Lutein, alpha-carotene, and beta-carotene were main carotenoids, which might play a more important role than flavonoids in producing the yellow banana color owing to the properties and distribution in the fruit. The information will help us understand a complete profile of pigments in banana. (C) 2017 Elsevier Ltd. All rights reserved.
- 相关文献
作者其他论文 更多>>
-
Tea green leafhopper infestations affect tea plant growth by altering the synthesis of brassinolide
作者:Gu, Dachuan;Wu, Shuhua;Wang, Yuxin;Yang, Yuhua;Chen, Jiaming;Mao, Kaiquan;Liao, Yinyin;Zeng, Lanting;Yang, Ziyin;Gu, Dachuan;Wu, Shuhua;Wang, Yuxin;Yang, Yuhua;Chen, Jiaming;Mao, Kaiquan;Liao, Yinyin;Zeng, Lanting;Yang, Ziyin;Gu, Dachuan;Wu, Shuhua;Wang, Yuxin;Yang, Yuhua;Chen, Jiaming;Mao, Kaiquan;Liao, Yinyin;Zeng, Lanting;Yang, Ziyin;Gu, Dachuan;Wu, Shuhua;Wang, Yuxin;Chen, Jiaming;Mao, Kaiquan;Zeng, Lanting;Yang, Ziyin;Wu, Shuhua;Li, Jianlong
关键词:Camellia sinensis; growth phenotype; transcription factor
-
The Circadian Clock Gene PHYTOCLOCK1 Mediates the Diurnal Emission of the Anti-Insect Volatile Benzyl Nitrile from Damaged Tea (Camellia sinensis) Plants
作者:Qian, Jiajia;Zhu, Chen;Yang, Yuhua;Gu, Dachuan;Liao, Yinyin;Zeng, Lanting;Yang, Ziyin;Qian, Jiajia;Zhu, Chen;Yang, Yuhua;Gu, Dachuan;Liao, Yinyin;Zeng, Lanting;Yang, Ziyin;Qian, Jiajia;Zhu, Chen;Yang, Yuhua;Gu, Dachuan;Liao, Yinyin;Zeng, Lanting;Yang, Ziyin;Li, Jianlong;Li, Jianlong;Gu, Dachuan;Zeng, Lanting;Yang, Ziyin
关键词:benzyl nitrile; Camellia sinensis; circadianclock; CsPCL1; slow-release beads; volatile compound
-
Biosynthetic Pathway and Bioactivity of Vanillin, a Highly Abundant Metabolite Distributed in the Root Cortex of Tea Plants (Camellia sinensis)
作者:Huang, Yanfei;Yang, Yuhua;Xue, Jinghua;Liao, Yinyin;Fu, Xiumin;Zhu, Chen;Zeng, Lanting;Yang, Ziyin;Huang, Yanfei;Yang, Yuhua;Xue, Jinghua;Liao, Yinyin;Fu, Xiumin;Zhu, Chen;Yang, Ziyin;Huang, Yanfei;Fu, Xiumin;Zeng, Lanting;Yang, Ziyin;Huang, Yanfei;Yang, Yuhua;Xue, Jinghua;Liao, Yinyin;Fu, Xiumin;Zhu, Chen;Zeng, Lanting;Yang, Ziyin;Li, Jianlong;Li, Jianlong
关键词:tea; Camellia sinensis; root; vanillin; volatile; biosynthesis; biological function
-
Banana Classification Using Sanger Sequencing of the Ribosomal DNA Internal Transcribed Spacer (ITS) Region
作者:Zeng, Hongyun;Huang, Bingzhi;Xu, Linbing;Wu, Yuanli
关键词:Musa; germplasm resources; genotypes; ITS
-
The development and utilization of two SCAR markers linked to the resistance of banana (Musa spp. AAA) to Fusarium oxysporum f. sp. cubense race 4
作者:Qv, Mengran;Feng, Guoen;Chen, Shule;Chen, Houbin;Chen, Chengjie;Dai, Longyu;Liu, Hui;Xu, Chunxiang;Chen, Houbin;Wang, Fang;Lv, Shun;Huang, Bingzhi;Li, Xiaoquan;Su, Zuxiang
关键词:Banana (Musa spp. AAA Cavendish); Molecular marker assistant breeding; Fusarium wilt; SCAR markers
-
Pathogen Profile of Klebsiella variicola, the Causative Agent of Banana Sheath Rot
作者:Sun, Yunhao;Zheng, Chuanyuan;Zhen, Meng;Wei, Xingying;Yan, Xun;Guo, Xiaojian;Zheng, Li;Shao, Mingwei;Li, Chunji;Qin, Di;Zhang, Jie;Dong, Zhangyong;Cheng, Ping;Yu, Guohui;Sun, Yunhao;Zheng, Chuanyuan;Zhen, Meng;Wei, Xingying;Yan, Xun;Guo, Xiaojian;Zheng, Li;Shao, Mingwei;Li, Chunji;Qin, Di;Zhang, Jie;Dong, Zhangyong;Cheng, Ping;Yu, Guohui;Sun, Yunhao;Zheng, Chuanyuan;Zhen, Meng;Wei, Xingying;Yan, Xun;Guo, Xiaojian;Zheng, Li;Shao, Mingwei;Li, Chunji;Qin, Di;Zhang, Jie;Dong, Zhangyong;Cheng, Ping;Yu, Guohui;Sun, Yunhao;Zhen, Meng;Yan, Xun;Guo, Xiaojian;Zheng, Li;Shao, Mingwei;Li, Chunji;Qin, Di;Dong, Zhangyong;Yu, Guohui;Zheng, Chuanyuan;Wei, Xingying;Zhang, Jie;Zhou, Jianuan;Xiong, Lina;Xing, Juejun;Huang, Bingzhi
关键词:banana disease; banana sheath rot; Fenza No.1; Klebsiella variicola; opportunistic pathogen
-
Endophytic Bacillus subtilis TR21 Improves Banana Plant Resistance to Fusarium oxysporum f. sp. cubense and Promotes Root Growth by Upregulating the Jasmonate and Brassinosteroid Biosynthesis Pathways
作者:Sun, Yunhao;Cheng, Ping;Li, Chunji;Zheng, Li;Dong, Zhangyong;Yu, Guohui;Sun, Yunhao;Cheng, Ping;Li, Chunji;Zheng, Li;Dong, Zhangyong;Yu, Guohui;Huang, Bingzhi;Chen, Yanhong;Li, Yongjian;Xing, Juejun
关键词:antimicrobial or fungicide resistance; Bacillus subtilis TR21; bacterial pathogens; bioinformatics; biological control; biological control agents; biotechnology; computational biology; cultural control; disease control and pest management; endophytic interactions; endophytic microbes; 'Fenza No. 1'; fungal pathogens; Fusarium wilt of banana; pathogen effectors; pathogen recognition by plants; plant immune responses; plant stress and abiotic disorders; transcriptome
