The content and diversity of carotenoids associated with high-altitude adaptation in Tibetan peach fruit

被引：15

作者：

Zheng, Weikang ^{[1
]}

Yu, Shiqi ^{[1
]}

Zhang, Wang ^{[1
]}

Zhang, Shanshan ^{[2
]}

Fu, Jialing ^{[1
]}

Ying, Hong ^{[2
]}

Pingcuo, Gesang ^{[2
]}

Liu, Shengjun ^{[1
]}

Zhao, Fan ^{[2
]}

Wu, Qingjiang ^{[1
]}

Xu, Qiang ^{[1
]}

Ma, Zhaocheng ^{[1
]}

Zeng, Xiuli ^{[2
]}

机构：

[1] Huazhong Agr Univ, Key Lab Hort Plant Biol, Minist Educ, Wuhan 430070, Peoples R China

[2] Tibet Acad Agr & Anim Husb Sci, Inst Vegetables, Lhasa 850002, Tibet, Peoples R China

来源：

FOOD CHEMISTRY | 2023年 / 398卷

关键词：

Tibetan peaches; Natural variation; Carotenoids; High altitude; Adaptation; BIOSYNTHESIS; ACCUMULATION; TEMPERATURE; PEEL;

D O I：

10.1016/j.foodchem.2022.133909

中图分类号：

O69 [应用化学];

学科分类号：

081704 ;

摘要：

Carotenoids are important secondary metabolites that may participate in response to extreme environments. Fruit color changes were observed in peaches growing at altitude on the Tibetan Plateau. Here, we qualitatively and quantitatively analyzed 43 kinds of carotenoids in 96 Tibetan peach and 12 cultivated peach fruit samples. Comparative analysis revealed that 25 kinds of carotenoids accumulated at significantly different levels between Tibetan peaches and cultivated peaches. Based on a population structure analysis, the carotenoid levels of Ti-betan peaches were divided into two groups, which are mainly affected by the environmental factors light and temperature. The correlation analysis implied that the levels of 9 carotenoids were significantly correlated with altitude. qRT-PCR results showed that PSY, CCD4 and BCH were significantly differently expressed between the low and high altitude Tibetan peaches. In summary, this study showed that the abundant variation in carotenoids was highly associated with high-altitude adaptations in Tibetan peach fruit.

引用

页数：8

共 40 条

[31] Genome of Wild Mandarin and Domestication History of Mandarin [J].

Wang, Lun ;

He, Fa ;

Huang, Yue ;

He, Jiaxian ;

Yang, Shuizhi ;

Zeng, Jiwu ;

Deng, Chongling ;

Jiang, Xiaolin ;

Fang, Yiwen ;

Wen, Shaohua ;

Xu, Rangwei ;

Yu, Huiwen ;

Yang, Xiaoming ;

Zhong, Guangyan ;

Chen, Chuanwu ;

Yan, Xiang ;

Zhou, Changfu ;

Zhang, Hongyan ;

Xie, Zongzhou ;

Larkin, Robert M. ;

Deng, Xiuxin ;

Xu, Qiang .

MOLECULAR PLANT, 2018, 11 (08) :1024-1037

[32] Genomic basis of high-altitude adaptation in Tibetan Prunus fruit trees [J].

Wang, Xia ;

Liu, Shengjun ;

Zuo, Hao ;

Zheng, Weikang ;

Zhang, Shanshan ;

Huang, Yue ;

Pingcuo, Gesang ;

Ying, Hong ;

Zhao, Fan ;

Li, Yuanrong ;

Liu, Junwei ;

Yi, Ting-Shuang ;

Zan, Yanjun ;

Larkin, Robert M. ;

Deng, Xiuxin ;

Zeng, Xiuli ;

Xu, Qiang .

CURRENT BIOLOGY, 2021, 31 (17) :3848-+

[33] Metabolic profile analysis and identification of key metabolites during rice seed germination under low-temperature stress [J].

Yang, Meng ;

Yang, Jing ;

Su, Ling ;

Sun, Kai ;

Li, Dongxiu ;

Liu, Yongzhu ;

Wang, Hui ;

Chen, Zhiqiang ;

Guo, Tao .

PLANT SCIENCE, 2019, 289

[34] Transcriptomic and metabolomic profiling provide novel insights into fruit development and flesh coloration in Prunus mira Koehne, a special wild peach species [J].

Ying, Hong ;

Shi, Jian ;

Zhang, Shanshan ;

Pingcuo, Gesang ;

Wang, Shuo ;

Zhao, Fan ;

Cui, Yongning ;

Zeng, Xiuli .

BMC PLANT BIOLOGY, 2019, 19 (01)

[35] Accelerated solvent extraction of carotenoids from: Tunisian Kaki (Diospyros kaki L.), peach (Prunus persica L.) and apricot (Prunus armeniaca L.) [J].

Zaghdoudi, Khalil ;

Pontvianne, Steve ;

Framboisier, Xavier ;

Achard, Mathilde ;

Kudaibergenova, Rabiga ;

Ayadi-Trabelsi, Malika ;

Kalthoum-Cherif, Jamila ;

Vanderesse, Regis ;

Frochot, Celine ;

Guiavarc'h, Yann .

FOOD CHEMISTRY, 2015, 184 :131-139

[36] Genome-wide Dissection of Co-selected UV-B Responsive Pathways in the UV-B Adaptation of Qingke [J].

Zeng, Xingquan ;

Yuan, Hongjun ;

Dong, Xuekui ;

Peng, Meng ;

Jing, Xinyu ;

Xu, Qijun ;

Tang, Tang ;

Wang, Yulin ;

Zha, Sang ;

Gao, Meng ;

Li, Congzhi ;

Shu, Chujin ;

Wei, Zexiu ;

Qimei, Wangmu ;

Basang, Yuzhen ;

Dunzhu, Jiabu ;

Li, Zeqing ;

Bai, Lijun ;

Shi, Jian ;

Zheng, Zhigang ;

Yu, Sibin ;

Fernie, Alisdair R. ;

Luo, Jie ;

Nyima, Tashi .

MOLECULAR PLANT, 2020, 13 (01) :112-127

[37] Genomic basis underlying the metabolome-mediated drought adaptation of maize [J].

Zhang, Fei ;

Wu, Jinfeng ;

Sade, Nir ;

Wu, Si ;

Egbaria, Aiman ;

Fernie, Alisdair R. ;

Yan, Jianbing ;

Qin, Feng ;

Chen, Wei ;

Brotman, Yariv ;

Dai, Mingqiu .

GENOME BIOLOGY, 2021, 22 (01)

[38] A UV-B-responsive glycosyltransferase, OsUGT706C2, modulates flavonoid metabolism in rice [J].

Zhang, Feng ;

Guo, Hao ;

Huang, Jiacheng ;

Yang, Chenkun ;

Li, Yufei ;

Wang, Xuyang ;

Qu, Lianghuan ;

Liu, Xianqing ;

Luo, Jie .

SCIENCE CHINA-LIFE SCIENCES, 2020, 63 (07) :1037-1052

[39] Lipid and carotenoid production by Rhodotorula glutinis under irradiation/high-temperature and dark/low-temperature cultivation [J].

Zhang, Zhiping ;

Zhang, Xu ;

Tan, Tianwei .

BIORESOURCE TECHNOLOGY, 2014, 157 :149-153

[40] Natural Variation in CCD4 Promoter Underpins Species-Specific Evolution of Red Coloration in Citrus Peel [J].

Zheng, Xiongjie ;

Zhu, Kaijie ;

Sun, Quan ;

Zhang, Weiyi ;

Wang, Xia ;

Cao, Hongbo ;

Tan, Meilian ;

Xie, Zongzhou ;

Zeng, Yunliu ;

Ye, Junli ;

Chai, Lijun ;

Xu, Qiang ;

Pan, Zhiyong ;

Xiao, Shunyuan ;

Fraser, Paul D. ;

Deng, Xiuxin .

MOLECULAR PLANT, 2019, 12 (09) :1294-1307

← 1 2 3 4 →