Visualized analysis of amino acids and organic acids in wheat caryopsis in response to multigenerational effects of elevated atmospheric CO2 concentration

Department of Plant and Environmental Sciences

Visualized analysis of amino acids and organic acids in wheat caryopsis in response to multigenerational effects of elevated atmospheric CO2 concentration

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Visualized analysis of amino acids and organic acids in wheat caryopsis in response to multigenerational effects of elevated atmospheric CO2 concentration. / Li, Shuxin; Jian, Shulian; Zhang, Peng; Wang, Ling; Hu, Zhe; Liu, Fulai; Li, Xiangnan.

In: Environmental and Experimental Botany, Vol. 207, 105225, 2023.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Li, S, Jian, S, Zhang, P, Wang, L, Hu, Z, Liu, F & Li, X 2023, 'Visualized analysis of amino acids and organic acids in wheat caryopsis in response to multigenerational effects of elevated atmospheric CO2 concentration', Environmental and Experimental Botany, vol. 207, 105225. https://doi.org/10.1016/j.envexpbot.2023.105225

APA

Li, S., Jian, S., Zhang, P., Wang, L., Hu, Z., Liu, F., & Li, X. (2023). Visualized analysis of amino acids and organic acids in wheat caryopsis in response to multigenerational effects of elevated atmospheric CO2 concentration. Environmental and Experimental Botany, 207, [105225]. https://doi.org/10.1016/j.envexpbot.2023.105225

Vancouver

Li S, Jian S, Zhang P, Wang L, Hu Z, Liu F et al. Visualized analysis of amino acids and organic acids in wheat caryopsis in response to multigenerational effects of elevated atmospheric CO2 concentration. Environmental and Experimental Botany. 2023;207. 105225. https://doi.org/10.1016/j.envexpbot.2023.105225

Author

Li, Shuxin ; Jian, Shulian ; Zhang, Peng ; Wang, Ling ; Hu, Zhe ; Liu, Fulai ; Li, Xiangnan. / Visualized analysis of amino acids and organic acids in wheat caryopsis in response to multigenerational effects of elevated atmospheric CO2 concentration. In: Environmental and Experimental Botany. 2023 ; Vol. 207.

Bibtex

@article{c85a319d986243f682bc3dea276a85ee,

title = "Visualized analysis of amino acids and organic acids in wheat caryopsis in response to multigenerational effects of elevated atmospheric CO2 concentration",

abstract = "The response of wheat to elevated atmospheric CO2 concentration (e[CO2]) within a single generation is being cumulatively studied, but multigenerational effects of e[CO2] on wheat is largely unknown. In this study, the emerging spatially resolved metabolomics was used to visualize the spatial distributions of amino acids and organic acids in wheat caryopsis exposed to multigenerational e[CO2]. These results showed that nine kinds of amino acids and three kinds of organic acids exhibited embryo-distribution pattern in wheat caryopsis under sequential atmospheric CO2 concentration (a[CO2]). Additionally, e[CO2] can induce nonuniformly spatial distribution of amino acids and organic acids. Further inspection of the differential accumulation of amino acids in embryo/endosperm under multigenerational e[CO2] exposure indicated that the abundance of valine, glutamine, glutamic acid and histidine in embryo was decreased by multigenerational e[CO2] exposure, whereas abundance of lysine, aspartic acid and glutamic acid in endosperm showed different trends. Multigenerational e[CO2] exposure decreased the abundance of ascorbic acid and cis-aconitic acid, regardless of regions, while increased the abundance of malic acid in endosperm. It was suggested that the long-term e[CO2] cause inconsistent changes in embryo and endosperm, which may lead to potential impacts on human dietary health and crop offspring vigor.",

author = "Shuxin Li and Shulian Jian and Peng Zhang and Ling Wang and Zhe Hu and Fulai Liu and Xiangnan Li",

year = "2023",

doi = "10.1016/j.envexpbot.2023.105225",

language = "English",

volume = "207",

journal = "Environmental and Experimental Botany",

issn = "0098-8472",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Visualized analysis of amino acids and organic acids in wheat caryopsis in response to multigenerational effects of elevated atmospheric CO2 concentration

AU - Li, Shuxin

AU - Jian, Shulian

AU - Zhang, Peng

AU - Wang, Ling

AU - Hu, Zhe

AU - Liu, Fulai

AU - Li, Xiangnan

PY - 2023

Y1 - 2023

N2 - The response of wheat to elevated atmospheric CO2 concentration (e[CO2]) within a single generation is being cumulatively studied, but multigenerational effects of e[CO2] on wheat is largely unknown. In this study, the emerging spatially resolved metabolomics was used to visualize the spatial distributions of amino acids and organic acids in wheat caryopsis exposed to multigenerational e[CO2]. These results showed that nine kinds of amino acids and three kinds of organic acids exhibited embryo-distribution pattern in wheat caryopsis under sequential atmospheric CO2 concentration (a[CO2]). Additionally, e[CO2] can induce nonuniformly spatial distribution of amino acids and organic acids. Further inspection of the differential accumulation of amino acids in embryo/endosperm under multigenerational e[CO2] exposure indicated that the abundance of valine, glutamine, glutamic acid and histidine in embryo was decreased by multigenerational e[CO2] exposure, whereas abundance of lysine, aspartic acid and glutamic acid in endosperm showed different trends. Multigenerational e[CO2] exposure decreased the abundance of ascorbic acid and cis-aconitic acid, regardless of regions, while increased the abundance of malic acid in endosperm. It was suggested that the long-term e[CO2] cause inconsistent changes in embryo and endosperm, which may lead to potential impacts on human dietary health and crop offspring vigor.

AB - The response of wheat to elevated atmospheric CO2 concentration (e[CO2]) within a single generation is being cumulatively studied, but multigenerational effects of e[CO2] on wheat is largely unknown. In this study, the emerging spatially resolved metabolomics was used to visualize the spatial distributions of amino acids and organic acids in wheat caryopsis exposed to multigenerational e[CO2]. These results showed that nine kinds of amino acids and three kinds of organic acids exhibited embryo-distribution pattern in wheat caryopsis under sequential atmospheric CO2 concentration (a[CO2]). Additionally, e[CO2] can induce nonuniformly spatial distribution of amino acids and organic acids. Further inspection of the differential accumulation of amino acids in embryo/endosperm under multigenerational e[CO2] exposure indicated that the abundance of valine, glutamine, glutamic acid and histidine in embryo was decreased by multigenerational e[CO2] exposure, whereas abundance of lysine, aspartic acid and glutamic acid in endosperm showed different trends. Multigenerational e[CO2] exposure decreased the abundance of ascorbic acid and cis-aconitic acid, regardless of regions, while increased the abundance of malic acid in endosperm. It was suggested that the long-term e[CO2] cause inconsistent changes in embryo and endosperm, which may lead to potential impacts on human dietary health and crop offspring vigor.

U2 - 10.1016/j.envexpbot.2023.105225

DO - 10.1016/j.envexpbot.2023.105225

M3 - Journal article

VL - 207

JO - Environmental and Experimental Botany

JF - Environmental and Experimental Botany

SN - 0098-8472

M1 - 105225

ER -

ID: 332108563