Summary of study ST001648

This data is available at the NIH Common Fund's National Metabolomics Data Repository (NMDR) website, the Metabolomics Workbench, https://www.metabolomicsworkbench.org, where it has been assigned Project ID PR001054. The data can be accessed directly via it's Project DOI: 10.21228/M8FX20 This work is supported by NIH grant, U2C- DK119886.

See: https://www.metabolomicsworkbench.org/about/howtocite.php

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Study IDST001648
Study TitleComprehensive dissection of primary metabolites in response to diverse abiotic stress in barley at seedling stage
Study TypeArtical
Study SummaryPlants will meet various abiotic stresses during their growth and development. One of the important strategies for plants to deal with the stress is involved in metabolic regulation, causing the dramatic changes of metabolite profiles. Metabolomic studies have been intensively conducted to reveal the responses of plants to abiotic stress, but most of them were limited to one or at most two abiotic stresses in a single experiment. In this study, we compared the metabolite profiles of barley seedlings exposed to seven abiotic stresses simultaneously, including drought, salt stress, aluminum (Al), cadmium (Cd), deficiency of nitrogen (N), phosphorus (P) and potassium (K). The results showed that metabolite profiles of barley under these stresses could be classified into three types: osmotic stresses (drought and salt); metal stresses (Al and Cd) and nutrient deficiencies (N, P and K deficiencies). Compared with the control, some metabolites (including polyamines, raffinose and piperonic acid) in plants exposed to all abiotic stresses changed significantly, while some other metabolites showed the specific change only under a certain abiotic stress, such as proline being largely increased by osmotic stress (drought and salinity), the P-containing metabolites being largely decreased under P deficiency, some amino acids (lysine, tyrosine, threonine, ornithineļ¼Œ glutamine and so on) showing the dramatic reduction in the plants exposed to N deficiencies, respectively. The current meta-analysis obtained a comprehensive view on the metabolic responses to various abiotic stress, and improved the understanding of the mechanisms for tolerance of barley to abiotic stress.
Institute
Zhengjiang University
DepartmentCrop Research Institute
LaboratoryBarley Research Group of Crop Institute
Last NameZhao
First NameHuifang
AddressWest Lake District, 866 Yuhangtang Road
Email11716028@zju.edu.cn
Phone18888923662
Submit Date2021-01-07
Num Groups1
Total Subjects1
Num Males2
Num Females1
PublicationsPLANT PHYSIOLOGY AND BIOCHEMISTRY
Raw Data AvailableYes
Raw Data File Type(s).d
Analysis Type DetailAPI-MS
Release Date2022-01-08
Release Version1
Huifang Zhao Huifang Zhao
https://dx.doi.org/10.21228/M8FX20
ftp://www.metabolomicsworkbench.org/Studies/ application/zip

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Factors:

Subject type: Plant; Subject species: Hordeum vulgare L. (Factor headings shown in green)

mb_sample_id local_sample_id Treatment
SA151599root-13Root_Al-1
SA151600root-14Root_Al-2
SA151601root-15Root_Al-3
SA151602root-16Root_Al-4
SA151603root-17Root_Cd-1
SA151604root-18Root_Cd-2
SA151605root-19Root_Cd-3
SA151606root-20Root_Cd-4
SA151607root-1Root_Control-1
SA151608root-2Root_Control-2
SA151609root-3Root_Control-3
SA151610root-4Root_Control-4
SA151611root-9Root_Drought-1
SA151612root-10Root_Drought-2
SA151613root-11Root_Drought-3
SA151614root-12Root_Drought-4
SA151615root-29Root_K deficiency-1
SA151616root-30Root_K deficiency-2
SA151617root-31Root_K deficiency-3
SA151618root-32Root_K deficiency-4
SA151619root-21Root_N deficiency-1
SA151620root-22Root_N deficiency-2
SA151621root-23Root_N deficiency-3
SA151622root-24Root_N deficiency-4
SA151623root-25Root_P deficiency-1
SA151624root-26Root_P deficiency-2
SA151625root-27Root_P deficiency-3
SA151626root-28Root_P deficiency-4
SA151627root-5Root_Salt-1
SA151628root-6Root_Salt-2
SA151629root-7Root_Salt-3
SA151630root-8Root_Salt-4
SA151631shoot-13Shoot_Al-1
SA151632shoot-14Shoot_Al-2
SA151633shoot-15Shoot_Al-3
SA151634shoot-16Shoot_Al-4
SA151635shoot-17Shoot_Cd-1
SA151636shoot-18Shoot_Cd-2
SA151637shoot-19Shoot_Cd-3
SA151638shoot-20Shoot_Cd-4
SA151639shoot-1Shoot_Control-1
SA151640shoot-2Shoot_Control-2
SA151641shoot-3Shoot_Control-3
SA151642shoot-4Shoot_Control-4
SA151643shoot-9Shoot_Drought-1
SA151644shoot-10Shoot_Drought-2
SA151645shoot-11Shoot_Drought-3
SA151646shoot-12Shoot_Drought-4
SA151647shoot-29Shoot_K deficiency-1
SA151648shoot-30Shoot_K deficiency-2
SA151649shoot-31Shoot_K deficiency-3
SA151650shoot-32Shoot_K deficiency-4
SA151651shoot-21Shoot_N deficiency-1
SA151652shoot-22Shoot_N deficiency-2
SA151653shoot-23Shoot_N deficiency-3
SA151654shoot-24Shoot_N deficiency-4
SA151655shoot-25Shoot_P deficiency-1
SA151656shoot-26Shoot_P deficiency-2
SA151657shoot-27Shoot_P deficiency-3
SA151658shoot-28Shoot_P deficiency-4
SA151659shoot-5Shoot_Salt-1
SA151660shoot-6Shoot_Salt-2
SA151661shoot-7Shoot_Salt-3
SA151662shoot-8Shoot_Salt-4
Showing results 1 to 64 of 64
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