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Home > Archive>Volume 25, Issue 10, 2024 >1793-1802. DOI:10.13430/j.cnki.jpgr.20240102004
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Functional Identification of Potato Gene StAVP1 to Enhance Drought Resistance of Arabidopsis thaliana
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Affiliation:

1.Agricultural Biotechnology Research Center, Ningxia Academy of Agriculture and Forestry Sciences, Yinchuan 750002;2.Ningxia Key Laboratory of Agricultural Biotechnology, Yinchuan 750002;3.Ningxia Agricultural Technology Extension Station, Yinchuan 750002;4.Guyuan Branch, Ningxia Academy of Agriculture and Forestry Sciences, Guyuan 756009

Fund Project:

Foundation projects: Natural Science Foundation Project of Ningxia(2022AAC03431, 2021AAC05015, 2022AAC03429);National Natural Science Foundation of China(32260504);Agricultural Science and Technology Independent Innovation Special Scientific and Technological Innovation Guidance Project of Ningxia(NKYG-22-02);Agricultural Breeding Project of Ningxia(2019NYYZ01)

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    Abstract:

    Potato (Solanum tuberosum L.) is the fourth largest food crop in the world. To explore and identify the biological basis of drought resistance genes is an important way to cultivate new varieties of drought-resistant potato. Potato StAVP1 gene is involved in material transport across the vacuolar membrane and plays an important role in plant response to material transport and abiotic stress. In this study, the StAVP1 gene with the full length of 2301 bp coding region was cloned from the leaves of ‘Atlantic’ potato. Bioinformatics analysis showed that the StAVP1 gene contained typical H+-pyrophosphatase domain and 13 transmembrane domains, which had high sequence similarity with AVP1 protein of related species, and was predicted to be located on the vesicular membrane. Tissue expression pattern analysis showed that StAVP1 gene expression was the highest in flowers and the lowest in tubers. The biomass and root length of Arabidopsis thaliana plants overexpressed in StAVP1 were significantly higher than those of wild type, and the contents of malondialdehyde in leaves of Arabidopsis thaliana plants overexpressed in StAVP1 were significantly lower than those of wild type under drought stress, while the contents of superoxide dismutase, peroxidase and proline were significantly higher than those of wild type. Stress response genes such as DREB were significantly up-regulated. The results of CoIP test showed that StAVP1 directly interacted with StRAB, and AtRAB gene expression was significantly up-regulated in Arabidopsis thaliana strains overexpressed in StAVP1 under drought stress. In this study, through biological information analysis, heterologous expression phenotype, physiological, functional verification of gene expression, protein interaction analysis, potato StAVP1 gene is an important gene source for potato genetic improvement.

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History
  • Received:January 02,2024
  • Online: October 09,2024
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