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Superior glucose metabolism supports NH4+ assimilation in wheat to improve ammonium tolerance

dc.contributor.authorHu, Jinling
dc.contributor.authorZheng, Qiaomei
dc.contributor.authorNeuhäuser, Benjamin
dc.contributor.authorDong, Chaofeng
dc.contributor.authorTian, Zhongwei
dc.contributor.authorDai, Tingbo
dc.date.accessioned2024-08-19T12:58:34Z
dc.date.available2024-08-19T12:58:34Z
dc.date.issued2024de
dc.description.abstractThe use of slow-release fertilizers and seed-fertilizers cause localized high-ammonium (NH4 +) environments in agricultural fields, adversely affecting wheat growth and development and delaying its yield. Thus, it is important to investigate the physiological responses of wheat and its tolerance to NH4 + stress to improve the adaptation of wheat to high NH4 + environments. In this study, the physiological mechanisms of ammonium tolerance in wheat (Triticum aestivum) were investigated in depth by comparative analysis of two cultivars: NH4 +-tolerant Xumai25 and NH4 +-sensitive Yangmai20. Cultivation under hydroponic conditions with high NH4 + (5 mM NH4 +, AN) and nitrate (5 mM NO3 -, NN), as control, provided insights into the nuanced responses of both cultivars. Compared to Yangmai20, Xumai25 displayed a comparatively lesser sensitivity to NH4 + stress, as evident by a less pronounced reduction in dry plant biomass and a milder adverse impact on root morphology. Despite similarities in NH4 + efflux and the expression levels of TaAMT1.1 and TaAMT1.2 between the two cultivars, Xumai25 exhibited higher NH4 + influx, while maintaining a lower free NH4 + concentration in the roots. Furthermore, Xumai25 showed a more pronounced increase in the levels of free amino acids, including asparagine, glutamine, and aspartate, suggesting a superior NH4 + assimilation capacity under NH4 + stress compared to Yangmai20. Additionally, the enhanced transcriptional regulation of vacuolar glucose transporter and glucose metabolism under NH4 + stress in Xumai25 contributed to an enhanced carbon skeleton supply, particularly of 2-oxoglutarate and pyruvate. Taken together, our results demonstrate that the NH4 + tolerance of Xumai25 is intricately linked to enhanced glucose metabolism and optimized glucose transport, which contributes to the robust NH4 + assimilation capacity. en
dc.identifier.urihttps://hohpublica.uni-hohenheim.de/handle/123456789/16107
dc.identifier.urihttps://doi.org/10.3389/fpls.2024.1339105
dc.language.isoengde
dc.rights.licensecc_byde
dc.source1664-462Xde
dc.source; Vol. 15 (2024) 1339105de
dc.subjectAmmonium stress
dc.subjectAmmonium tolerance
dc.subjectAmmonium assimilation
dc.subjectGlucose metabolism
dc.subjectWheat
dc.subject.ddc630
dc.titleSuperior glucose metabolism supports NH4+ assimilation in wheat to improve ammonium toleranceen
dc.type.diniArticle
dcterms.bibliographicCitationFrontiers in plant science, 15 (2024), 1339105. https://doi.org/10.3389/fpls.2024.1339105. ISSN: 1664-462X
dcterms.bibliographicCitation.journaltitleFrontiers in plant science
dcterms.bibliographicCitation.volume15
local.export.bibtex@article{Hu2024, url = {https://hohpublica.uni-hohenheim.de/handle/123456789/16107}, doi = {10.3389/fpls.2024.1339105}, author = {Hu, Jinling and Zheng, Qiaomei and Neuhäuser, Benjamin et al.}, title = {Superior glucose metabolism supports NH4 + assimilation in wheat to improve ammonium tolerance}, journal = {Frontiers in plant science}, year = {2024}, volume = {15}, }
local.export.bibtexAuthorHu, Jinling and Zheng, Qiaomei and Neuhäuser, Benjamin et al.
local.export.bibtexKeyHu2024
local.export.bibtexType@article

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