Yanqi Ma scite author profile

Yanqi Ma

3Publications

85Citation Statements Received

291Citation Statements Given

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Jasmonic Acid Enhances Al-Induced Root Growth Inhibition

Yang

et al. 2016

Plant Physiol.

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Phytohormones such as ethylene and auxin are involved in the regulation of the aluminum (Al)-induced root growth inhibition. Although jasmonate (JA) has been reported to play a crucial role in the regulation of root growth and development in response to environmental stresses through interplay with ethylene and auxin, its role in the regulation of root growth response to Al stress is not yet known. In an attempt to elucidate the role of JA, we found that exogenous application of JA enhanced the Al-induced root growth inhibition. Furthermore, phenotype analysis with mutants defective in either JA biosynthesis or signaling suggests that JA is involved in the regulation of Al-induced root growth inhibition. The expression of the JA receptor CORONATINE INSENSITIVE1 (COI1) and the key JA signaling regulator MYC2 was up-regulated in response to Al stress in the root tips. This process together with COI1-mediated Al-induced root growth inhibition under Al stress was controlled by ethylene but not auxin. Transcriptomic analysis revealed that many responsive genes under Al stress were regulated by JA signaling. The differential responsive of microtubule organization-related genes between the wild-type and coi1-2 mutant is consistent with the changed depolymerization of cortical microtubules in coi1 under Al stress. In addition, ALMT-mediated malate exudation and thus Al exclusion from roots in response to Al stress was also regulated by COI1-mediated JA signaling. Together, this study suggests that root growth inhibition is regulated by COI1-mediated JA signaling independent from auxin signaling and provides novel insights into the phytohormone-mediated root growth inhibition in response to Al stress.

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Calmodulin‐like protein CML24 interacts with CAMTA2 and WRKY46 to regulate ALMT1‐dependent Al resistance in Arabidopsis thaliana

et al. 2021

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Summary ALUMINUM‐ACTIVATED MALATE TRANSPORTER1 (ALMT1)‐mediated malate exudation from roots is critical for aluminium (Al) resistance in Arabidopsis. Its upstream molecular signalling regulation is not yet well understood. The role of CALMODULIN‐LIKE24 (CML24) in Al‐inhibited root growth and downstream molecular regulation of ALMT1‐meditaed Al resistance was investigated. CML24 confers Al resistance demonstrated by an increased root‐growth inhibition of the cml24 loss‐of‐function mutant under Al stress. This occurs mainly through the regulation of the ALMT1‐mediated malate exudation from roots. The mutation and overexpression of CML24 leads to an elevated and reduced Al accumulation in the cell wall of roots, respectively. Al stress induced both transcript and protein abundance of CML24 in root tips, especially in the transition zone. CML24 interacts with CALMODULIN BINDING TRANSCRIPTION ACTIVATOR2 (CAMTA2) and promotes its transcriptional activity in the regulation of ALMT1 expression. This results in an enhanced malate exudation from roots and less root‐growth inhibition under Al stress. Both CML24 and CAMTA2 interacted with WRKY46 suppressing the transcriptional repression of ALMT1 by WRKY46. The study provides novel insights into understanding of the upstream molecular signalling of the ALMT1‐depdendent Al resistance.

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Spatial–temporal analysis of polyethylene glycol-reduced aluminium accumulation and xyloglucan endotransglucosylase action in root tips of common bean (Phaseolus vulgaris)

Zhang

Horst

et al. 2016

Ann Bot

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Yanqi Ma

Jasmonic Acid Enhances Al-Induced Root Growth Inhibition

Calmodulin‐like protein CML24 interacts with CAMTA2 and WRKY46 to regulate ALMT1‐dependent Al resistance in Arabidopsis thaliana

Spatial–temporal analysis of polyethylene glycol-reduced aluminium accumulation and xyloglucan endotransglucosylase action in root tips of common bean (Phaseolus vulgaris)

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