Literature DB >> 26687966

MdSOS2L1 phosphorylates MdVHA-B1 to modulate malate accumulation in response to salinity in apple.

Da-Gang Hu1, Cui-Hui Sun1, Mei-Hong Sun1, Yu-Jin Hao2.   

Abstract

KEY MESSAGE: Salt-induced phosphorylation of MdVHA-B1 protein was mediated by MdSOS2L1 protein kinase, and thereby increasing malate content in apple. Salinity is an important environmental factor that influences malate accumulation in apple. However, the molecular mechanism by which salinity regulates this process is poorly understood. In this work, we found that MdSOS2L1, a novel AtSOS2-LIKE protein kinase, interacts with V-ATPase subunit MdVHA-B1. Furthermore, MdSOS2L1 directly phosphorylates MdVHA-B1 at Ser(396) site to modulate malate accumulation in response to salt stress. Meanwhile, a series of transgenic analyses in apple calli showed that the MdSOS2L1-MdVHAB1 pathway was involved in the regulation of malate accumulation. Finally, a viral vector-based transformation approach demonstrated that the MdSOS2L1-MdVHAB1 pathway also modulated malate accumulation in apple fruits with or without salt stress. Collectively, our findings provide a new insight into the mechanism by which MdSOS2L1 phosphorylates MdVHA-B1 to modulate malate accumulation in response to salinity in apple.

Entities:  

Keywords:  Apple; Malate; MdSOS2L1; MdVHA-B1; Phosphorylation; Salt stress

Mesh:

Substances:

Year:  2015        PMID: 26687966     DOI: 10.1007/s00299-015-1914-6

Source DB:  PubMed          Journal:  Plant Cell Rep        ISSN: 0721-7714            Impact factor:   4.570


  43 in total

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Authors:  Da-Gang Hu; Ming Li; Hua Luo; Qing-Long Dong; Yu-Xin Yao; Chun-Xiang You; Yu-Jin Hao
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8.  Regulation of vacuolar Na+/H+ exchange in Arabidopsis thaliana by the salt-overly-sensitive (SOS) pathway.

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9.  Transgenic evaluation of activated mutant alleles of SOS2 reveals a critical requirement for its kinase activity and C-terminal regulatory domain for salt tolerance in Arabidopsis thaliana.

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  8 in total

1.  MdSOS2L1 forms a complex with MdMYB1 to control vacuolar pH by transcriptionally regulating MdVHA-B1 in apples.

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3.  BTB-TAZ Domain Protein MdBT2 Modulates Malate Accumulation and Vacuolar Acidification in Response to Nitrate.

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Review 4.  Apple whole genome sequences: recent advances and new prospects.

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5.  Genome-wide analysis of the apple CaCA superfamily reveals that MdCAX proteins are involved in the abiotic stress response as calcium transporters.

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6.  CsCDPK6, a CsSAMS1-Interacting Protein, Affects Polyamine/Ethylene Biosynthesis in Cucumber and Enhances Salt Tolerance by Overexpression in Tobacco.

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7.  Phosphorylation of a malate transporter promotes malate excretion and reduces cadmium uptake in apple.

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Review 8.  Mechanisms and regulation of organic acid accumulation in plant vacuoles.

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  8 in total

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